WorldWideScience

Sample records for learning medical education

  1. Applying adult learning practices in medical education.

    Science.gov (United States)

    Reed, Suzanne; Shell, Richard; Kassis, Karyn; Tartaglia, Kimberly; Wallihan, Rebecca; Smith, Keely; Hurtubise, Larry; Martin, Bryan; Ledford, Cynthia; Bradbury, Scott; Bernstein, Henry Hank; Mahan, John D

    2014-07-01

    The application of the best practices of teaching adults to the education of adults in medical education settings is important in the process of transforming learners to become and remain effective physicians. Medical education at all levels should be designed to equip physicians with the knowledge, clinical skills, and professionalism that are required to deliver quality patient care. The ultimate outcome is the health of the patient and the health status of the society. In the translational science of medical education, improved patient outcomes linked directly to educational events are the ultimate goal and are best defined by rigorous medical education research efforts. To best develop faculty, the same principles of adult education and teaching adults apply. In a systematic review of faculty development initiatives designed to improve teaching effectiveness in medical education, the use of experiential learning, feedback, effective relationships with peers, and diverse educational methods were found to be most important in the success of these programs. In this article, we present 5 examples of applying the best practices in teaching adults and utilizing the emerging understanding of the neurobiology of learning in teaching students, trainees, and practitioners. These include (1) use of standardized patients to develop communication skills, (2) use of online quizzes to assess knowledge and aid self-directed learning, (3) use of practice sessions and video clips to enhance significant learning of teaching skills, (4) use of case-based discussions to develop professionalism concepts and skills, and (5) use of the American Academy of Pediatrics PediaLink as a model for individualized learner-directed online learning. These examples highlight how experiential leaning, providing valuable feedback, opportunities for practice, and stimulation of self-directed learning can be utilized as medical education continues its dynamic transformation in the years ahead

  2. Leveraging e-learning in medical education.

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    Lewis, Kadriye O; Cidon, Michal J; Seto, Teresa L; Chen, Haiqin; Mahan, John D

    2014-07-01

    e-Learning has become a popular medium for delivering instruction in medical education. This innovative method of teaching offers unique learning opportunities for medical trainees. The purpose of this article is to define the present state of e-learning in pediatrics and how to best leverage e-learning for educational effectiveness and change in medical education. Through addressing under-examined and neglected areas in implementation strategies for e-learning, its usefulness in medical education can be expanded. This study used a systematic database review of published studies in the field of e-learning in pediatric training between 2003 and 2013. The search was conducted using educational and health databases: Scopus, ERIC, PubMed, and search engines Google and Hakia. A total of 72 reference articles were suitable for analysis. This review is supplemented by the use of "e-Learning Design Screening Questions" to define e-learning design and development in 10 randomly selected articles. Data analysis used template-based coding themes and counting of the categories using descriptive statistics.Our search for pediatric e-learning (using Google and Hakia) resulted in six well-defined resources designed to support the professional development of doctors, residents, and medical students. The majority of studies focused on instructional effectiveness and satisfaction. There were few studies about e-learning development, implementation, and needs assessments used to identify the institutional and learners' needs. Reviewed studies used various study designs, measurement tools, instructional time, and materials for e-learning interventions. e-Learning is a viable solution for medical educators faced with many challenges, including (1) promoting self-directed learning, (2) providing flexible learning opportunities that would offer continuous (24h/day/7 days a week) availability for learners, and (3) engaging learners through collaborative learning communities to gain

  3. Mobile Learning in Medical Education: Review.

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    Walsh, Kieran

    2015-10-01

    In the past several years, mobile learning made rapid inroads into the provision of medical education. There are significant advantages associated with mobile learning. These include high access, low cost, more situated and contextual learning, convenience for the learner, continuous communication and interaction between learner and tutor and between learner and other learners, and the ability to self-assess themselves while learning. Like any other form of medical pedagogy, mobile learning has its downsides. Disadvantages of mobile learning include: inadequate technology, a risk of distraction from learning by using a device that can be used for multiple purposes, and the potential for breakdown in barriers between personal usage of the mobile device and professional or educational use. Despite these caveats, there is no question but that mobile learning offers much potential. In the future, it is likely that the strategy of mobile first, whereby providers of e-learning think of the user experience on a mobile first, will result in learners who increasingly expect that all e-learning provision will work seamlessly on a mobile device.

  4. Learning Styles and Continuing Medical Education.

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    Van Voorhees, Curtis; And Others

    1988-01-01

    The Gregorc Style Delineator--Word Matrix was administered to 2,060 physicians in order to gain a better understanding of their participation in continuing medical education. The study showed that 63 percent preferred the concrete sequential learning style. Different style preferences may account for some of the apparent disparity between…

  5. Learning Styles in Continuing Medical Education.

    Science.gov (United States)

    Bennet, Nancy L.; Fox, Robert D.

    1984-01-01

    Synthesizes literature on cognitive style and considers issues about its role in continuing medical education research, including whether it should be used as a dependent or independent variable and how it may be used in causal models. (SK)

  6. The impact of E-learning in medical education.

    Science.gov (United States)

    Ruiz, Jorge G; Mintzer, Michael J; Leipzig, Rosanne M

    2006-03-01

    The authors provide an introduction to e-learning and its role in medical education by outlining key terms, the components of e-learning, the evidence for its effectiveness, faculty development needs for implementation, evaluation strategies for e-learning and its technology, and how e-learning might be considered evidence of academic scholarship. E-learning is the use of Internet technologies to enhance knowledge and performance. E-learning technologies offer learners control over content, learning sequence, pace of learning, time, and often media, allowing them to tailor their experiences to meet their personal learning objectives. In diverse medical education contexts, e-learning appears to be at least as effective as traditional instructor-led methods such as lectures. Students do not see e-learning as replacing traditional instructor-led training but as a complement to it, forming part of a blended-learning strategy. A developing infrastructure to support e-learning within medical education includes repositories, or digital libraries, to manage access to e-learning materials, consensus on technical standardization, and methods for peer review of these resources. E-learning presents numerous research opportunities for faculty, along with continuing challenges for documenting scholarship. Innovations in e-learning technologies point toward a revolution in education, allowing learning to be individualized (adaptive learning), enhancing learners' interactions with others (collaborative learning), and transforming the role of the teacher. The integration of e-learning into medical education can catalyze the shift toward applying adult learning theory, where educators will no longer serve mainly as the distributors of content, but will become more involved as facilitators of learning and assessors of competency.

  7. E-Learning in Medical Education in India.

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    Dhir, Shashi Kant; Verma, Devender; Batta, Meenal; Mishra, Devendra

    2017-10-15

    E-learning, or learning and teaching facilitated and supported through the application of technology, is presently being used widely in all fields of education, and also being utilized extensively in medical education. This narrative review aims to introduce the concept of e-learning, and discuss its need and scope in medical education in India. Experience shows that students and faculty are mostly in favor of adopting e-learning side-by-side with traditional learning, and the advantages far outweigh the likely discomfort associated with adoption of this new method.

  8. Service Learning in Medical Education: Project Description and Evaluation

    Science.gov (United States)

    Borges, Nicole J.; Hartung, Paul J.

    2007-01-01

    Although medical education has long recognized the importance of community service, most medical schools have not formally nor fully incorporated service learning into their curricula. To address this problem, we describe the initial design, development, implementation, and evaluation of a service-learning project within a first-year medical…

  9. E-learning as new method of medical education.

    Science.gov (United States)

    Masic, Izet

    2008-01-01

    NONE DECLARED Distance learning refers to use of technologies based on health care delivered on distance and covers areas such as electronic health, tele-health (e-health), telematics, telemedicine, tele-education, etc. For the need of e-health, telemedicine, tele-education and distance learning there are various technologies and communication systems from standard telephone lines to the system of transmission digitalized signals with modem, optical fiber, satellite links, wireless technologies, etc. Tele-education represents health education on distance, using Information Communication Technologies (ICT), as well as continuous education of a health system beneficiaries and use of electronic libraries, data bases or electronic data with data bases of knowledge. Distance learning (E-learning) as a part of tele-education has gained popularity in the past decade; however, its use is highly variable among medical schools and appears to be more common in basic medical science courses than in clinical education. Distance learning does not preclude traditional learning processes; frequently it is used in conjunction with in-person classroom or professional training procedures and practices. Tele-education has mostly been used in biomedical education as a blended learning method, which combines tele-education technology with traditional instructor-led training, where, for example, a lecture or demonstration is supplemented by an online tutorial. Distance learning is used for self-education, tests, services and for examinations in medicine i.e. in terms of self-education and individual examination services. The possibility of working in the exercise mode with image files and questions is an attractive way of self education. Automated tracking and reporting of learners' activities lessen faculty administrative burden. Moreover, e-learning can be designed to include outcomes assessment to determine whether learning has occurred. This review article evaluates the current

  10. Adaptive and perceptual learning technologies in medical education and training.

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    Kellman, Philip J

    2013-10-01

    Recent advances in the learning sciences offer remarkable potential to improve medical education and maximize the benefits of emerging medical technologies. This article describes 2 major innovation areas in the learning sciences that apply to simulation and other aspects of medical learning: Perceptual learning (PL) and adaptive learning technologies. PL technology offers, for the first time, systematic, computer-based methods for teaching pattern recognition, structural intuition, transfer, and fluency. Synergistic with PL are new adaptive learning technologies that optimize learning for each individual, embed objective assessment, and implement mastery criteria. The author describes the Adaptive Response-Time-based Sequencing (ARTS) system, which uses each learner's accuracy and speed in interactive learning to guide spacing, sequencing, and mastery. In recent efforts, these new technologies have been applied in medical learning contexts, including adaptive learning modules for initial medical diagnosis and perceptual/adaptive learning modules (PALMs) in dermatology, histology, and radiology. Results of all these efforts indicate the remarkable potential of perceptual and adaptive learning technologies, individually and in combination, to improve learning in a variety of medical domains. Reprint & Copyright © 2013 Association of Military Surgeons of the U.S.

  11. Transformative learning: empathy and multicultural awareness in podiatric medical education.

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    Elliott, Craig M; Toomey, Robert J; Goodman, Brooke A; Barbosa, Peter

    2012-01-01

    Short-term medical missions are common in medical educational settings and could possibly affect student learning. Little research has been conducted about the potential of these missions on students' transformative learning, in particular as it relates to empathy and multicultural awareness. Eight podiatric medical students who participated in short-term medical missions in 2008 and 2009 completed an electronic survey to investigate the effect of their experience as it relates to their learning. The empathy and multicultural awareness impact of the mission experience was emphasized. Qualitative questions in the survey were coded, themed, and triangulated with the quantitative responses. Six students (75%) "strongly agreed" that participating in the medical mission was a significant positive experience in their podiatric medical training. Six students felt that their experiences in serving these communities increased their personal awareness of multicultural/diversity needs in general. All of the students agreed that they will become better podiatric physicians because of their experiences in the medical missions. The qualitative data also indicate that the experience had an effect on the students' views of health care and increased empathy toward their patients. Short-term medical missions could play a significant role in the transformative learning experience in podiatric medical education. This could affect the empathy and multicultural awareness of podiatric medical students. Further and more extensive evaluations of the potential impact of short-term medical missions in podiatric medical education should be explored because it could influence curriculum and global health in the field of podiatric medicine.

  12. [Learning objectives achievement in ethics education for medical school students].

    Science.gov (United States)

    Chae, Sujin; Lim, Kiyoung

    2015-06-01

    This study aimed to examine the necessity for research ethics and learning objectives in ethics education at the undergraduate level. A total of 393 fourth-year students, selected from nine medical schools, participated in a survey about learning achievement and the necessity for it. It was found that the students had very few chances to receive systematic education in research ethics and that they assumed that research ethics education was provided during graduate school or residency programs. Moreover, the students showed a relatively high learning performance in life ethics, while learning achievement was low in research ethics. Medical school students revealed low interest in and expectations of research ethics in general; therefore, it is necessary to develop guidelines for research ethics in the present situation, in which medical education mainly focuses on life ethics.

  13. Learning environment, approaches to learning and learning preferences: medical students versus general education students.

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    Ullah, Raza

    2016-05-01

    The main objective of the study was to see whether medical students use more desirable approaches to studying than general education students. Survey method was used to collect data from both the medical students and the general education students. The survey of the medical students was carried out between January and March, 2012. The survey was administered to all the medical students present in lecture halls on day of data collection, while general education students were randomly selected from four subject areas at two universities. In total, 976 medical students and 912 general students participated in the study. Of the general students, 494(54%) were boys and 418(46%)were girls with an overall mean age of 20.53±1.77 years (range: 17-27 years). The medical students' perceptions of their learning environment and their learning preferences were broadly similar to that of general education students with the exception of workload. The medical students perceived the workload to be less appropriate (Mean = 2.06±0.72) than the students in general education (Mean = 2.84±0.90). The medical students were more likely to use the deep approach to studying (Mean = 3.66±0.59) than the students in general education (Mean = 3.16±0.91). The students in general education were slightly more likely to use the organized studying (Mean = 3.44±0.90) than the medical students (Mean =3.23±0.90). Both medical students and the students in general education tended to use the surface approaches along with other approaches to studying. There was not a great difference between the medical students and the students pursuing general education with regard to perceptions of the learning environment and approaches to learning.

  14. Application of Learning Theories on Medical Imaging Education

    Directory of Open Access Journals (Sweden)

    Osama A. Mabrouk Kheiralla

    2018-05-01

    Full Text Available The main objective of the education process is that student must learn well rather than the educators to teach well. If radiologists get involved in the process of medical education, it is important for them to do it through sound knowledge of how students learn. Researches have proved that most of the teachers in the field of medical education including diagnostic imaging are actually doctors or technicians, who didn’t have an opportunity to study the basics of learning. Mostly they have gained their knowledge through watching other educators, and they mostly rely on their personal skills and experience in doing their job. This will hinder them from conveying knowledge in an effective and scientific way, and they will find themselves lagging away behind the latest advances in the field of medical education and educational research, which will lead to negative cognitive outcomes among learners. This article presents an overview of three of the most influential basic theories of learning, upon which many teachers rely in their practical applications, which must be considered by radiologist who act as medical educators.

  15. Applying multimedia design principles enhances learning in medical education.

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    Issa, Nabil; Schuller, Mary; Santacaterina, Susan; Shapiro, Michael; Wang, Edward; Mayer, Richard E; DaRosa, Debra A

    2011-08-01

    The Association of American Medical Colleges' Institute for Improving Medical Education's report entitled 'Effective Use of Educational Technology' called on researchers to study the effectiveness of multimedia design principles. These principles were empirically shown to result in superior learning when used with college students in laboratory studies, but have not been studied with undergraduate medical students as participants. A pre-test/post-test control group design was used, in which the traditional-learning group received a lecture on shock using traditionally designed slides and the modified-design group received the same lecture using slides modified in accord with Mayer's principles of multimedia design. Participants included Year 3 medical students at a private, midwestern medical school progressing through their surgery clerkship during the academic year 2009-2010. The medical school divides students into four groups; each group attends the surgery clerkship during one of the four quarters of the academic year. Students in the second and third quarters served as the modified-design group (n=91) and students in the fourth-quarter clerkship served as the traditional-design group (n=39). Both student cohorts had similar levels of pre-lecture knowledge. Both groups showed significant improvements in retention (paffect transfer of learning. Further research on applying the principles of multimedia design to medical education is needed to verify the impact it has on the long-term learning of medical students, as well as its impact on other forms of multimedia instructional programmes used in the education of medical students. © Blackwell Publishing Ltd 2011.

  16. Learning by Living: Life-Altering Medical Education through Nursing Home-Based Experiential Learning

    Science.gov (United States)

    Gugliucci, Marilyn R.; Weiner, Audrey

    2013-01-01

    The University of New England College of Osteopathic Medicine Learning by Living Project (referred to as Learning by Living) was piloted in 2006 as an experiential medical education learning model. Since its inception, medical and other health professions students have been "admitted" into nursing homes to live the life of an older adult nursing…

  17. Commentary: On regulation and medical education: sociology, learning, and accountability.

    Science.gov (United States)

    Durning, Steven J; Artino, Anthony R; Holmboe, Eric

    2009-05-01

    The topic of regulation is commonplace in society, yet it seems to receive little explicit consideration in discussions on undergraduate medical education. The accompanying articles by Hauer and colleagues, White and colleagues, and Bloodgood and colleagues approach the topic of regulation from several different viewpoints. In this commentary, we too approach the topic of regulation from several different viewpoints: sociology, learning (self-regulated learning), and accountability. In this commentary, we present both theoretical and practical issues with the aim of initiating an open, scholarly discussion in the field of medical education. Ultimately, we hope other medical educators will seriously contemplate the questions raised and, more importantly, will consider employing these theoretical perspectives into future research efforts.

  18. Learning the law: practical proposals for UK medical education.

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    Margetts, J K

    2016-02-01

    Ongoing serious breaches in medical professionalism might be avoided if UK doctors rethink their approach to law. UK medical education has a role in creating a climate of change by re-examining how law is taught to medical students. Adopting a more insightful approach in the UK to the impact of The Human Rights Act and learning to manipulate legal concepts, such as conflict of interest, need to be taught to medical students now if UK doctors are to manage complex decision-making in the NHS of the future. The literature is reviewed from a unique personal perspective of a doctor and lawyer, and practical proposals for developing medical education in law in the UK are suggested. Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/

  19. Technology in postgraduate medical education: a dynamic influence on learning?

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    Bullock, Alison; Webb, Katie

    2015-11-01

    The influence of technology in medical workplace learning is explored by focusing on three uses: m-learning (notably apps), simulation and social media. Smartphones with point-of-care tools (such as textbooks, drug guides and medical calculators) can support workplace learning and doctors' decision-making. Simulations can help develop technical skills and team interactions, and 'in situ' simulations improve the match between the virtual and the real. Social media (wikis, blogs, networking, YouTube) heralds a more participatory and collaborative approach to knowledge development. These uses of technology are related to Kolb's learning cycle and Eraut's intentions of informal learning. Contentions and controversies with these technologies exist. There is a problem with the terminology commonly adopted to describe the use of technology to enhance learning. Using learning technology in the workplace changes the interaction with others and raises issues of professionalism and etiquette. Lack of regulation makes assessment of app quality a challenge. Distraction and dependency are charges levelled at smartphone use in the workplace and these need further research. Unless addressed, these and other challenges will impede the benefits that technology may bring to postgraduate medical education. Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/

  20. Learner-centred medical education: Improved learning or increased stress?

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    McLean, Michelle; Gibbs, Trevor J

    2009-12-01

    Globally, as medical education undergoes significant reform towards more "learner-centred" approaches, specific implications arise for medical educators and learners. Although this learner-centredness is grounded in educational theory, a point of discussion would be whether the application and practice of these new curricula alleviate or exacerbate student difficulties and levels of stress. This commentary will argue that while this reform in medical education is laudable, with positive implications for learning, medical educators may not have understood or perhaps not embraced "learner-centredness" in its entirety. During their training, medical students are expected to be "patient-centred". They are asked to apply a biopsychosocial model, which takes cognisance of all aspects of a patient's well-being. While many medical schools profess that their curricula reflect these principles, in reality, many may not always practice what they preach. Medical training all too often remains grounded in the biomedical model, with the cognitive domain overshadowing the psychosocial development and needs of learners. Entrusted by parents and society with the education and training of future healthcare professionals, medical education needs to move to a "learner-centred philosophy", in which the "whole" student is acknowledged. As undergraduate and post-graduate students increasingly apply their skills in an international arena, this learner-centredness should equally encapsulate the gender, cultural and religious diversity of both patients and students. Appropriate support structures, role models and faculty development are required to develop skills, attitudes and professional behaviour that will allow our graduates to become caring and sensitive healthcare providers.

  1. Evaluation of problem-based learning in medical students’ education

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    MOHAMMAD HADI IMANIEH

    2014-01-01

    Full Text Available Introduction: In traditional medical education systems much interest is placed on the cramming of basic and clinical facts without considering their applicability in the future professional career. The aim of this study is to evaluate a novice medical training method (problem-based learning as compared to the contemporary teacher-based medical education or traditional methods. Methods: Selection of the study subjects was done through simple sampling and according to the division of medical students introduced from Medical Faculty to the Pediatrics Department with no personal involvement. 120 medical students were assigned to 8 groups of 15 students each. For four months, 4 groups were trained with traditional method and 4 other groups underwent problem-based learning method on selected subject materials. In each method, a pre-course test at the beginning and a post-course test at the end of each course were given to each group. The questionnaire used in this study as the instrument was composed of 39 questions, 37 multiple choice questions and two short answer questions. Three professors of pediatric gastroenterologist took part in the training. Two of these professors were responsible for solving task training method. The third professor used traditional teacher-centered methodology to eliminate any possible bias. Scores obtained from these tests were analyzed using paired t-test and independent t-test. P values of less than 0.05 were considered as significant. Results: The scores of the students undergoing the traditional method were 14.70±3.03 and 21.20±4.07 in the first and second test, respectively. In problembased learning, the scores were 15.82±3.29 in the first and 27.52±4.72 in the second test. There was a significant difference between the mean scores of post-course exams of the two groups (p=0.001, while no significant difference was observed between the mean scores of pre-course exams of the groups (p=0.550. Conclusion: It may be

  2. Group processes in medical education: learning from social identity theory.

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    Burford, Bryan

    2012-02-01

    The clinical workplace in which doctors learn involves many social groups, including representatives of different professions, clinical specialties and workplace teams. This paper suggests that medical education research does not currently take full account of the effects of group membership, and describes a theoretical approach from social psychology, the social identity approach, which allows those effects to be explored. The social identity approach has a long history in social psychology and provides an integrated account of group processes, from the adoption of group identity through a process of self-categorisation, to the biases and conflicts between groups. This paper outlines key elements of this theoretical approach and illustrates their relevance to medical education. The relevance of the social identity approach is illustrated with reference to a number of areas of medical education. The paper shows how research questions in medical education may be usefully reframed in terms of social identity in ways that allow a deeper exploration of the psychological processes involved. Professional identity and professionalism may be viewed in terms of self-categorisation rather than simply attainment; the salience of different identities may be considered as influences on teamwork and interprofessional learning, and issues in communication and assessment may be considered in terms of intergroup biases. Social identity theory provides a powerful framework with which to consider many areas of medical education. It allows disparate influences on, and consequences of, group membership to be considered as part of an integrated system, and allows assumptions, such as about the nature of professional identity and interprofessional tensions, to be made explicit in the design of research studies. This power to question assumptions and develop deeper and more meaningful research questions may be increasingly relevant as the nature and role of the medical profession change

  3. Self-regulated learning and academic performance in medical education

    NARCIS (Netherlands)

    Lucieer, Susanna M.; Jonker, Laura; Visscher, Chris; Rikers, Remy M. J. P.; Themmen, Axel P. N.

    Content: Medical schools aim to graduate medical doctors who are able to self-regulate their learning. It is therefore important to investigate whether medical students' self-regulated learning skills change during medical school. In addition, since these skills are expected to be helpful to learn

  4. E-learning in medical education: the potential environmental impact.

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    Walsh, Kieran

    2018-03-01

    Introduction There is a growing interest in the use of e-learning in medical education. However until recently there has been little interest in the potential environmental benefits of e-learning. This paper models various environmental outcomes that might emerge from the use of an e-learning resource (BMJ Learning) in CPD. Methods We modeled the use of e-learning as a component of CPD and evaluated the potential impact of this use on the learner's carbon footprint. We looked at a number of models - all from the perspective of a General Practitioner (GP). We assumed that all GPs completed 50 h or credits of CPD per year. Results High users of e-learning can reduce their carbon footprint - mainly by reducing their travel to face-to-face events (reducing printing also has a small beneficial effect). A high user of e-learning can reduce the carbon footprint that relates to their CPD by 18.5 kg. Discussion As global warming continues to pose a risk to human and environmental health, we feel that doctors have a duty to consider learning activities (such as e-learning) that are associated with a lower carbon footprint.

  5. Development of national competency-based learning objectives "Medical Informatics" for undergraduate medical education.

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    Röhrig, R; Stausberg, J; Dugas, M

    2013-01-01

    The aim of this project is to develop a catalogue of competency-based learning objectives "Medical Informatics" for undergraduate medical education (abbreviated NKLM-MI in German). The development followed a multi-level annotation and consensus process. For each learning objective a reason why a physician needs this competence was required. In addition, each objective was categorized according to the competence context (A = covered by medical informatics, B = core subject of medical informatics, C = optional subject of medical informatics), the competence level (1 = referenced knowledge, 2 = applied knowledge, 3 = routine knowledge) and a CanMEDS competence role (medical expert, communicator, collaborator, manager, health advocate, professional, scholar). Overall 42 objectives in seven areas (medical documentation and information processing, medical classifications and terminologies, information systems in healthcare, health telematics and telemedicine, data protection and security, access to medical knowledge and medical signal-/image processing) were identified, defined and consented. With the NKLM-MI the competences in the field of medical informatics vital to a first year resident physician are identified, defined and operationalized. These competencies are consistent with the recommendations of the International Medical Informatics Association (IMIA). The NKLM-MI will be submitted to the National Competence-Based Learning Objectives for Undergraduate Medical Education. The next step is implementation of these objectives by the faculties.

  6. Andragogy and medical education: are medical students internally motivated to learn?

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    Misch, Donald A

    2002-01-01

    Andragogy - the study of adult education - has been endorsed by many medical educators throughout North America. There remains, however, considerable controversy as to the validity and utility of adult education principles as espoused by the field's founder, Malcolm Knowles. Whatever the utility of andragogic doctrine in general education settings, there is reason to doubt its wholesale applicability to the training of medical professionals. Malcolm Knowles' last tenet of andragogy holds that adult learners are more motivated by internal than by external factors. The validity of this hypothesis in medical education is examined, and it is demonstrated that medical students' internal and external motivation are context-dependent, not easily distinguishable, and interrelate with one another in complex ways. Furthermore, the psychological motivation for medical student learning is determined by a variety of factors that range from internal to external, unconscious to conscious, and individual to societal. The andragogic hypothesis of increased internal motivation to learn on the part of adults in general, and medical trainees in particular, is rejected as simplistic, misleading, and counterproductive to developing a greater understanding of the forces that drive medical students to learn.

  7. Key Success Factors in E-Learning in Medical Education

    Directory of Open Access Journals (Sweden)

    Hassan Emami

    2009-08-01

    Full Text Available Background and purpose: As in many countries, Medical Education (ME is offered in three levels including Undergraduate ME, Graduate ME, and Continuing ME. Informtion tehnology development has provided a suitable chance for ME. E-learning in ME is growing more and more. The present study seeks to determine the key success factors (KSF in E-learning in medical fields.Methods: KSF has been scrutinized in the literature following of which, and due to similarity, a classification with seven groupings was established including institutional factor, technology, interested parties, information knowledge, methods and approaches educational resources, and environmental factors. Through a questionnaire, the data were gatered from the information technology (IT directors in all medical universities throughout the country. The data collected were subjected to factorial analysis. Data from heads of educational groups were obtained through focus group discussion. Cronbach reliability coefficient was calculated for questionnaire used. Factorial analysis was used to identify meaningful KSF. T-Test, and one-way variance analysis as well as Pearson’s correlation were used. The analysis was conducted with SPSS softwareResults: The results showed no significant differences between age, sex, career, and level of education, and KSF. The preparedness factors were analyzed through group discussions with the heads of the academic departments under the study. By factorial analyses, five factors were found including the departmental interest and potential (27.3%, task performance potential (25.1%, E-teaching development in basic and clinical sciences , and continuing education (20.1%, suitable cultural environment (16.8%, and infrastructures (10.8%. Fisher Exeact Test was used to compare the obtained ratios in 5% curve whose results showed that among the three factors including legal and technocal environment, specialized hardwareand software, and high speed internet

  8. Blended learning in biochemistry education: analysis of medical students' perceptions.

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    de Fátima Wardenski, Rosilaine; de Espíndola, Marina Bazzo; Struchiner, Miriam; Giannella, Taís Rabetti

    2012-07-01

    The objective of this study was to analyze first-year UFRJ medical students' perceptions about the implementation of a blended learning (BL) experience in their Biochemistry I course. During the first semester of 2009, three Biochemistry professors used the Constructore course management system to develop virtual learning environments (VLEs) for complementing course Modules I, II, and IV, using different resources and activities. Forty-nine students (46%) took part in the study. Results show that, in general, students gave positive evaluations to their experiences with BL, indicating that the VLEs have not only motivated but also facilitated learning. Most of the students reported that access to resources in the three modules provided a more in-depth approach to Biochemistry education and greater study autonomy. Students suggested that the VLEs could be better used for promoting greater communication among participants. Copyright © 2012 Wiley Periodicals, Inc.

  9. Cooperative learning in the first year of undergraduate medical education

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    Kanthan Rani

    2007-11-01

    Full Text Available Abstract Background Despite extensive research data indicating that cooperative learning promotes higher achievement, the creation of positive relationships, and greater psychological health for students at all levels in their education, cooperative learning as a teaching strategy is still underutilized in undergraduate medical education. Methods A cooperative learning task was introduced as part of the mandatory first Year undergraduate Pathology course. The task was to create an 8.5" × 11" poster summary of pre-assigned content in self-chosen groups of four or five students. On the designated "Poster Day," the posters were displayed and evaluated by the students using a group product evaluation. Students also completed an individual group process reflection survey. An objective evaluation of their understanding was gauged at the midterm examination by specific content-related questions. Results Majority (91–96% of students judged the group products to be relevant, effective, easy-to-understand, and clearly communicated. The majority of the students (90–100% agreed that their group process skills of time management, task collaboration, decision-making and task execution were effective in completing this exercise. This activity created a dynamic learning environment as was reflected in the students' positive, professional discussion, and evaluation of their posters. The content-related questions on the midterm examination were answered correctly by 70–92% of the students. This was a mutually enriching experience for the instructor and students. Conclusion These findings demonstrate that cooperative learning as a teaching strategy can be effectively incorporated to address both content and interpersonal skill development in the early years of undergraduate medical education.

  10. The Educational Kanban: promoting effective self-directed adult learning in medical education.

    Science.gov (United States)

    Goldman, Stuart

    2009-07-01

    The author reviews the many forces that have driven contemporary medical education approaches to evaluation and places them in an adult learning theory context. After noting their strengths and limitations, the author looks to lessons learned from manufacturing on both efficacy and efficiency and explores how these can be applied to the process of trainee assessment in medical education.Building on this, the author describes the rationale for and development of the Educational Kanban (EK) at Children's Hospital Boston--specifically, how it was designed to integrate adult learning theory, Japanese manufacturing models, and educator observations into a unique form of teacher-student collaboration that allows for continuous improvement. It is a formative tool, built on the Accreditation Council for Graduate Medical Education's six core competencies, that guides educational efforts to optimize teaching and learning, promotes adult learner responsibility and efficacy, and takes advantage of the labor-intensive clinical educational setting. The author discusses how this model, which will be implemented in July 2009, will lead to training that is highly individualized, optimizes faculty and student educational efforts, and ultimately conserves faculty resources. A model EK is provided for general reference.The EK represents a novel approach to adult learning that will enhance educational effectiveness and efficiency and complement existing evaluative models. Described here in a specific graduate medical setting, it can readily be adapted and integrated into a wide range of undergraduate and graduate clinical educational environments.

  11. Team Based Learning (TBL) in Undergraduate Medical Education

    International Nuclear Information System (INIS)

    Hashmi, N. R.

    2014-01-01

    Objective: To determine if modified Team Based Learning (TBL) was more effective than Traditional Didactic Lecture (TDL) in improving knowledge outcomes about Diabetes management in fourth year medical students and to check the students view about the TBL method in comparison with their earlier experience with TDL. Study Design: A comparative study. Place and Duration of Study: Lahore Medical and Dental College, Lahore, from January to February 2011 in 4 weeks. Methodology: Modification of the original TBL method as described by Michaelsen was done to accommodate the educational system. A total of 7 sessions were allotted to teach non-communicable diseases to fourth year MBBS students. Session which was scheduled for teaching Diabetes mellitus was conducted first by TDL and three weeks later with the TBL session. MCQ based tests were administered to self paired groups of students first after the TDL session and then after the TBL session. Wilcoxon signed-rank test was used to compare post-TDL and post-TBL test scores of the students. Students views about the TBL session compared to the TDL session were checked by using pre-tested questionnaire. Results: Seventy two, fourth year MBBS students participated in this TBL session. Majority were females 49 (68.1%). There was improvement of test scores of students after the TBL session when compared to the test scores after TDL session (p < 0.001). Majority of the respondents noted that TBL session was a better learning strategy compared to TDL. Conclusion: The 72 students included in the study achieved higher mean test scores on test questions that assessed their knowledge of Diabetes mellitus content learned using the TBL strategy compared with TDL method (p < 0.001). TBL learning method was favoured by a majority of medical students compared to the TDL session. (author)

  12. The importance of educational theories for facilitating learning when using technology in medical education.

    Science.gov (United States)

    Sandars, John; Patel, Rakesh S; Goh, Poh Sun; Kokatailo, Patricia K; Lafferty, Natalie

    2015-01-01

    There is an increasing use of technology for teaching and learning in medical education but often the use of educational theory to inform the design is not made explicit. The educational theories, both normative and descriptive, used by medical educators determine how the technology is intended to facilitate learning and may explain why some interventions with technology may be less effective compared with others. The aim of this study is to highlight the importance of medical educators making explicit the educational theories that inform their design of interventions using technology. The use of illustrative examples of the main educational theories to demonstrate the importance of theories informing the design of interventions using technology. Highlights the use of educational theories for theory-based and realistic evaluations of the use of technology in medical education. An explicit description of the educational theories used to inform the design of an intervention with technology can provide potentially useful insights into why some interventions with technology are more effective than others. An explicit description is also an important aspect of the scholarship of using technology in medical education.

  13. E-LEARNING READINESS AMONG MEDICAL EDUCATORS IN UNIVERSITI SAINS ISLAM MALAYSIA

    OpenAIRE

    Salleha Khalid; Tengku Madeehah Tengku Mohd; Khadijah Hassanah; Suhaila Sanip; Muhammad Shamsir Aris; Khaironi Sharif; Mohd Mokthar

    2014-01-01

    Recent advances in information technology has made e-learning feasible in many fields of education. Medical education is not any different. This survey is conducted among all the medical educators in Universiti Sains Islam Malaysia (USIM) assessing their readiness and attitudes towards e-learning. A cross-sectional questionnaires assessing the IT skills, Internet usage, attitude, perceived benefits and usage of e-learning among USIM medical lecturers were used. Data gained were then analyzed....

  14. Technology in postgraduate medical education: a dynamic influence on learning?

    OpenAIRE

    Bullock, Alison; Webb, Katie

    2015-01-01

    The influence of technology in medical workplace learning is explored by focusing on three uses: m-learning (notably apps), simulation and social media. Smartphones with point-of-care tools (such as textbooks, drug guides and medical calculators) can support workplace learning and doctors’ decision-making. Simulations can help develop technical skills and team interactions, and ‘in situ’ simulations improve the match between the virtual and the real. Social media (wikis, blogs, networking, Yo...

  15. The Impact of E-Learning on Medical Education in Russia

    Science.gov (United States)

    Trukhacheva, N.; Tchernysheva, S.; Krjaklina, T.

    2011-01-01

    New educational technologies prove to be capable of solving many problems in medical training. Students do not see e-learning as replacing traditional instructor-led training but as a complement to it, forming part of a blended-learning strategy. Innovations in e-learning technologies point toward a revolution in education, allowing learning to be…

  16. Self-regulated learning and academic performance in medical education.

    Science.gov (United States)

    Lucieer, Susanna M; Jonker, Laura; Visscher, Chris; Rikers, Remy M J P; Themmen, Axel P N

    2016-06-01

    Medical schools aim to graduate medical doctors who are able to self-regulate their learning. It is therefore important to investigate whether medical students' self-regulated learning skills change during medical school. In addition, since these skills are expected to be helpful to learn more effectively, it is of interest to investigate whether these skills are related to academic performance. In a cross-sectional design, the Self-Regulation of Learning Self-Report Scale (SRL-SRS) was used to investigate the change in students' self-regulated learning skills. First and third-year students (N = 949, 81.7%) SRL-SRS scores were compared with ANOVA. The relation with academic performance was investigated with multinomial regression analysis. Only one of the six skills, reflection, significantly, but positively, changed during medical school. In addition, a small, but positive relation of monitoring, reflection, and effort with first-year GPA was found, while only effort was related to third-year GPA. The change in self-regulated learning skills is minor as only the level of reflection differs between the first and third year. In addition, the relation between self-regulated learning skills and academic performance is limited. Medical schools are therefore encouraged to re-examine the curriculum and methods they use to enhance their students' self-regulated learning skills. Future research is required to understand the limited impact on performance.

  17. Learning styles of medical students - implications in education.

    Science.gov (United States)

    Buşan, Alina-Mihaela

    2014-01-01

    The term "learning style" refers to the fact that each person has a different way of accumulating knowledge. While some prefer listening to learn better, others need to write or they only need to read the text or see a picture to later remember. According to Fleming and Mills the learning styles can be classified in Visual, Auditory and Kinesthetic. There is no evidence that teaching according to the learning style can help a person, yet this cannot be ignored. In this study, a number of 230 medical students were questioned in order to determine their learning style. We determined that 73% of the students prefer one learning style, 22% prefer to learn using equally two learning style, while the rest prefer three learning styles. According to this study the distribution of the learning styles is as following: 33% visual, 26% auditory, 14% kinesthetic, 12% visual and auditory styles equally, 6% visual and kinesthetic, 4% auditory and kinesthetic and 5% all three styles. 32 % of the students that participated at this study are from UMF Craiova, 32% from UMF Carol Davila, 11% University of Medicine T Popa, Iasi, 9% UMF Cluj Iulius Hatieganu. The way medical students learn is different from the general population. This is why it is important when teaching to considerate how the students learn in order to facilitate the learning.

  18. AMEE Guide 32: e-Learning in medical education Part 1: Learning, teaching and assessment.

    Science.gov (United States)

    Ellaway, Rachel; Masters, Ken

    2008-06-01

    In just a few years, e-learning has become part of the mainstream in medical education. While e-learning means many things to many people, at its heart it is concerned with the educational uses of technology. For the purposes of this guide, we consider the many ways that the information revolution has affected and remediated the practice of healthcare teaching and learning. Deploying new technologies usually introduces tensions, and e-learning is no exception. Some wish to use it merely to perform pre-existing activities more efficiently or faster. Others pursue new ways of thinking and working that the use of such technology affords them. Simultaneously, while education, not technology, is the prime goal (and for healthcare, better patient outcomes), we are also aware that we cannot always predict outcomes. Sometimes, we have to take risks, and 'see what happens.' Serendipity often adds to the excitement of teaching. It certainly adds to the excitement of learning. The use of technology in support of education is not, therefore, a causal or engineered set of practices; rather, it requires creativity and adaptability in response to the specific and changing contexts in which it is used. Medical Education, as with most fields, is grappling with these tensions; the AMEE Guide to e-Learning in Medical Education hopes to help the reader, whether novice or expert, navigate them. This Guide is presented both as an introduction to the novice, and as a resource to more experienced practitioners. It covers a wide range of topics, some in broad outline, and others in more detail. Each section is concluded with a brief 'Take Home Message' which serves as a short summary of the section. The Guide is divided into two parts. The first part introduces the basic concepts of e-learning, e-teaching, and e-assessment, and then focuses on the day-to-day issues of e-learning, looking both at theoretical concepts and practical implementation issues. The second part examines technical

  19. Blended Learning in Biochemistry Education: Analysis of Medical Students' Perceptions

    Science.gov (United States)

    Wardenski, Rosilaine de Fatima; de Espindola, Marina Bazzo; Struchiner, Miriam; Giannella, Tais Rabetti

    2012-01-01

    The objective of this study was to analyze first-year UFRJ medical students' perceptions about the implementation of a blended learning (BL) experience in their Biochemistry I course. During the first semester of 2009, three Biochemistry professors used the Constructore course management system to develop virtual learning environments (VLEs) for…

  20. Adoption of computer-assisted learning in medical education: the educators' perspective.

    Science.gov (United States)

    Schifferdecker, Karen E; Berman, Norm B; Fall, Leslie H; Fischer, Martin R

    2012-11-01

    Computer-assisted learning (CAL) in medical education has been shown to be effective in the achievement of learning outcomes, but requires the input of significant resources and development time. This study examines the key elements and processes that led to the widespread adoption of a CAL program in undergraduate medical education, the Computer-assisted Learning in Paediatrics Program (CLIPP). It then considers the relative importance of elements drawn from existing theories and models for technology adoption and other studies on CAL in medical education to inform the future development, implementation and testing of CAL programs in medical education. The study used a mixed-methods explanatory design. All paediatric clerkship directors (CDs) using CLIPP were recruited to participate in a self-administered, online questionnaire. Semi-structured interviews were then conducted with a random sample of CDs to further explore the quantitative results. Factors that facilitated adoption included CLIPP's ability to fill gaps in exposure to core clinical problems, the use of a national curriculum, development by CDs, and the meeting of CDs' desires to improve teaching and student learning. An additional facilitating factor was that little time and effort were needed to implement CLIPP within a clerkship. The quantitative findings were mostly corroborated by the qualitative findings. This study indicates issues that are important in the consideration and future exploration of the development and implementation of CAL programs in medical education. The promise of CAL as a method of enhancing the process and outcomes of medical education, and its cost, increase the need for future CAL funders and developers to pay equal attention to the needs of potential adopters and the development process as they do to the content and tools in the CAL program. Important questions that remain on the optimal design, use and integration of CAL should be addressed in order to adequately inform

  1. Mastery learning: it is time for medical education to join the 21st century.

    Science.gov (United States)

    McGaghie, William C

    2015-11-01

    Clinical medical education in the 21st century is grounded in a 19th-century model that relies on longitudinal exposure to patients as the curriculum focus. The assumption is that medical students and postgraduate residents will learn from experience, that vicarious or direct involvement in patient care is the best teacher. The weight of evidence shows, however, that results from such traditional clinical education are uneven at best. Educational inertia endorsed until recently by medical school accreditation policies has maintained the clinical medical education status quo for decades.Mastery learning is a new paradigm for medical education. Basic principles of mastery learning are that educational excellence is expected and can be achieved by all learners and that little or no variation in measured outcomes will result. This Commentary describes the origins of mastery learning and presents its essential features. The Commentary then introduces the eight reports that comprise the mastery learning cluster for this issue of Academic Medicine. The reports are intended to help medical educators recognize advantages of the mastery model and begin to implement mastery learning at their own institutions. The Commentary concludes with brief statements about future directions for mastery learning program development and research in medical education.

  2. Medical education.

    Science.gov (United States)

    Krishnan, P

    1992-01-01

    In theory, the Medical Council of India (MCI) determines the standards and qualifications of medical schools. It also sanctions curricula and ensures standards. Yet no standards exist on the mode of selection in medical schools, duration of study, course content, student stipends or period of internship. It takes 4.5 years to finish medical school. Students undergo preclinical, paraclinical, and clinical training. Most courses are in English which tends to favor the urban elite. Students cannot always communicate with patients in local languages. Textbooks often provide medical examples unrelated to India. Pedagogy consists mainly of lectures and rote learning predominates. Curricula tend not to provide courses in community health. Students pick up on the elitist attitudes of the faculty. For example, faculty do not put much emphasis on community health, individual health, equity in health care delivery, and teamwork. Further the education system is not patient oriented, but hospital or disease oriented. Faculty should train students in creating sanitation programs, knowing local nutritious foods, and in making community diagnoses. Yet they tend to be practitioners 1st then educators. Further faculty are not paid well and are not always invited to take part in improving curriculum, so morale is often low. Moreover experience in health planning and management issues is not required for administrators. In addition, medical schools are not well equipped with learning aids, libraries, or teaching staff. Tax revenues finance medical education. 75% of graduating physicians set up a private practice. Further many physicians go to urban areas. 34-57% emigrate to other countries. The problems of medical education will not be solved until the political and economic system becomes more responsive to the health needs of the people.

  3. Adaptive Learning in Medical Education: The Final Piece of Technology Enhanced Learning?

    Science.gov (United States)

    Sharma, Neel; Doherty, Iain; Dong, Chaoyan

    2017-09-01

    Technology enhanced learning (TEL) is now common practice in the field of medical education. One of the primary examples of its use is that of high fidelity simulation and computerised mannequins. Further examples include online learning modules, electronic portfolios, virtual patient interactions, massive open online courses and the flipped classroom movement. The rise of TEL has occurred primarily due to the ease of internet access enabling the retrieval and sharing of information in an instant. Furthermore, the compact nature of internet ready devices such as smartphones and laptops has meant that access to information can occur anytime and anywhere. From an educational perspective however, the current utilisation of TEL has been hindered by its lack of understanding of learners' needs. This is concerning, particularly as evidence highlights that during medical training, each individual learner has their own learning requirements and often achieves competency at different rates. In view of this, there has been interest in ensuring TEL is more learner aware and that the learning process should be more personalised. Adaptive learning can aim to achieve this by ensuring content is delivered according to the needs of the learner. This commentary highlights the move towards adaptive learning and the benefits of such an intervention.

  4. New horizons for e-learning in medical education: ecological and Web 2.0 perspectives.

    Science.gov (United States)

    Sandars, John; Haythornthwaite, Caroline

    2007-05-01

    An ecological and a Web 2.0 perspective of e-learning provides new ways of thinking about how people learn with technology and also how new learning opportunities are offered by new technology. These perspectives highlight the importance of developing connections between a wide variety of learning resources, containing both codified and tacit knowledge. New adaptive technology has the potential to create personalized, yet collective, learning. The future implications for e-learning in medical education is considered.

  5. The introduction and effectiveness of simulation-based learning in medical education.

    Science.gov (United States)

    Nara, Nobuo; Beppu, Masashi; Tohda, Shuji; Suzuki, Toshiya

    2009-01-01

    To contribute to reforming the medical education system in Japan, we visited overseas medical schools and observed the methods utilized in medical education. We visited 28 medical schools and five institutes in the United States, Europe, Australia and Asia in 2008. We met deans and specialists in medical affairs and observed the medical schools' facilities. Among the several effective educational methods used in overseas medical schools, simulation-based learning was being used in all that we visited. Simulation-based learning is used to promote medical students' mastery of communication skills, medical interviewing, physical examination and basic clinical procedures. Students and tutors both recognize the effectiveness of simulation-based learning in medical education. In contrast to overseas medical schools, simulation-based learning is not common in Japan. There remain many barriers to introduce simulation-based education in Japan, such as a shortage of medical tutors, staff, mannequins and budget. However, enhancing the motivation of tutors is likely the most important factor to facilitate simulation-based education in Japanese medical schools to become common place.

  6. A systematic review of service-learning in medical education: 1998-2012.

    Science.gov (United States)

    Stewart, Trae; Wubbena, Zane C

    2015-01-01

    PHENOMENON: In the United States, the Affordable Care Act has increased the need for community-centered pedagogy for medical education such as service-learning, wherein students connect academic curriculum and reflections to address a community need. Yet heterogeneity among service-learning programs suggests the need for a framework to understand variations among service-learning programs in medical education. A qualitative systematic review of literature on service-learning and medical education was conducted for the period between 1998 and 2012. A two-stage inclusion criteria process resulted in articles (n = 32) on service-learning and Doctor of Medicine or Doctor of Osteopathic Medicine being included for both coding and analysis. Focused and selective coding were employed to identify recurring themes and subthemes from the literature. The findings of the qualitative thematic analysis of service-learning variation in medical education identified a total of seven themes with subthemes. The themes identified from the analysis were (a) geographic location and setting, (b) program design, (c) funding, (d) participation, (e) program implementation, (f) assessment, and (g) student outcomes. Insights: This systematic review of literature confirmed the existence of program heterogeneity among service-learning program in medical education. However, the findings of this study provide key insights into the nature of service-learning in medical education building a framework for which to organize differences among service-learning programs. A list of recommendations for future areas of inquiry is provided to guide future research.

  7. What do we do? Practices and learning strategies of medical education leaders.

    Science.gov (United States)

    Lieff, Susan; Albert, Mathieu

    2012-01-01

    Continuous changes in undergraduate and postgraduate medical education require faculty to assume a variety of new leadership roles. While numerous faculty development programmes have been developed, there is little evidence about the specific practices of medical education leaders or their learning strategies to help inform their design. This study aimed to explore what medical education leaders' actually do, their learning strategies and recommendations for faculty development. A total of 16 medical education leaders from a variety of contexts within the faculty of medicine of a large North American medical school participated in semi-structured interviews to explore the nature of their work and the learning strategies they employ. Using thematic analysis, interview transcripts were coded inductively and then clustered into emergent themes. Findings clustered into four key themes of practice: (1) intrapersonal (e.g., self-awareness), (2) interpersonal (e.g., fostering informal networks), (3) organizational (e.g., creating a shared vision) and (4) systemic (e.g. strategic navigation). Learning strategies employed included learning from experience and example, reflective practice, strategic mentoring or advanced training. Our findings illuminate a four-domain framework for understanding medical education leader practices and their learning preferences. While some of these findings are not unknown in the general leadership literature, our understanding of their application in medical education is unique. These practices and preferences have a potential utility for conceptualizing a coherent and relevant approach to the design of faculty development strategies for medical education leadership.

  8. Review on the administration and effectiveness of team-based learning in medical education.

    Science.gov (United States)

    Hur, Yera; Cho, A Ra; Kim, Sun

    2013-12-01

    Team-based learning (TBL) is an active learning approach. In recent years, medical educators have been increasingly using TBL in their classes. We reviewed the concepts of TBL and discuss examples of international cases. Two types of TBL are administered: classic TBL and adapted TBL. Combining TBL and problem-based learning (PBL) might be a useful strategy for medical schools. TBL is an attainable and efficient educational approach in preparing large classes with regard to PBL. TBL improves student performance, team communication skills, leadership skills, problem solving skills, and cognitive conceptual structures and increases student engagement and satisfaction. This study suggests recommendations for administering TBL effectively in medical education.

  9. Broadening conceptions of learning in medical education: the message from teamworking.

    Science.gov (United States)

    Bleakley, Alan

    2006-02-01

    There is a mismatch between the broad range of learning theories offered in the wider education literature and a relatively narrow range of theories privileged in the medical education literature. The latter are usually described under the heading of 'adult learning theory'. This paper critically addresses the limitations of the current dominant learning theories informing medical education. An argument is made that such theories, which address how an individual learns, fail to explain how learning occurs in dynamic, complex and unstable systems such as fluid clinical teams. Models of learning that take into account distributed knowing, learning through time as well as space, and the complexity of a learning environment including relationships between persons and artefacts, are more powerful in explaining and predicting how learning occurs in clinical teams. Learning theories may be privileged for ideological reasons, such as medicine's concern with autonomy. Where an increasing amount of medical education occurs in workplace contexts, sociocultural learning theories offer a best-fit exploration and explanation of such learning. We need to continue to develop testable models of learning that inform safe work practice. One type of learning theory will not inform all practice contexts and we need to think about a range of fit-for-purpose theories that are testable in practice. Exciting current developments include dynamicist models of learning drawing on complexity theory.

  10. The Implementation of Medical Informatics in the National Competence Based Catalogue of Learning Objectives for Undergraduate Medical Education (NKLM).

    Science.gov (United States)

    Behrends, Marianne; Steffens, Sandra; Marschollek, Michael

    2017-01-01

    The National Competence Based Catalogue of Learning Objectives for Undergraduate Medical Education (NKLM) describes medical skills and attitudes without being ordered by subjects or organs. Thus, the NKLM enables systematic curriculum mapping and supports curricular transparency. In this paper we describe where learning objectives related to Medical Informatics (MI) in Hannover coincide with other subjects and where they are taught exclusively in MI. An instance of the web-based MERLIN-database was used for the mapping process. In total 52 learning objectives overlapping with 38 other subjects could be allocated to MI. No overlap exists for six learning objectives describing explicitly topics of information technology or data management for scientific research. Most of the overlap was found for learning objectives relating to documentation and aspects of data privacy. The identification of numerous shared learning objectives with other subjects does not mean that other subjects teach the same content as MI. Identifying common learning objectives rather opens up the possibility for teaching cooperations which could lead to an important exchange and hopefully an improvement in medical education. Mapping of a whole medical curriculum offers the opportunity to identify common ground between MI and other medical subjects. Furthermore, in regard to MI, the interaction with other medical subjects can strengthen its role in medical education.

  11. Factors predictive of successful learning in postgraduate medical education

    NARCIS (Netherlands)

    Smits, P. B. A.; Verbeek, J. H. A. M.; Nauta, M. C. E.; ten Cate, Th J.; Metz, J. C. M.; van Dijk, F. J. H.

    2004-01-01

    PURPOSE To establish which personal and contextual factors are predictive of successful outcomes in postgraduate medical education. METHOD We performed a follow-up study of 118 doctors on a postgraduate occupational health training programme on the management of mental health problems. The following

  12. "Yes, and …" Exploring the Future of Learning Analytics in Medical Education.

    Science.gov (United States)

    Cirigliano, Matt M; Guthrie, Charlie; Pusic, Martin V; Cianciolo, Anna T; Lim-Dunham, Jennifer E; Spickard, Anderson; Terry, Valerie

    2017-01-01

    This Conversations Starter article presents a selected research abstract from the 2017 Association of American Medical Colleges Northeastern Region Group on Educational Affairs annual spring meeting. The abstract is paired with the integrative commentary of three experts who shared their thoughts stimulated by the study. Commentators brainstormed "what's next" with learning analytics in medical education, including advancements in interaction metrics and the use of interactivity analysis to deepen understanding of perceptual, cognitive, and social learning and transfer processes.

  13. Flipped Learning: Can Rheumatology Lead the Shift in Medical Education?

    Science.gov (United States)

    El Miedany, Yasser; El Gaafary, Maha; El Aroussy, Nadia; Youssef, Sally

    2018-04-16

    To: 1. implement flipped classroom rheumatology teaching for undergraduate education. 2. Evaluate outcomes of teaching using OSCE assessment and student perceived effectiveness and satisfaction survey. The flipped classroom education was conducted in 3 phases. Phase 1: carried out in the students' own time. Web links were emailed to assist exposure of the instructional part of the lesson online. Phase 2: interactive in-class activity to share personal reflection and reinforce the key aspects. Phase 3: a simulated OSCE assessment. A cohort of 56-students, who were taught in the last educational year on the same topics according to standard teaching protocols, were included as control group. The clinical Outcomes were assessed using the scores of the OSCE examination model. Academic outcomes included the engagement measure as well as the students' answers to perceived effectiveness and satisfaction survey. There was no significant difference regarding demographics between the 2 students' groups. There was significant improvement (plearning, in contrast to the control group, in terms of clinical (OSCE score) as well as communication skills. Student perceived effectiveness and satisfaction was significantly higher among the flipped learning (plearning cohort showed a state of engagement significantly higher than the control group (plearning implementation musculoskeletal learning successfully demonstrated a promising platform for using technology to make better use of the students' time, and for increasing their satisfaction. Active learning increases student engagement and can lead to improved retention of knowledge. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.

  14. Does the Flipped Classroom Improve Learning in Graduate Medical Education?

    Science.gov (United States)

    Riddell, Jeff; Jhun, Paul; Fung, Cha-Chi; Comes, James; Sawtelle, Stacy; Tabatabai, Ramin; Joseph, Daniel; Shoenberger, Jan; Chen, Esther; Fee, Christopher; Swadron, Stuart P

    2017-08-01

    The flipped classroom model for didactic education has recently gained popularity in medical education; however, there is a paucity of performance data showing its effectiveness for knowledge gain in graduate medical education. We assessed whether a flipped classroom module improves knowledge gain compared with a standard lecture. We conducted a randomized crossover study in 3 emergency medicine residency programs. Participants were randomized to receive a 50-minute lecture from an expert educator on one subject and a flipped classroom module on the other. The flipped classroom included a 20-minute at-home video and 30 minutes of in-class case discussion. The 2 subjects addressed were headache and acute low back pain. A pretest, immediate posttest, and 90-day retention test were given for each subject. Of 82 eligible residents, 73 completed both modules. For the low back pain module, mean test scores were not significantly different between the lecture and flipped classroom formats. For the headache module, there were significant differences in performance for a given test date between the flipped classroom and the lecture format. However, differences between groups were less than 1 of 10 examination items, making it difficult to assign educational importance to the differences. In this crossover study comparing a single flipped classroom module with a standard lecture, we found mixed statistical results for performance measured by multiple-choice questions. As the differences were small, the flipped classroom and lecture were essentially equivalent.

  15. Social media as an open-learning resource in medical education: current perspectives.

    Science.gov (United States)

    Sutherland, S; Jalali, A

    2017-01-01

    Numerous studies evaluate the use of social media as an open-learning resource in education, but there is a little published knowledge of empirical evidence that such open-learning resources produce educative outcomes, particularly with regard to student performance. This study undertook a systematic review of the published literature in medical education to determine the state of the evidence as to empirical studies that conduct an evaluation or research regarding social media and open-learning resources. The authors searched MEDLINE, ERIC, Embase, PubMed, Scopus, and Google Scholar from 2012 to 2017. This search included using keywords related to social media, medical education, research, and evaluation, while restricting the search to peer reviewed, English language articles only. To meet inclusion criteria, manuscripts had to employ evaluative methods and undertake empirical research. Empirical work designed to evaluate the impact of social media as an open-learning resource in medical education is limited as only 13 studies met inclusion criteria. The majority of these studies used undergraduate medical education as the backdrop to investigate open-learning resources, such as Facebook, Twitter, and YouTube. YouTube appears to have little educational value due to the unsupervised nature of content added on a daily basis. Overall, extant reviews have demonstrated that we know a considerable amount about social media use, although to date, its impacts remain unclear. There is a paucity of outcome-based, empirical studies assessing the impact of social media in medical education. The few empirical studies identified tend to focus on evaluating the affective outcomes of social media and medical education as opposed to understanding any linkages between social media and performance outcomes. Given the potential for social media use in medical education, more empirical evaluative studies are required to determine educational value.

  16. Towards healthy learning climates in postgraduate medical education: exploring the role of hospital-wide education committees

    NARCIS (Netherlands)

    Silkens, Milou E. W. M.; Lombarts, Kiki M. J. M. H.; Scherpbier, Albert J. J. A.; Heineman, Maas Jan; Arah, Onyebuchi A.

    2017-01-01

    Background: Postgraduate medical education prepares residents for delivery of high quality patient care during training as well as for later practice, which makes high quality residency training programs crucial to safeguard patient care. Healthy learning climates contribute to high quality

  17. Context matters when striving to promote active and lifelong learning in medical education.

    Science.gov (United States)

    Berkhout, Joris J; Helmich, Esther; Teunissen, Pim W; van der Vleuten, Cees P M; Jaarsma, A Debbie C

    2018-01-01

    WHERE DO WE STAND NOW?: In the 30 years that have passed since The Edinburgh Declaration on Medical Education, we have made tremendous progress in research on fostering 'self-directed and independent study' as propagated in this declaration, of which one prime example is research carried out on problem-based learning. However, a large portion of medical education happens outside of classrooms, in authentic clinical contexts. Therefore, this article discusses recent developments in research regarding fostering active learning in clinical contexts. Clinical contexts are much more complex and flexible than classrooms, and therefore require a modified approach when fostering active learning. Recent efforts have been increasingly focused on understanding the more complex subject of supporting active learning in clinical contexts. One way of doing this is by using theory regarding self-regulated learning (SRL), as well as situated learning, workplace affordances, self-determination theory and achievement goal theory. Combining these different perspectives provides a holistic view of active learning in clinical contexts. ENTRY TO PRACTICE, VOCATIONAL TRAINING AND CONTINUING PROFESSIONAL DEVELOPMENT: Research on SRL in clinical contexts has mostly focused on the undergraduate setting, showing that active learning in clinical contexts requires not only proficiency in metacognition and SRL, but also in reactive, opportunistic learning. These studies have also made us aware of the large influence one's social environment has on SRL, the importance of professional relationships for learners, and the role of identity development in learning in clinical contexts. Additionally, research regarding postgraduate lifelong learning also highlights the importance of learners interacting about learning in clinical contexts, as well as the difficulties that clinical contexts may pose for lifelong learning. However, stimulating self-regulated learning in undergraduate medical education

  18. Twelve tips for using Twitter as a learning tool in medical education.

    Science.gov (United States)

    Forgie, Sarah Edith; Duff, Jon P; Ross, Shelley

    2013-01-01

    Twitter is an online social networking service, accessible from any Internet-capable device. While other social networking sites are online confessionals or portfolios of personal current events, Twitter is designed and used as a vehicle to converse and share ideas. For this reason, we believe that Twitter may be the most likely candidate for integrating social networking with medical education. Using current research in medical education, motivation and the use of social media in higher education, we aim to show the ways Twitter may be used as a learning tool in medical education. A literature search of several databases, online sources and blogs was carried out examining the use of Twitter in higher education. We created 12 tips for using Twitter as a learning tool and organized them into: the mechanics of using Twitter, suggestions and evidence for incorporating Twitter into many medical education contexts, and promoting research into the use of Twitter in medical education. Twitter is a relatively new social medium, and its use in higher education is in its infancy. With further research and thoughtful application of media literacy, Twitter is likely to become a useful adjunct for more personalized teaching and learning in medical education.

  19. Learning styles of medical students, general surgery residents, and general surgeons: implications for surgical education.

    Science.gov (United States)

    Engels, Paul T; de Gara, Chris

    2010-06-30

    Surgical education is evolving under the dual pressures of an enlarging body of knowledge required during residency and mounting work-hour restrictions. Changes in surgical residency training need to be based on available educational models and research to ensure successful training of surgeons. Experiential learning theory, developed by David Kolb, demonstrates the importance of individual learning styles in improving learning. This study helps elucidate the way in which medical students, surgical residents, and surgical faculty learn. The Kolb Learning Style Inventory, which divides individual learning styles into Accommodating, Diverging, Converging, and Assimilating categories, was administered to the second year undergraduate medical students, general surgery resident body, and general surgery faculty at the University of Alberta. A total of 241 faculty, residents, and students were surveyed with an overall response rate of 73%. The predominant learning style of the medical students was assimilating and this was statistically significant (p learning style found in the residents and faculty. The predominant learning styles of the residents and faculty were convergent and accommodative, with no statistically significant differences between the residents and the faculty. We conclude that medical students have a significantly different learning style from general surgical trainees and general surgeons. This has important implications in the education of general surgery residents.

  20. Effects of Mobile Learning in Medical Education: A Counterfactual Evaluation.

    Science.gov (United States)

    Briz-Ponce, Laura; Juanes-Méndez, Juan Antonio; García-Peñalvo, Francisco José; Pereira, Anabela

    2016-06-01

    The aim of this research is to contribute to the general system education providing new insights and resources. This study performs a quasi-experimental study at University of Salamanca with 30 students to compare results between using an anatomic app for learning and the formal traditional method conducted by a teacher. The findings of the investigation suggest that the performance of learners using mobile apps is statistical better than the students using the traditional method. However, mobile devices should be considered as an additional tool to complement the teachers' explanation and it is necessary to overcome different barriers and challenges to adopt these pedagogical methods at University.

  1. Is there a need for a specific educational scholarship for using e-learning in medical education?

    Science.gov (United States)

    Sandars, John; Goh, Poh Sun

    2016-10-01

    We propose the need for a specific educational scholarship when using e-learning in medical education. Effective e-learning has additional factors that require specific critical attention, including the design and delivery of e-learning. An important aspect is the recognition that e-learning is a complex intervention, with several interconnecting components that have to be aligned. This alignment requires an essential iterative development process with usability testing. Effectiveness of e-learning in one context may not be fully realized in another context unless there is further consideration of applicability and scalability. We recommend a participatory approach for an educational scholarship for using e-learning in medical education, such as by action research or design-based research.

  2. Effectiveness of an e-Learning Platform for Image Interpretation Education of Medical Staff and Students.

    Science.gov (United States)

    Ogura, Akio; Hayashi, Norio; Negishi, Tohru; Watanabe, Haruyuki

    2018-05-09

    Medical staff must be able to perform accurate initial interpretations of radiography to prevent diagnostic errors. Education in medical image interpretation is an ongoing need that is addressed by text-based and e-learning platforms. The effectiveness of these methods has been previously reported. Here, we describe the effectiveness of an e-learning platform used for medical image interpretation education. Ten third-year medical students without previous experience in chest radiography interpretation were provided with e-learning instructions. Accuracy of diagnosis using chest radiography was provided before and after e-learning education. We measured detection accuracy for two image groups: nodular shadow and ground-glass shadow. We also distributed the e-learning system to the two groups and analyzed the effectiveness of education for both types of image shadow. The mean correct answer rate after the 2-week e-learning period increased from 34.5 to 72.7%. Diagnosis of the ground glass shadow improved significantly more than that of the mass shadow. Education using the e-leaning platform is effective for interpretation of chest radiography results. E-learning is particularly effective for the interpretation of chest radiography images containing ground glass shadow.

  3. Effectiveness of e-learning in continuing medical education for occupational physicians

    NARCIS (Netherlands)

    Hugenholtz, Nathalie I. R.; de Croon, Einar M.; Smits, Paul B.; van Dijk, Frank J. H.; Nieuwenhuijsen, Karen

    2008-01-01

    Background Within a clinical context e-learning is comparable to traditional approaches of continuing medical education (CME). However, the occupational health context differs and until now the effect of postgraduate e-learning among occupational physicians (OPs) has not been evaluated. Aim To

  4. Serious games and blended learning : Effects on performance and motivation in medical education

    NARCIS (Netherlands)

    M.E.W. Dankbaar MSc (Mary)

    2015-01-01

    markdownabstractAbstract In medical education and health care, with its exponential growth in knowledge and increasing demands on the needed competencies of doctors, there is a need for new and more cost-effective training models. Blended and online learning are powerful learning concepts,

  5. Dialog about Psychosocial Issues in Problem-Based Learning Sessions in Medical Education

    Science.gov (United States)

    Adams, Nancy E.

    2016-01-01

    The purpose of this qualitative case study was two-fold: to investigate the dialog about psychosocial aspects of health care in problem based learning (PBL) groups in a single medical school; and to describe the factors that learners and PBL facilitators identify as influencing dialog about these issues in PBL groups. Medical education is a…

  6. Improving Education in Medical Statistics: Implementing a Blended Learning Model in the Existing Curriculum

    Science.gov (United States)

    Milic, Natasa M.; Trajkovic, Goran Z.; Bukumiric, Zoran M.; Cirkovic, Andja; Nikolic, Ivan M.; Milin, Jelena S.; Milic, Nikola V.; Savic, Marko D.; Corac, Aleksandar M.; Marinkovic, Jelena M.; Stanisavljevic, Dejana M.

    2016-01-01

    Background Although recent studies report on the benefits of blended learning in improving medical student education, there is still no empirical evidence on the relative effectiveness of blended over traditional learning approaches in medical statistics. We implemented blended along with on-site (i.e. face-to-face) learning to further assess the potential value of web-based learning in medical statistics. Methods This was a prospective study conducted with third year medical undergraduate students attending the Faculty of Medicine, University of Belgrade, who passed (440 of 545) the final exam of the obligatory introductory statistics course during 2013–14. Student statistics achievements were stratified based on the two methods of education delivery: blended learning and on-site learning. Blended learning included a combination of face-to-face and distance learning methodologies integrated into a single course. Results Mean exam scores for the blended learning student group were higher than for the on-site student group for both final statistics score (89.36±6.60 vs. 86.06±8.48; p = 0.001) and knowledge test score (7.88±1.30 vs. 7.51±1.36; p = 0.023) with a medium effect size. There were no differences in sex or study duration between the groups. Current grade point average (GPA) was higher in the blended group. In a multivariable regression model, current GPA and knowledge test scores were associated with the final statistics score after adjusting for study duration and learning modality (plearning environments for teaching medical statistics to undergraduate medical students. Blended and on-site training formats led to similar knowledge acquisition; however, students with higher GPA preferred the technology assisted learning format. Implementation of blended learning approaches can be considered an attractive, cost-effective, and efficient alternative to traditional classroom training in medical statistics. PMID:26859832

  7. E-learning in medical education in resource constrained low- and middle-income countries.

    Science.gov (United States)

    Frehywot, Seble; Vovides, Yianna; Talib, Zohray; Mikhail, Nadia; Ross, Heather; Wohltjen, Hannah; Bedada, Selam; Korhumel, Kristine; Koumare, Abdel Karim; Scott, James

    2013-02-04

    In the face of severe faculty shortages in resource-constrained countries, medical schools look to e-learning for improved access to medical education. This paper summarizes the literature on e-learning in low- and middle-income countries (LMIC), and presents the spectrum of tools and strategies used. Researchers reviewed literature using terms related to e-learning and pre-service education of health professionals in LMIC. Search terms were connected using the Boolean Operators "AND" and "OR" to capture all relevant article suggestions. Using standard decision criteria, reviewers narrowed the article suggestions to a final 124 relevant articles. Of the relevant articles found, most referred to e-learning in Brazil (14 articles), India (14), Egypt (10) and South Africa (10). While e-learning has been used by a variety of health workers in LMICs, the majority (58%) reported on physician training, while 24% focused on nursing, pharmacy and dentistry training. Although reasons for investing in e-learning varied, expanded access to education was at the core of e-learning implementation which included providing supplementary tools to support faculty in their teaching, expanding the pool of faculty by connecting to partner and/or community teaching sites, and sharing of digital resources for use by students. E-learning in medical education takes many forms. Blended learning approaches were the most common methodology presented (49 articles) of which computer-assisted learning (CAL) comprised the majority (45 articles). Other approaches included simulations and the use of multimedia software (20 articles), web-based learning (14 articles), and eTutor/eMentor programs (3 articles). Of the 69 articles that evaluated the effectiveness of e-learning tools, 35 studies compared outcomes between e-learning and other approaches, while 34 studies qualitatively analyzed student and faculty attitudes toward e-learning modalities. E-learning in medical education is a means to an end

  8. E-learning in medical education in resource constrained low- and middle-income countries

    Science.gov (United States)

    2013-01-01

    Background In the face of severe faculty shortages in resource-constrained countries, medical schools look to e-learning for improved access to medical education. This paper summarizes the literature on e-learning in low- and middle-income countries (LMIC), and presents the spectrum of tools and strategies used. Methods Researchers reviewed literature using terms related to e-learning and pre-service education of health professionals in LMIC. Search terms were connected using the Boolean Operators “AND” and “OR” to capture all relevant article suggestions. Using standard decision criteria, reviewers narrowed the article suggestions to a final 124 relevant articles. Results Of the relevant articles found, most referred to e-learning in Brazil (14 articles), India (14), Egypt (10) and South Africa (10). While e-learning has been used by a variety of health workers in LMICs, the majority (58%) reported on physician training, while 24% focused on nursing, pharmacy and dentistry training. Although reasons for investing in e-learning varied, expanded access to education was at the core of e-learning implementation which included providing supplementary tools to support faculty in their teaching, expanding the pool of faculty by connecting to partner and/or community teaching sites, and sharing of digital resources for use by students. E-learning in medical education takes many forms. Blended learning approaches were the most common methodology presented (49 articles) of which computer-assisted learning (CAL) comprised the majority (45 articles). Other approaches included simulations and the use of multimedia software (20 articles), web-based learning (14 articles), and eTutor/eMentor programs (3 articles). Of the 69 articles that evaluated the effectiveness of e-learning tools, 35 studies compared outcomes between e-learning and other approaches, while 34 studies qualitatively analyzed student and faculty attitudes toward e-learning modalities. Conclusions E-learning

  9. E-learning in medical education in resource constrained low- and middle-income countries

    Directory of Open Access Journals (Sweden)

    Frehywot Seble

    2013-02-01

    Full Text Available Abstract Background In the face of severe faculty shortages in resource-constrained countries, medical schools look to e-learning for improved access to medical education. This paper summarizes the literature on e-learning in low- and middle-income countries (LMIC, and presents the spectrum of tools and strategies used. Methods Researchers reviewed literature using terms related to e-learning and pre-service education of health professionals in LMIC. Search terms were connected using the Boolean Operators “AND” and “OR” to capture all relevant article suggestions. Using standard decision criteria, reviewers narrowed the article suggestions to a final 124 relevant articles. Results Of the relevant articles found, most referred to e-learning in Brazil (14 articles, India (14, Egypt (10 and South Africa (10. While e-learning has been used by a variety of health workers in LMICs, the majority (58% reported on physician training, while 24% focused on nursing, pharmacy and dentistry training. Although reasons for investing in e-learning varied, expanded access to education was at the core of e-learning implementation which included providing supplementary tools to support faculty in their teaching, expanding the pool of faculty by connecting to partner and/or community teaching sites, and sharing of digital resources for use by students. E-learning in medical education takes many forms. Blended learning approaches were the most common methodology presented (49 articles of which computer-assisted learning (CAL comprised the majority (45 articles. Other approaches included simulations and the use of multimedia software (20 articles, web-based learning (14 articles, and eTutor/eMentor programs (3 articles. Of the 69 articles that evaluated the effectiveness of e-learning tools, 35 studies compared outcomes between e-learning and other approaches, while 34 studies qualitatively analyzed student and faculty attitudes toward e-learning modalities

  10. Effectiveness of e-learning in continuing medical education for occupational physicians.

    Science.gov (United States)

    Hugenholtz, Nathalie I R; de Croon, Einar M; Smits, Paul B; van Dijk, Frank J H; Nieuwenhuijsen, Karen

    2008-08-01

    Within a clinical context e-learning is comparable to traditional approaches of continuing medical education (CME). However, the occupational health context differs and until now the effect of postgraduate e-learning among occupational physicians (OPs) has not been evaluated. To evaluate the effect of e-learning on knowledge on mental health issues as compared to lecture-based learning in a CME programme for OPs. Within the context of a postgraduate meeting for 74 OPs, a randomized controlled trial was conducted. Test assessments of knowledge were made before and immediately after an educational session with either e-learning or lecture-based learning. In both groups, a significant gain in knowledge on mental health care was found (P effect of e-learning on OPs' mental health care knowledge is comparable to a lecture-based approach. Therefore, e-learning can be beneficial for the CME of OPs.

  11. Learning styles of medical students, general surgery residents, and general surgeons: implications for surgical education

    Directory of Open Access Journals (Sweden)

    de Gara Chris

    2010-06-01

    Full Text Available Abstract Background Surgical education is evolving under the dual pressures of an enlarging body of knowledge required during residency and mounting work-hour restrictions. Changes in surgical residency training need to be based on available educational models and research to ensure successful training of surgeons. Experiential learning theory, developed by David Kolb, demonstrates the importance of individual learning styles in improving learning. This study helps elucidate the way in which medical students, surgical residents, and surgical faculty learn. Methods The Kolb Learning Style Inventory, which divides individual learning styles into Accommodating, Diverging, Converging, and Assimilating categories, was administered to the second year undergraduate medical students, general surgery resident body, and general surgery faculty at the University of Alberta. Results A total of 241 faculty, residents, and students were surveyed with an overall response rate of 73%. The predominant learning style of the medical students was assimilating and this was statistically significant (p Conclusions We conclude that medical students have a significantly different learning style from general surgical trainees and general surgeons. This has important implications in the education of general surgery residents.

  12. Proposing a Model of Co-Regulated Learning for Graduate Medical Education.

    Science.gov (United States)

    Rich, Jessica V

    2017-08-01

    Primarily grounded in Zimmerman's social cognitive model of self-regulation, graduate medical education is guided by principles that self-regulated learning takes place within social context and influence, and that the social context and physical environment reciprocally influence persons and their cognition, behavior, and development. However, contemporary perspectives on self-regulation are moving beyond Zimmerman's triadic reciprocal orientation to models that consider social transactions as the central core of regulated learning. Such co-regulated learning models emphasize shared control of learning and the role more advanced others play in scaffolding novices' metacognitive engagement.Models of co-regulated learning describe social transactions as periods of distributed regulation among individuals, which instrumentally promote or inhibit the capacity for individuals to independently self-regulate. Social transactions with other regulators, including attending physicians, more experienced residents, and allied health care professionals, are known to mediate residents' learning and to support or hamper the development of their self-regulated learning competence. Given that social transactions are at the heart of learning-oriented assessment and entrustment decisions, an appreciation for co-regulated learning is likely important for advancing medical education research and practice-especially given the momentum of new innovations such as entrustable professional activities.In this article, the author explains why graduate medical educators should consider adopting a model of co-regulated learning to complement and extend Zimmerman's models of self-regulated learning. In doing so, the author suggests a model of co-regulated learning and provides practical examples of how the model is relevant to graduate medical education research and practice.

  13. Learning theory and its application to the use of social media in medical education.

    Science.gov (United States)

    Flynn, Leslie; Jalali, Alireza; Moreau, Katherine A

    2015-10-01

    There is rapidly increasing pressure to employ social media in medical education, but a review of the literature demonstrates that its value and role are uncertain. To determine if medical educators have a conceptual framework that informs their use of social media and whether this framework can be mapped to learning theory. Thirty-six participants engaged in an iterative, consensus building process that identified their conceptual framework and determined if it aligned with one or more learning theories. The results show that the use of social media by the participants could be traced to two dominant theories-Connectivism and Constructivism. They also suggest that many medical educators may not be fully informed of these theories. Medical educators' use of social media can be traced to learning theories, but these theories may not be explicitly utilised in instructional design. It is recommended that formal education (faculty development) around learning theory would further enhance the use of social media in medical education. Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://group.bmj.com/group/rights-licensing/permissions.

  14. Learning to walk before we run: what can medical education learn from the human body about integrated care?

    Directory of Open Access Journals (Sweden)

    Eron G. Manusov

    2013-05-01

    Full Text Available True integration requires a shift in all levels of medical and allied health education; one that emphasizes team learning, practicing, and evaluating from the beginning of each students' educational experience whether that is as physician, nurse, psychologist, or any other health profession.  Integration of healthcare services will not occur until medical education focuses, like the human body, on each system working inter-dependently and cohesively to maintain balance through continual change and adaptation.  The human body develops and maintains homeostasis by a process of communication: true integrated care relies on learned interprofessionality and ensures shared responsibility and practice.

  15. Learning to walk before we run: what can medical education learn from the human body about integrated care.

    Science.gov (United States)

    Manusov, Eron G; Marlowe, Daniel P; Teasley, Deborah J

    2013-04-01

    True integration requires a shift in all levels of medical and allied health education; one that emphasizes team learning, practicing, and evaluating from the beginning of each students' educational experience whether that is as physician, nurse, psychologist, or any other health profession. Integration of healthcare services will not occur until medical education focuses, like the human body, on each system working inter-dependently and cohesively to maintain balance through continual change and adaptation. The human body develops and maintains homeostasis by a process of communication: true integrated care relies on learned interprofessionality and ensures shared responsibility and practice.

  16. Improving Education in Medical Statistics: Implementing a Blended Learning Model in the Existing Curriculum.

    Science.gov (United States)

    Milic, Natasa M; Trajkovic, Goran Z; Bukumiric, Zoran M; Cirkovic, Andja; Nikolic, Ivan M; Milin, Jelena S; Milic, Nikola V; Savic, Marko D; Corac, Aleksandar M; Marinkovic, Jelena M; Stanisavljevic, Dejana M

    2016-01-01

    Although recent studies report on the benefits of blended learning in improving medical student education, there is still no empirical evidence on the relative effectiveness of blended over traditional learning approaches in medical statistics. We implemented blended along with on-site (i.e. face-to-face) learning to further assess the potential value of web-based learning in medical statistics. This was a prospective study conducted with third year medical undergraduate students attending the Faculty of Medicine, University of Belgrade, who passed (440 of 545) the final exam of the obligatory introductory statistics course during 2013-14. Student statistics achievements were stratified based on the two methods of education delivery: blended learning and on-site learning. Blended learning included a combination of face-to-face and distance learning methodologies integrated into a single course. Mean exam scores for the blended learning student group were higher than for the on-site student group for both final statistics score (89.36±6.60 vs. 86.06±8.48; p = 0.001) and knowledge test score (7.88±1.30 vs. 7.51±1.36; p = 0.023) with a medium effect size. There were no differences in sex or study duration between the groups. Current grade point average (GPA) was higher in the blended group. In a multivariable regression model, current GPA and knowledge test scores were associated with the final statistics score after adjusting for study duration and learning modality (pstatistics to undergraduate medical students. Blended and on-site training formats led to similar knowledge acquisition; however, students with higher GPA preferred the technology assisted learning format. Implementation of blended learning approaches can be considered an attractive, cost-effective, and efficient alternative to traditional classroom training in medical statistics.

  17. Can achievement emotions be used to better understand motivation, learning, and performance in medical education?

    Science.gov (United States)

    Artino, Anthony R; Holmboe, Eric S; Durning, Steven J

    2012-01-01

    In this article, we consider an emergent theory of human emotion. The overarching purpose of the article is to introduce medical education researchers to the notion of achievement emotions and provide a brief overview of how this work can inform the theory, research, and practice of medical education. First, we define achievement emotions and describe one of the leading contemporary theories of achievement emotions, control-value theory (Pekrun R. 2006. The control-value theory of achievement emotions: Assumptions, corollaries, and implications for educational research and practice. Educ Psychol Rev 18:315-341.). Next, we distinguish between different types of achievement emotions, their proximal causes, and their consequences for motivation, learning, and performance, and we discuss several implications for educational practice. Finally, we end with a call for more research on achievement emotions in medical education to facilitate our understanding of emotions and their impact on important educational outcomes.

  18. IoTFLiP: IoT-based flipped learning platform for medical education

    Directory of Open Access Journals (Sweden)

    Maqbool Ali

    2017-08-01

    Full Text Available Case-Based Learning (CBL has become an effective pedagogy for student-centered learning in medical education, which is founded on persistent patient cases. Flippped learning and Internet of Things (IoTs concepts have gained significant attention in recent years. Using these concepts in conjunction with CBL can improve learning ability by providing real evolutionary medical cases. It also enables students to build confidence in their decision making, and efficiently enhances teamwork in the learing environment. We propose an IoT-based Flip Learning Platform, called IoTFLiP, where an IoT infrastructure is exploited to support flipped case-based learning in a cloud environment with state of the art security and privacy measures for personalized medical data. It also provides support for application delivery in private, public, and hybrid approaches. The proposed platform is an extension of our Interactive Case-Based Flipped Learning Tool (ICBFLT, which has been developed based on current CBL practices. ICBFLT formulates summaries of CBL cases through synergy between students' and medical expert knowledge. The low cost and reduced size of sensor device, support of IoTs, and recent flipped learning advancements can enhance medical students' academic and practical experiences. In order to demonstrate a working scenario for the proposed IoTFLiP platform, real-time data from IoTs gadgets is collected to generate a real-world case for a medical student using ICBFLT.

  19. Monitoring and regulation of learning in medical education: the need for predictive cues.

    Science.gov (United States)

    de Bruin, Anique B H; Dunlosky, John; Cavalcanti, Rodrigo B

    2017-06-01

    Being able to accurately monitor learning activities is a key element in self-regulated learning in all settings, including medical schools. Yet students' ability to monitor their progress is often limited, leading to inefficient use of study time. Interventions that improve the accuracy of students' monitoring can optimise self-regulated learning, leading to higher achievement. This paper reviews findings from cognitive psychology and explores potential applications in medical education, as well as areas for future research. Effective monitoring depends on students' ability to generate information ('cues') that accurately reflects their knowledge and skills. The ability of these 'cues' to predict achievement is referred to as 'cue diagnosticity'. Interventions that improve the ability of students to elicit predictive cues typically fall into two categories: (i) self-generation of cues and (ii) generation of cues that is delayed after self-study. Providing feedback and support is useful when cues are predictive but may be too complex to be readily used. Limited evidence exists about interventions to improve the accuracy of self-monitoring among medical students or trainees. Developing interventions that foster use of predictive cues can enhance the accuracy of self-monitoring, thereby improving self-study and clinical reasoning. First, insight should be gained into the characteristics of predictive cues used by medical students and trainees. Next, predictive cue prompts should be designed and tested to improve monitoring and regulation of learning. Finally, the use of predictive cues should be explored in relation to teaching and learning clinical reasoning. Improving self-regulated learning is important to help medical students and trainees efficiently acquire knowledge and skills necessary for clinical practice. Interventions that help students generate and use predictive cues hold the promise of improved self-regulated learning and achievement. This framework is

  20. Developing technology-enhanced active learning for medical education: challenges, solutions, and future directions.

    Science.gov (United States)

    McCoy, Lise; Pettit, Robin K; Lewis, Joy H; Bennett, Thomas; Carrasco, Noel; Brysacz, Stanley; Makin, Inder Raj S; Hutman, Ryan; Schwartz, Frederic N

    2015-04-01

    Growing up in an era of video games and Web-based applications has primed current medical students to expect rapid, interactive feedback. To address this need, the A.T. Still University-School of Osteopathic Medicine in Arizona (Mesa) has developed and integrated a variety of approaches using technology-enhanced active learning for medical education (TEAL-MEd) into its curriculum. Over the course of 3 years (2010-2013), the authors facilitated more than 80 implementations of games and virtual patient simulations into the education of 550 osteopathic medical students. The authors report on 4 key aspects of the TEAL-MEd initiative, including purpose, portfolio of tools, progress to date regarding challenges and solutions, and future directions. Lessons learned may be of benefit to medical educators at academic and clinical training sites who wish to implement TEAL-MEd activities.

  1. Barriers and solutions to online learning in medical education - an integrative review.

    Science.gov (United States)

    O'Doherty, Diane; Dromey, Marie; Lougheed, Justan; Hannigan, Ailish; Last, Jason; McGrath, Deirdre

    2018-06-07

    The aim of this study is to review the literature on known barriers and solutions that face educators when developing and implementing online learning programs for medical students and postgraduate trainees. An integrative review was conducted over a three-month period by an inter-institutional research team. The search included ScienceDirect, Scopus, BioMedical, PubMed, Medline (EBSCO & Ovid), ERIC, LISA, EBSCO, Google Scholar, ProQuest A&I, ProQuest UK & Ireland, UL Institutional Repository (IR), UCDIR and the All Aboard Report. Search terms included online learning, medical educators, development, barriers, solutions and digital literacy. The search was carried out by two reviewers. Titles and abstracts were screened independently and reviewed with inclusion/exclusion criteria. A consensus was drawn on which articles were included. Data appraisal was performed using the Critical Appraisal Skills Programme (CASP) Qualitative Research Checklist and NHMRC Appraisal Evidence Matrix. Data extraction was completed using the Cochrane Data Extraction Form and a modified extraction tool. Of the 3101 abstracts identified from the search, ten full-text papers met the inclusion criteria. Data extraction was completed on seven papers of high methodological quality and on three lower quality papers. Findings suggest that the key barriers which affect the development and implementation of online learning in medical education include time constraints, poor technical skills, inadequate infrastructure, absence of institutional strategies and support and negative attitudes of all involved. Solutions to these include improved educator skills, incentives and reward for the time involved with development and delivery of online content, improved institutional strategies and support and positive attitude amongst all those involved in the development and delivery of online content. This review has identified barriers and solutions amongst medical educators to the implementation of

  2. A survey on the quality of Master of Medical Education e-learning Course at Mashhad University of Medical Sciences

    Directory of Open Access Journals (Sweden)

    M nobakht

    2017-03-01

    Full Text Available Introduction:Universities and educational institutes provide a great variety of e-learning programs to accommodate the increasing demands for higher education. However, some specialists believe that many of these courses fail to meet the required standards of e-learning, thus cannot achieve the goals of implemented programs. Therefore, regular quality assessment of e-learning programs should be carried out by education providers. This study aimed to assess the quality of medical education e-learning course at Mashhad University of Medical Science. Methods:In the first step, most important components of e-learning standards were extracted through a comprehensive literature review of previous studies and a rating scale consisting of nine elements and 173 items were designed. Content validity of the scale was assured by consulting with ten different instructional design experts using Lawshe's Content Validity Ratio. Reliability of this scale is also investigated by inter-rater reliability coefficient which was 88% . In the next step we provided three instructional design experts with the above mentioned scale to collect required information for each sample lesson. Data was analyzed through SPSS Ver 16.0 software. Result: The elements associated with ‘quality of contents’ and ‘accessibility’ were satisfactory, elements related to ‘instructional design’, ’learning management system’, ’multimedia’ and ‘student assessment’ were relatively satisfactory, and elements associated with ‘interaction’, ‘feedback’ and ‘student support’ were unsatisfactory. Overall, we evaluated the quality of the medical education e-learning course as relatively satisfactory. Conclusion: Although the quality of the assessed e-learning course was relatively satisfactory, it is still necessary for corresponding administrators to reassess those items with an average of less than 1.66 (satisfactory level and pay their special attentions to

  3. Medical English M-Learning: Positioning a New Paradigm in E-Education

    Directory of Open Access Journals (Sweden)

    Jafar Asgari Arani

    2012-01-01

    Full Text Available ABSTRACT- This study uses Depth Interview as a research instrument to study users' perceptions and acceptance of the potential use of mobile phones in a prospective design for learning Medical English, a mandatory course in medicine. Almost all the respondents (93% across graduates and students were unanimous about the need to learn English through M-Learning. When respondents were asked to suggest ideas on how medical English can be taught through mobiles (unaided question, 49% suggested SMS and 27% suggested SMS & Live Calls. The survey indicates that there is a unanimous demand to learn English amongst students and graduates of medicine in a new e-education setting called M-learning. Constraints imposed by one’s occupation and available resources expose the limitations of traditional learning and opens up a huge opportunity for M-English learning. Irrespective of differences, potential learners accepted the credibility of M-learning and displayed willingness to be an active user of an M-learning module. Diversity of responses on potential frequency of usage for SMSs, preferences regarding listening to IVR, speaking to Live Callers, traditional classroom learning, M-learning and testing options will establish at a primary level that the means of ‘engagement’, ‘presence’ and ‘flexibility’ can be significantly different ‘between’ and ‘within’ different educational groups.

  4. The efficacy and usefulness of problem based learning in undergraduate medical school education of radiation oncology

    International Nuclear Information System (INIS)

    Uchino, Minako; Itazawa, Tomoko; Someya, Masanori; Nakamura, Satoaki

    2007-01-01

    The Japanese Association for Therapeutic Radiation Oncology (JASTRO) holds a seminar for medical students every summer, which has developed into a joint program with a session addressing radiation treatment planning. To clarify this topic for medical students, we have incorporated Problem Based Learning skills into the session. Not only has the students' comprehension improved but the instructors have also found this teaching experience valuable and productive in advancing their own clinical skills. Our experience suggests that the application of this Problem Based Learning session for radiation treatment planning in undergraduate medical school education has proven to be effective. (author)

  5. Social media as an open-learning resource in medical education: current perspectives

    Directory of Open Access Journals (Sweden)

    Sutherland S

    2017-06-01

    Full Text Available S Sutherland,1 A Jalali2 1Department of Critical Care, The Ottawa Hospital, ²Division of Clinical and Functional Anatomy, Faculty of Medicine, University of Ottawa, Ottawa, ON, Canada Purpose: Numerous studies evaluate the use of social media as an open-learning resource in education, but there is a little published knowledge of empirical evidence that such open-learning resources produce educative outcomes, particularly with regard to student performance. This study undertook a systematic review of the published literature in medical education to determine the state of the evidence as to empirical studies that conduct an evaluation or research regarding social media and open-learning resources.Methods: The authors searched MEDLINE, ERIC, Embase, PubMed, Scopus, and Google Scholar from 2012 to 2017. This search included using keywords related to social media, medical education, research, and evaluation, while restricting the search to peer reviewed, English language articles only. To meet inclusion criteria, manuscripts had to employ evaluative methods and undertake empirical research.Results: Empirical work designed to evaluate the impact of social media as an open-learning resource in medical education is limited as only 13 studies met inclusion criteria. The majority of these studies used undergraduate medical education as the backdrop to investigate open-learning resources, such as Facebook, Twitter, and YouTube. YouTube appears to have little educational value due to the unsupervised nature of content added on a daily basis. Overall, extant reviews have demonstrated that we know a considerable amount about social media use, although to date, its impacts remain unclear.Conclusion: There is a paucity of outcome-based, empirical studies assessing the impact of social media in medical education. The few empirical studies identified tend to focus on evaluating the affective outcomes of social media and medical education as opposed to

  6. Medical education of attention: A qualitative study of learning to listen to sound.

    Science.gov (United States)

    Harris, Anna; Flynn, Eleanor

    2017-01-01

    There has been little qualitative research examining how physical examination skills are learned, particularly the sensory and subjective aspects of learning. The authors set out to study how medical students are taught and learn the skills of listening to sound. As part of an ethnographic study in Melbourne, 15 semi-structured in-depth interviews were conducted with students and teachers as a way to reflect explicitly on their learning and teaching. From these interviews, we found that learning the skills of listening to lung sounds was frequently difficult for students, with many experiencing awkwardness, uncertainty, pressure, and intimidation. However not everyone found this process difficult. Often those who had studied music reported finding it easier to be attentive to the frequency and rhythm of body sounds and find ways to describe them. By incorporating, distinctively in medical education, theoretical insights into "attentiveness" from anthropology and science and technology studies, the article suggests that musical education provides medical students with skills in sensory awareness. Training the senses is a critical aspect of diagnosis that needs to be better addressed in medical education. Practical approaches for improving students' education of attention are proposed.

  7. Community-based medical education: is success a result of meaningful personal learning experiences?

    Science.gov (United States)

    Kelly, Len; Walters, Lucie; Rosenthal, David

    2014-01-01

    Community-based medical education (CBME) is the delivery of medical education in a specific social context. Learners become a part of social and medical communities where their learning occurs. Longitudinal integrated clerkships (LICs) are year-long community-based placements where the curriculum and clinical experience is typically delivered by primary care physicians. These programs have proven to be robust learning environments, where learners develop strong communication skills and excellent clinical reasoning. To date, no learning model has been offered to describe CBME. The characteristics of CBME are explored by the authors who suggest that the social and professional context provided in small communities enhances medical education. The authors postulate that meaningfulness is engendered by the authentic context, which develops over time. These relationships with preceptors, patients and the community provide meaningfulness, which in turn enhances learning. The authors develop a novel learning model. They propose that the context-rich environment of CBME allows for meaningful relationships and experiences for students and that such meaningfulness enhances learning.

  8. [The workplace-based learning: a main paradigm of an effective continuing medical education].

    Science.gov (United States)

    Lelli, Maria Barbara

    2010-01-01

    On the strength of the literature analysis and the Emilia-Romagna Region experience, we suggest a reflection on the workplace-based learning that goes beyond the analysis of the effectiveness of specific didactic methodologies and aspects related to Continuing Medical Education. Health education and training issue is viewed from a wider perspective, that integrates the three learning dimensions (formal, non formal and informal). In such a perspective the workplace-based learning becomes an essential paradigm to reshape the explicit knowledge conveyed in formal context and to emphasize informal contexts where innovation is generated.

  9. The Future of e-Learning in Medical Education: Current Trend and Future Opportunity

    Directory of Open Access Journals (Sweden)

    Sara Kim

    2006-09-01

    Full Text Available A wide range of e-learning modalities are widely integrated in medical education. However, some of the key questions related to the role of e-learning remain unanswered, such as (1 what is an effective approach to integrating technology into pre-clinical vs. clinical training?; (2 what evidence exists regarding the type and format of e-learning technology suitable for medical specialties and clinical settings?; (3 which design features are known to be effective in designing on-line patient simulation cases, tutorials, or clinical exams?; and (4 what guidelines exist for determining an appropriate blend of instructional strategies, including online learning, face-to-face instruction, and performance-based skill practices? Based on the existing literature and a variety of e-learning examples of synchronous learning tools and simulation technology, this paper addresses the following three questions: (1 what is the current trend of e-learning in medical education?; (2 what do we know about the effective use of e-learning?; and (3 what is the role of e-learning in facilitating newly emerging competency-based training? As e-learning continues to be widely integrated in training future physicians, it is critical that our efforts in conducting evaluative studies should target specific e-learning features that can best mediate intended learning goals and objectives. Without an evolving knowledge base on how best to design e-learning applications, the gap between what we know about technology use and how we deploy e-learning in training settings will continue to widen.

  10. Social media and medical education: Exploring the potential of Twitter as a learning tool.

    Science.gov (United States)

    Jalali, Alireza; Sherbino, Jonathan; Frank, Jason; Sutherland, Stephanie

    2015-04-01

    This study set out to explore the ways in which social media can facilitate learning in medical education. In particular we were interested in determining whether the use of Twitter during an academic conference can promote learning for participants. The Twitter transcript from the annual International Conference on Residency Education (ICRE) 2013 was qualitatively analysed for evidence of the three overarching cognitive themes: (1) preconceptions, (2) frameworks, and (3) metacognition/refl ection in regard to the National Research Council ’ s (NRC) How People Learn framework . Content analysis of the Twitter transcript revealed evidence of the three cognitive themes as related to how people learn. Twitter appears to be most effective at stimulating individuals ’ preconceptions, thereby engaging them with the new material acquired during a medical education conference. The study of social media data, such as the Twitter data used in this study, is in its infancy. Having established that Twitter does hold signifi cant potential as a learning tool during an academic conference, we are now in a better position to more closely examine the spread, depth, and sustainability of such learning during medical education meetings.

  11. Ethics teaching in a medical education environment: preferences for diversity of learning and assessment methods.

    Science.gov (United States)

    AlMahmoud, Tahra; Hashim, M Jawad; Elzubeir, Margaret Ann; Branicki, Frank

    2017-01-01

    Ethics and professionalism are an integral part of medical school curricula; however, medical students' views on these topics have not been assessed in many countries.  The study aimed to examine medical students' perceptions toward ethics and professionalism teaching, and its learning and assessment methods. A self-administered questionnaire eliciting views on professionalism and ethics education was distributed to a total of 128 final-year medical students. A total of 108 students completed the survey, with an 84% response rate. Medical students reported frequently encountering ethical conflicts during training but stated only a moderate level of ethics training at medical school (mean = 5.14 ± 1.8). They noted that their education had helped somewhat to deal with ethical conflicts (mean = 5.39 ± 2.0). Students strongly affirmed the importance of ethics education (mean = 7.63 ± 1.03) and endorsed the value of positive role models (mean = 7.45 ± 1.5) as the preferred learning method. The cohort voiced interest in direct faculty supervision as an approach to assessment of knowledge and skills (mean = 7.62 ± 1.26). Female students perceived greater need for more ethics education compared to males (p = methods for learning.

  12. Improving Education in Medical Statistics: Implementing a Blended Learning Model in the Existing Curriculum.

    Directory of Open Access Journals (Sweden)

    Natasa M Milic

    Full Text Available Although recent studies report on the benefits of blended learning in improving medical student education, there is still no empirical evidence on the relative effectiveness of blended over traditional learning approaches in medical statistics. We implemented blended along with on-site (i.e. face-to-face learning to further assess the potential value of web-based learning in medical statistics.This was a prospective study conducted with third year medical undergraduate students attending the Faculty of Medicine, University of Belgrade, who passed (440 of 545 the final exam of the obligatory introductory statistics course during 2013-14. Student statistics achievements were stratified based on the two methods of education delivery: blended learning and on-site learning. Blended learning included a combination of face-to-face and distance learning methodologies integrated into a single course.Mean exam scores for the blended learning student group were higher than for the on-site student group for both final statistics score (89.36±6.60 vs. 86.06±8.48; p = 0.001 and knowledge test score (7.88±1.30 vs. 7.51±1.36; p = 0.023 with a medium effect size. There were no differences in sex or study duration between the groups. Current grade point average (GPA was higher in the blended group. In a multivariable regression model, current GPA and knowledge test scores were associated with the final statistics score after adjusting for study duration and learning modality (p<0.001.This study provides empirical evidence to support educator decisions to implement different learning environments for teaching medical statistics to undergraduate medical students. Blended and on-site training formats led to similar knowledge acquisition; however, students with higher GPA preferred the technology assisted learning format. Implementation of blended learning approaches can be considered an attractive, cost-effective, and efficient alternative to traditional

  13. Exploration of preferred learning styles in medical education using VARK modal

    Directory of Open Access Journals (Sweden)

    Laxman Khanal

    2014-09-01

    Full Text Available Learning styles is a term used to refer to the methods of gathering, processing, interpreting, organizing and thinking about information. Students have different learning styles, which is the reason for the diversity seen in classrooms in regards to how students acquire information. Claxton and Murrell had divided the learning styles into the following four categories: personality models, information-processing models, social-interaction models, and instructional preferences models. VARK (an acronym for Visual, Aural, Read/write and Kinesthetic, different way of learning styles is a learning inventory categorized into the ‘instructional preference’ modal. Many studies were done using the VARK inventory among the medical education but the preferred mode of learning was variable in different parts of the world. The relationship of age, gender and academic performance with the mode of learning was also not consistent. So this article tried to conclude the preferred mode of learning and relationship of mode of learning with gender and other factors by analyzing the previous studies done using VARK questionnaire among the medical students in daily teaching and learning environment. Pub Med and Google Scholar were used as a search engine to find the article. Altogether 20 full text research papers were retrieved and reviewed. In the most of part of the world the studies showed that multimodal learning style was the predominant one over unimodal. Further in multimodal quadmodal was the most preferred one followed by other presentation. In the unimodal presentation most preferred one is kinesthetic type of learning along with visual, aural and read write in less extent. Age factors had no lucid relationship with the learning style though some variations were observed with age.This review was expected to be useful as scientific evidence in the field of medical education and also as a reference for further research.

  14. Are we ready for blended learning in medical education?

    Directory of Open Access Journals (Sweden)

    Aneesh Basheer

    2016-10-01

    Full Text Available Blended learning has other indirect positive effects as well. One innovative byproduct of blended learning is the flipped classroom; the sequence of events customary to the traditional classroom teaching are reversed.2 Traditional learning starts with the teacher providing a predominant cognitive (knowledge component and requires the students to follow it up with self-study and expansion of knowledge leading to higher levels of learning. The teacher plays the role of subject expert in general. In contrast, the learning material or at least a major part of it is provided to students before the scheduled class. The teacher uses the face to face session to engage students in interactive discussions, group tasks and other activities. This also has the advantage of making the learning process active, learner-centered and more retentive, reducing distraction and promoting higher levels of learning.3,4 Moreover, there is enough data to indicate that students are highly satisfied with the blended learning experience, particularly flipped classrooms.

  15. Exploring emerging learning needs: a UK-wide consultation on environmental sustainability learning objectives for medical education.

    Science.gov (United States)

    Walpole, Sarah C; Mortimer, Frances; Inman, Alice; Braithwaite, Isobel; Thompson, Trevor

    2015-12-24

    This study aimed to engage wide-ranging stakeholders and develop consensus learning objectives for undergraduate and postgraduate medical education. A UK-wide consultation garnered opinions of healthcare students, healthcare educators and other key stakeholders about environmental sustainability in medical education. The policy Delphi approach informed this study. Draft learning objectives were revised iteratively during three rounds of consultation: online questionnaire or telephone interview, face-to-face seminar and email consultation. Twelve draft learning objectives were developed based on review of relevant literature. In round one, 64 participants' median ratings of the learning objectives were 3.5 for relevance and 3.0 for feasibility on a Likert scale of one to four. Revisions were proposed, e.g. to highlight relevance to public health and professionalism. Thirty three participants attended round two. Conflicting opinions were explored. Added content areas included health benefits of sustainable behaviours. To enhance usability, restructuring provided three overarching learning objectives, each with subsidiary points. All participants from rounds one and two were contacted in round three, and no further edits were required. This is the first attempt to define consensus learning objectives for medical students about environmental sustainability. Allowing a wide range of stakeholders to comment on multiple iterations of the document stimulated their engagement with the issues raised and ownership of the resulting learning objectives.

  16. Paramedic Learning Style Preferences and Continuing Medical Education Activities: A Cross-Sectional Survey Study.

    Science.gov (United States)

    Staple, Louis; Carter, Alix; Jensen, Jan L; Walker, Mark

    2018-01-01

    Paramedics participate in continuing medical education (CME) to maintain their skills and knowledge. An understanding of learning styles is important for education to be effective. This study examined the preferred learning styles of ground ambulance paramedics and describes how their preferred learning styles relate to the elective CME activities these paramedics attend. All paramedics (n=1,036) employed in a provincial ground ambulance service were invited to participate in a survey containing three parts: demographics, learning style assessed by the Kolb Learning Style Inventory (LSI), and elective CME activity. 260 paramedics (25%) participated in the survey. Preferred learning styles were: assimilator, 28%; diverger, 25%; converger, 24%; and accommodator, 23%. Advanced life support (ALS) providers had a higher proportion of assimilators (36%), and basic life support (BLS) providers had a higher proportion of divergers (30%). The learning style categories of CME activities attended by paramedics were: assimilators, 25%; divergers, 26%; convergers, 25%; and accommodators, 24%. These results suggest that paramedics are a diverse group of learners, and learning style differs within their demographics. Paramedics attend CME activities that complement all learning styles. Organizations providing education opportunities to paramedics should consider paramedics a diverse learning group when designing their CME programs.

  17. A literature review of empirical research on learning analytics in medical education.

    Science.gov (United States)

    Saqr, Mohammed

    2018-01-01

    The number of publications in the field of medical education is still markedly low, despite recognition of the value of the discipline in the medical education literature, and exponential growth of publications in other fields. This necessitates raising awareness of the research methods and potential benefits of learning analytics (LA). The aim of this paper was to offer a methodological systemic review of empirical LA research in the field of medical education and a general overview of the common methods used in the field in general. Search was done in Medline database using the term "LA." Inclusion criteria included empirical original research articles investigating LA using qualitative, quantitative, or mixed methodologies. Articles were also required to be written in English, published in a scholarly peer-reviewed journal and have a dedicated section for methods and results. A Medline search resulted in only six articles fulfilling the inclusion criteria for this review. Most of the studies collected data about learners from learning management systems or online learning resources. Analysis used mostly quantitative methods including descriptive statistics, correlation tests, and regression models in two studies. Patterns of online behavior and usage of the digital resources as well as predicting achievement was the outcome most studies investigated. Research about LA in the field of medical education is still in infancy, with more questions than answers. The early studies are encouraging and showed that patterns of online learning can be easily revealed as well as predicting students' performance.

  18. Meta-analysis on the effectiveness of team-based learning on medical education in China.

    Science.gov (United States)

    Chen, Minjian; Ni, Chunhui; Hu, Yanhui; Wang, Meilin; Liu, Lu; Ji, Xiaoming; Chu, Haiyan; Wu, Wei; Lu, Chuncheng; Wang, Shouyu; Wang, Shoulin; Zhao, Liping; Li, Zhong; Zhu, Huijuan; Wang, Jianming; Xia, Yankai; Wang, Xinru

    2018-04-10

    Team-based learning (TBL) has been adopted as a new medical pedagogical approach in China. However, there are no studies or reviews summarizing the effectiveness of TBL on medical education. This study aims to obtain an overall estimation of the effectiveness of TBL on outcomes of theoretical teaching of medical education in China. We retrieved the studies from inception through December, 2015. Chinese National Knowledge Infrastructure, Chinese Biomedical Literature Database, Chinese Wanfang Database, Chinese Scientific Journal Database, PubMed, EMBASE and Cochrane Database were searched. The quality of included studies was assessed by the Newcastle-Ottawa scale. Standardized mean difference (SMD) was applied for the estimation of the pooled effects. Heterogeneity assumption was detected by I 2 statistics, and was further explored by meta-regression analysis. A total of 13 articles including 1545 participants eventually entered into the meta-analysis. The quality scores of these studies ranged from 6 to 10. Altogether, TBL significantly increased students' theoretical examination scores when compared with lecture-based learning (LBL) (SMD = 2.46, 95% CI: 1.53-3.40). Additionally, TBL significantly increased students' learning attitude (SMD = 3.23, 95% CI: 2.27-4.20), and learning skill (SMD = 2.70, 95% CI: 1.33-4.07). The meta-regression results showed that randomization, education classification and gender diversity were the factors that caused heterogeneity. TBL in theoretical teaching of medical education seems to be more effective than LBL in improving the knowledge, attitude and skill of students in China, providing evidence for the implement of TBL in medical education in China. The medical schools should implement TBL with the consideration on the practical teaching situations such as students' education level.

  19. Perspectives on competency-based medical education from the learning sciences.

    Science.gov (United States)

    Swing, Susan R

    2010-01-01

    A central component of competency-based medical education is a framework of higher-order and more fundamental competencies whose purpose is to focus instruction and learning. In the language of the learning sciences, many of these competencies are complex cognitive-perceptual or cognitive-motor skills. Competency-based medical education has been criticized for being reductionistic, that is, for focusing on atomistic skills and failing to capture the essence of professional activities as manifested by complex, integrated capabilities. The value of identifying fundamental skill components is supported by theory and evidence from the learning sciences, however. Complex skills are constructed from fundamental, component skills. Proficient performance of the former is achieved as components are refined and integrated during repeated performance of the skill in a realistic context and as feedback on performance is provided. Competency-based medical education does not propose specific methods for teaching competencies. The learning and instructional sciences, however, posit a number of conditions for learning that support the acquisition of simple skills and their flexible integration into complex capabilities. Learners' motivation and self-regulation skills will also have an impact on the extent to which they engage in learning processes that result in the integration of knowledge and skills into complex competencies.

  20. Mobile learning in resource-constrained environments: a case study of medical education.

    Science.gov (United States)

    Pimmer, Christoph; Linxen, Sebastian; Gröhbiel, Urs; Jha, Anil Kumar; Burg, Günter

    2013-05-01

    The achievement of the millennium development goals may be facilitated by the use of information and communication technology in medical and health education. This study intended to explore the use and impact of educational technology in medical education in resource-constrained environments. A multiple case study was conducted in two Nepalese teaching hospitals. The data were analysed using activity theory as an analytical basis. There was little evidence for formal e-learning, but the findings indicate that students and residents adopted mobile technologies, such as mobile phones and small laptops, as cultural tools for surprisingly rich 'informal' learning in a very short time. These tools allowed learners to enhance (a) situated learning, by immediately connecting virtual information sources to their situated experiences; (b) cross-contextual learning by documenting situated experiences in the form of images and videos and re-using the material for later reflection and discussion and (c) engagement with educational content in social network communities. By placing the students and residents at the centre of the new learning activities, this development has begun to affect the overall educational system. Leveraging these tools is closely linked to the development of broad media literacy, including awareness of ethical and privacy issues.

  1. eLearning or technology enhanced learning in medical education-Hope, not hype.

    Science.gov (United States)

    Goh, Poh Sun

    2016-09-01

    This Personal View elaborates on my strong conviction that the excitement and positive feelings that many of us have for eLearning or Technology enhanced learning (TeL) is well founded, and will argue why our hopes are justified, and not misplaced. In a nutshell, I believe that eLearning or TeL is a significant advance from previous generations of educational innovation, and offers benefits for students, educators and administrators; by synergistically combining the capabilities of digital content, the Internet, and mobile technology, supported by software and applications or "Apps".

  2. A Comparison of Internet-Based Learning and Traditional Classroom Lecture to Learn CPR for Continuing Medical Education

    Science.gov (United States)

    Hemmati, Nima; Omrani, Soghra; Hemmati, Naser

    2013-01-01

    The purpose of this study was to compare the satisfaction and effectiveness of Internet-based learning (IBL) and traditional classroom lecture (TCL) for continuing medical education (CME) programs by comparing final resuscitation exam results of physicians who received the newest cardiopulmonary resuscitation (CPR) curriculum guidelines training…

  3. A Correlational Study of Self-Directed Learning Readiness and Learning Activity Preference for Continuing Medical Education among Family Physicians

    Science.gov (United States)

    Barrett, Theresa J.

    2014-01-01

    This quantitative, nonexperimental, correlational study sought to determine whether a relationship exists between family physicians' levels of self-directed learning readiness (SDLR) and their preferences for continuing medical education (CME) activities. The study also sought to determine whether years in clinical practice or size of clinical…

  4. Systematic review of effectiveness of situated e-learning on medical and nursing education.

    Science.gov (United States)

    Feng, Jui-Ying; Chang, Yi-Ting; Chang, Hsin-Yi; Erdley, William Scott; Lin, Chyi-Her; Chang, Ying-Ju

    2013-08-01

    Because of the complexity of clinical situations, traditional didactic education is limited in providing opportunity for student-patient interaction. Situated e-learning can enhance learners' knowledge and associated abilities through a variety of activities. Healthcare providers who interact with virtual patients in designed situations may avoid unnecessary risks and encounters with real patients. However, the effectiveness of situated e-learning is inconsistent. The purpose of this study is to determine the effectiveness of situated e-learning in prelicensure and postlicensure medical and nursing education. Literature databases of PubMed, Medline, CINAHL, ERIC, and Cochrane Library were searched. The study eligibility criteria included articles published in English, which examined the effectiveness of situated e-learning on the outcomes of knowledge and performance for clinicians or students in medicine and nursing. Effect sizes were calculated with 95% confidence intervals. Fourteen articles were included for meta-analysis. Situated e-learning could effectively enhance learners' knowledge and performance when the control group received no training. Compared to traditional learning, the effectiveness of situated e-learning on performance diminished but still remained significant whereas the effect become insignificant on knowledge. The subgroup analyses indicate the situated e-learning program significantly improved students' clinical performance but not for clinicians. Situated e-learning is an effective method to improve novice learners' performance. The effect of situated e-learning on the improvement of cognitive ability is limited when compared to traditional learning. Situated e-learning is a useful adjunct to traditional learning for medical and nursing students. © 2013 Sigma Theta Tau International.

  5. Can learning style predict student satisfaction with different instruction methods and academic achievement in medical education?

    Science.gov (United States)

    Gurpinar, Erol; Alimoglu, Mustafa Kemal; Mamakli, Sumer; Aktekin, Mehmet

    2010-12-01

    The curriculum of our medical school has a hybrid structure including both traditional training (lectures) and problem-based learning (PBL) applications. The purpose of this study was to determine the learning styles of our medical students and investigate the relation of learning styles with each of satisfaction with different instruction methods and academic achievement in them. This study was carried out with the participation of 170 first-year medical students (the participation rate was 91.4%). The researchers prepared sociodemographic and satisfaction questionnaires to determine the characteristics of the participants and their satisfaction levels with traditional training and PBL. The Kolb learning styles inventory was used to explore the learning styles of the study group. The participants completed all forms at the end of the first year of medical education. Indicators of academic achievement were scores of five theoretical block exams and five PBL exams performed throughout the academic year of 2008-2009. The majority of the participants took part in the "diverging" (n = 84, 47.7%) and "assimilating" (n = 73, 41.5%) groups. Numbers of students in the "converging" and "accommodating" groups were 11 (6.3%) and 8 (4.5%), respectively. In all learning style groups, PBL satisfaction scores were significantly higher than those of traditional training. Exam scores for "PBL and traditional training" did not differ among the four learning styles. In logistic regression analysis, learning style (assimilating) predicted student satisfaction with traditional training and success in theoretical block exams. Nothing predicted PBL satisfaction and success. This is the first study conducted among medical students evaluating the relation of learning style with student satisfaction and academic achievement. More research with larger groups is needed to generalize our results. Some learning styles may relate to satisfaction with and achievement in some instruction methods.

  6. Comparison of lecture and team-based learning in medical ethics education.

    Science.gov (United States)

    Ozgonul, Levent; Alimoglu, Mustafa Kemal

    2017-01-01

    Medical education literature suggests that ethics education should be learner-centered and problem-based rather than theory-based. Team-based learning is an appropriate method for this suggestion. However, its effectiveness was not investigated enough in medical ethics education. Is team-based learning effective in medical ethics education in terms of knowledge retention, in-class learner engagement, and learner reactions? This was a prospective controlled follow-up study. We changed lecture with team-based learning method to teach four topics in a 2-week medical ethics clerkship, while the remaining topics were taught by lectures. For comparison, we formed team-based learning and lecture groups, in which the students and instructor are the same, but the topics and teaching methodologies are different. We determined in-class learner engagement by direct observation and student satisfaction by feedback forms. Student success for team-based learning and lecture topics in the end-of-clerkship exam and two retention tests performed 1 year and 2 years later were compared. Ethical considerations: Ethical approval for the study was granted by Akdeniz University Board of Ethics on Noninvasive Clinical Human Studies Ethics committee. Short-term knowledge retention did not differ; however, team-based learning was found superior to lecture at long-term retention tests. Student satisfaction was high with team-based learning and in-class engagement was better in team-based learning sessions. Our results on learner engagement and satisfaction with team-based learning were similar to those of previous reports. However, knowledge retention results in our study were contrary to literature. The reason might be the fact that students prepared for the end-of-clerkship pass/fail exam (short term) regardless of the teaching method. But, at long-term retention tests, they did not prepare for the exam and answered the questions just using the knowledge retained in their memories. Our

  7. Reflection as a Learning Tool in Graduate Medical Education: A Systematic Review.

    Science.gov (United States)

    Winkel, Abigail Ford; Yingling, Sandra; Jones, Aubrie-Ann; Nicholson, Joey

    2017-08-01

    Graduate medical education programs employ reflection to advance a range of outcomes for physicians in training. However, the most effective applications of this tool have not been fully explored. A systematic review of the literature examined interventions reporting the use of reflection in graduate medical education. The authors searched Medline/PubMed, Embase, Cochrane CENTRAL, and ERIC for studies of reflection as a teaching tool to develop medical trainees' capacities. Key words and subject headings included reflection , narrative , residents/GME , and education / teaching / learning . No language or date limits were applied. The search yielded 1308 citations between inception for each database and June 15, 2015. A total of 16 studies, encompassing 477 residents and fellows, met eligibility criteria. Study quality was assessed using the Critical Appraisal Skills Programme Qualitative Checklist. The authors conducted a thematic analysis of the 16 articles. Outcomes studied encompassed the impact of reflection on empathy, comfort with learning in complex situations, and engagement in the learning process. Reflection increased learning of complex subjects and deepened professional values. It appears to be an effective tool for improving attitudes and comfort when exploring difficult material. Limitations include that most studies had small samples, used volunteers, and did not measure behavioral outcomes. Critical reflection is a tool that can amplify learning in residents and fellows. Added research is needed to understand how reflection can influence growth in professional capacities and patient-level outcomes in ways that can be measured.

  8. A descriptive study of medical educators' views of problem-based learning

    Directory of Open Access Journals (Sweden)

    Dennick Reg

    2009-11-01

    Full Text Available Abstract Background There is a growing amount of literature on the benefits and drawbacks of Problem-Based Learning (PBL compared to conventional curricula. However, it seems that PBL research studies do not provide information rigorously and formally that can contribute to making evidence-based medical education decisions. The authors performed an investigation aimed at medical education scholars around the question, "What are the views of medical educators concerning the PBL approach?" Methods After framing the question, the method of data collection relied on asking medical educators to report their views on PBL. Two methods were used for collecting data: the questionnaire survey and an online discussion forum. Results The descriptive analysis of the study showed that many participants value the PBL approach in the practice and training of doctors. However, some participants hold contrasting views upon the importance of the PBL approach in basic medical education. For example, more than a third of participants (38.5% had a neutral stance on PBL as a student-oriented educational approach. The same proportion of participants also had a neutral view of the efficiency of traditional learning compared to a PBL tutorial. The open-ended question explored the importance of faculty development in PBL. A few participants had negative perceptions of the epistemological assumptions of PBL. Two themes emerged from the analysis of the forum repliers: the importance of the faculty role and self-managed education. Conclusion Whilst many participants valued the importance of the PBL approach in the practice and training of doctors and agreed with most of the conventional descriptions of PBL, some participants held contrasting views on the importance of the PBL approach in undergraduate medical education. However there was a strong view concerning the importance of facilitator training. More research is needed to understand the process of PBL better.

  9. Arts-based learning in medical education: the students' perspective

    NARCIS (Netherlands)

    de la Croix, Anne; Rose, Catharine; Wildig, Emma; Willson, Suzy

    2011-01-01

    CONTEXT Arts subjects are often included in medical school curricula to facilitate the exploration of non-scientific elements of medicine, such as communication, social, political, emotional and spiritual issues. However, little research has reported on students' experience of arts teaching.

  10. Towards effective outcomes in teaching, learning and assessment of law in medical education.

    Science.gov (United States)

    Preston-Shoot, Michael; McKimm, Judy

    2011-04-01

    Law is slowly emerging as a core subject area in medical education, alongside content on the ethical responsibilities of doctors to protect and promote patient health and well-being. Curriculum statements have begun to advise on core content and methods for organising teaching and assessment. However, no comprehensive overview of approaches to the delivery of this law curriculum has been undertaken. This paper reports an assessment of the nature and strength of the published evidence base for the teaching, learning and assessment of law in medical education. It also provides a thematic content overview from the best available literature on the teaching of law to medical students and on the assessment of their legal knowledge and skills. A systematic review of the evidence base was completed. Detailed scrutiny resulted in the inclusion of 31 empirical sources and 11 conceptual papers. The quality of the included material was assessed. Significant gaps exist in the evidence base. Empirical studies of the teaching of law are characterised by insufficient sample sizes and a focus on individual study programmes. They rely on measures of student satisfaction and on evaluating short-term outcomes rather than assessing whether knowledge is retained and whether learning impacts on patient outcomes. Studies reveal a lack of coordination between pre- or non-clinical and clinical medico-legal education. Although evidence on the development of students' knowledge is available, much learning is distant from the practice in which its application would be tested. Law learning in clinical placements appears to be opportunistic rather than structured. The place of law in the curriculum remains uncertain and should be more clearly identified. A more robust knowledge base is needed to realise the aspirations behind curriculum statements on law and to enable medical students to develop sufficient legal literacy to manage challenging practice encounters. Further research is needed into

  11. [Current teaching, learning and examination methods in medical education and potential applications in rehabilitative issues].

    Science.gov (United States)

    Schwarzkopf, S R; Morfeld, M; Gülich, M; Lay, W; Horn, K; Mau, W

    2007-04-01

    With introduction of the new Federal Medical Licensing Regulations (Approbationsordnung) in Germany, integrated teaching in "Rehabilitation, Physical Medicine, Naturopathic Treatment" (Querschnittsbereich Q12) has become obligatory for the first time. Furthermore, the new Regulations require the medical faculties in Germany to realize an innovative didactic orientation in teaching. This paper provides an overview of recent applications of teaching techniques and examination methods in medical education with special consideration of the new integrated course Q12 and further teaching methods related to rehabilitative issues. Problem-oriented learning (POL), problem-based learning (PBL), bedside teaching, eLearning, and the examination methods Objective Structured Clinical Examination (OSCE) and Triple Jump are in the focus. This overview is intended as the basis for subsequent publications of the Commission for Undergraduate and Postgraduate Training of the German Society of Rehabilitation Science (DGRW), which will present examples of innovative teaching material.

  12. Quality management of eLearning for medical education: current situation and outlook.

    Science.gov (United States)

    Abrusch, Jasmin; Marienhagen, Jörg; Böckers, Anja; Gerhardt-Szép, Susanne

    2015-01-01

    In 2008, the German Council of Science had advised universities to establish a quality management system (QMS) that conforms to international standards. The system was to be implemented within 5 years, i.e., until 2014 at the latest. The aim of the present study was to determine whether a QMS suitable for electronic learning (eLearning) domain of medical education to be used across Germany has meanwhile been identified. We approached all medical universities in Germany (n=35), using an anonymous questionnaire (8 domains, 50 items). Our results (response rate 46.3%) indicated very reluctant application of QMS in eLearning and a major information deficit at the various institutions. Authors conclude that under the limitations of this study there seems to be a considerable need to improve the current knowledge on QMS for eLearning, and that clear guidelines and standards for their implementation should be further defined.

  13. Student perceptions of independent versus facilitated small group learning approaches to compressed medical anatomy education.

    Science.gov (United States)

    Whelan, Alexander; Leddy, John J; Mindra, Sean; Matthew Hughes, J D; El-Bialy, Safaa; Ramnanan, Christopher J

    2016-01-01

    The purpose of this study was to compare student perceptions regarding two, small group learning approaches to compressed (46.5 prosection-based laboratory hours), integrated anatomy education at the University of Ottawa medical program. In the facilitated active learning (FAL) approach, tutors engage students and are expected to enable and balance both active learning and progression through laboratory objectives. In contrast, the emphasized independent learning (EIL) approach stresses elements from the "flipped classroom" educational model: prelaboratory preparation, independent laboratory learning, and limited tutor involvement. Quantitative (Likert-style questions) and qualitative data (independent thematic analysis of open-ended commentary) from a survey of students who had completed the preclerkship curriculum identified strengths from the EIL (promoting student collaboration and communication) and FAL (successful progression through objectives) approaches. However, EIL led to student frustration related to a lack of direction and impaired completion of objectives, whereas active learning opportunities in FAL were highly variable and dependent on tutor teaching style. A "hidden curriculum" was also identified, where students (particularly EIL and clerkship students) commonly compared their compressed anatomy education or their anatomy learning environment with other approaches. Finally, while both groups highly regarded the efficiency of prosection-based learning and expressed value for cadaveric-based learning, student commentary noted that the lack of grade value dedicated to anatomy assessment limited student accountability. This study revealed critical insights into small group learning in compressed anatomy education, including the need to balance student active learning opportunities with appropriate direction and feedback (including assessment). © 2015 American Association of Anatomists.

  14. Correlating students' educational background, study habits, and resource usage with learning success in medical histology.

    Science.gov (United States)

    Selvig, Daniel; Holaday, Louisa W; Purkiss, Joel; Hortsch, Michael

    2015-01-01

    Histology is a traditional core basic science component of most medical and dental education programs and presents a didactic challenge for many students. Identifying students that are likely to struggle with histology would allow for early intervention to support and encourage their learning success. To identify student characteristics that are associated with learning success in histology, three first-year medical school classes at the University of Michigan (>440 students) were surveyed about their educational background, attitudes toward learning histology, and their use of histology learning strategies and resources. These characteristics were linked with the students' quiz and examination results in histology. Students who reported previous experience in histology or pathology and hold science or biomedical science college degrees usually did well in histology. Learning success in histology was also positively associated with students' perception that histology is important for their professional career. Other positive indicators were in-person participation in teacher-guided learning experiences, specifically lecture and laboratory sessions. In contrast, students who relied on watching histology lectures by video rather than going to lectures in-person performed significantly worse. These characteristics and learning strategies of students who did well in this very visual and challenging study subject should be of help for identifying and advising students early, who might be at risk of failing a histology course or component. © 2014 American Association of Anatomists.

  15. A cross-sectional study of learning styles among continuing medical education participants.

    Science.gov (United States)

    Collins, C Scott; Nanda, Sanjeev; Palmer, Brian A; Mohabbat, Arya B; Schleck, Cathy D; Mandrekar, Jayawant N; Mahapatra, Saswati; Beckman, Thomas J; Wittich, Christopher M

    2018-04-27

    Experiential learning has been suggested as a framework for planning continuing medical education (CME). We aimed to (1) determine participants' learning styles at traditional CME courses and (2) explore associations between learning styles and participant characteristics. Cross-sectional study of all participants (n = 393) at two Mayo Clinic CME courses who completed the Kolb Learning Style Inventory and provided demographic data. A total of 393 participants returned 241 surveys (response rate, 61.3%). Among the 143 participants (36.4%) who supplied complete demographic and Kolb data, Kolb learning styles included diverging (45; 31.5%), assimilating (56; 39.2%), converging (8; 5.6%), and accommodating (34; 23.8%). Associations existed between learning style and gender (p = 0.02). For most men, learning styles were diverging (23 of 63; 36.5%) and assimilating (30 of 63; 47.6%); for most women, diverging (22 of 80; 27.5%), assimilating (26 of 80; 32.5%), and accommodating (26 of 80; 32.5%). Internal medicine and psychiatry CME participants had diverse learning styles. Female participants had more variation in their learning styles than men. Teaching techniques must vary to appeal to all learners. The experiential learning theory sequentially moves a learner from Why? to What? to How? to If? to accommodate learning styles.

  16. E-learning in graduate medical education: survey of residency program directors.

    Science.gov (United States)

    Wittich, Christopher M; Agrawal, Anoop; Cook, David A; Halvorsen, Andrew J; Mandrekar, Jayawant N; Chaudhry, Saima; Dupras, Denise M; Oxentenko, Amy S; Beckman, Thomas J

    2017-07-11

    E-learning-the use of Internet technologies to enhance knowledge and performance-has become a widely accepted instructional approach. Little is known about the current use of e-learning in postgraduate medical education. To determine utilization of e-learning by United States internal medicine residency programs, program director (PD) perceptions of e-learning, and associations between e-learning use and residency program characteristics. We conducted a national survey in collaboration with the Association of Program Directors in Internal Medicine of all United States internal medicine residency programs. Of the 368 PDs, 214 (58.2%) completed the e-learning survey. Use of synchronous e-learning at least sometimes, somewhat often, or very often was reported by 85 (39.7%); 153 programs (71.5%) use asynchronous e-learning at least sometimes, somewhat often, or very often. Most programs (168; 79%) do not have a budget to integrate e-learning. Mean (SD) scores for the PD perceptions of e-learning ranged from 3.01 (0.94) to 3.86 (0.72) on a 5-point scale. The odds of synchronous e-learning use were higher in programs with a budget for its implementation (odds ratio, 3.0 [95% CI, 1.04-8.7]; P = .04). Residency programs could be better resourced to integrate e-learning technologies. Asynchronous e-learning was used more than synchronous, which may be to accommodate busy resident schedules and duty-hour restrictions. PD perceptions of e-learning are relatively moderate and future research should determine whether PD reluctance to adopt e-learning is based on unawareness of the evidence, perceptions that e-learning is expensive, or judgments about value versus effectiveness.

  17. Advancing medical education: connecting interprofessional collaboration and education opportunities with integrative medicine initiatives to build shared learning.

    Science.gov (United States)

    Templeman, Kate; Robinson, Anske; McKenna, Lisa

    2016-12-01

    BackgroundImproved teamwork between conventional and complementary medicine (CM) practitioners is indicated to achieve effective healthcare. However, little is known about interprofessional collaboration and education in the context of integrative medicine (IM). MethodsThis paper reports the findings from a constructivist-grounded theory method study that explored and highlighted Australian medical students' experiences and opportunities for linking interprofessional collaboration and learning in the context of IM. Following ethical approval, in-depth semi-structured interviews were conducted with 30 medical students from 10 medical education faculties across Australian universities. Results Medical students recognised the importance of interprofessional teamwork between general medical practitioners and CM professionals in patient care and described perspectives of shared responsibilities, profession-specific responsibilities, and collaborative approaches within IM. While students identified that limited interprofessional collaboration currently occurred in the medical curriculum, interprofessional education was considered a means of increasing communication and collaboration between healthcare professionals, helping coordinate effective patient care, and understanding each healthcare team members' professional role and value. Conclusions The findings suggest that medical curricula should include opportunities for medical students to develop required skills, behaviours, and attitudes for interprofessional collaboration and interprofessional education within the context of IM. While this is a qualitative study that reflects theoretical saturation from a selected cohort of medical students, the results also point to the importance of including CM professionals within interprofessional collaboration, thus contributing to more person-centred care.

  18. Learnings and challenges to deploy an interprofessional and independent medical education programme to a new audience

    Science.gov (United States)

    Van Driel, Mieke L.; McGuire, Treasure M.; Stark, Richard; Lazure, Patrice; Garcia, Tina; Sullivan, Lisa

    2017-01-01

    ABSTRACT The importance of interprofessional education (IPE) in continuing medical education and professional development has long been recognised by health organisations and academic societies, benefiting not only patient outcomes and interprofessional relationships but also overall health systems and workforce shortage. We report on the outcomes of an Australian IPE activity on medication-overuse headache (MOH) with general practitioners (GPs) and community pharmacists as learners. The design of the activity, which followed the predisposing–enabling–reinforcing instructional framework by Green and Kreuter, aimed to: (1) improve knowledge and foster a willingness in GPs and pharmacists to work collaboratively to enhance the prevention, diagnosis and management of MOH; and (2) address their educational gap by demonstrating the utility of a blended learning IPE strategy on MOH. Integrated into the activity was an assessment of its effectiveness and impact to instil change in the participants’ knowledge of MOH, attitude and willingness to treat, and clinical practice behaviours of GPs and pharmacists to work together. The learners gained knowledge and confidence in diagnosing and managing MOH and in their ability to educate patients. The IPE approach suited the activity and was valued by the participating GPs and pharmacists, who seldom experience such learning formats. However, for educational providers in Australia, developing and deploying an independent medical education (IME) programme can be challenging. Providers of IMEs need to be aware of the potential pitfalls when competing with pharmaceutical-company-sponsored and delivered programmes. PMID:29644141

  19. Protocol for a realist review of workplace learning in postgraduate medical education and training.

    Science.gov (United States)

    Wiese, Anel; Kilty, Caroline; Bergin, Colm; Flood, Patrick; Fu, Na; Horgan, Mary; Higgins, Agnes; Maher, Bridget; O'Kane, Grainne; Prihodova, Lucia; Slattery, Dubhfeasa; Bennett, Deirdre

    2017-01-19

    Postgraduate medical education and training (PGMET) is a complex social process which happens predominantly during the delivery of patient care. The clinical learning environment (CLE), the context for PGMET, shapes the development of the doctors who learn and work within it, ultimately impacting the quality and safety of patient care. Clinical workplaces are complex, dynamic systems in which learning emerges from non-linear interactions within a network of related factors and activities. Those tasked with the design and delivery of postgraduate medical education and training need to understand the relationship between the processes of medical workplace learning and these contextual elements in order to optimise conditions for learning. We propose to conduct a realist synthesis of the literature to address the overarching questions; how, why and in what circumstances do doctors learn in clinical environments? This review is part of a funded projected with the overall aim of producing guidelines and recommendations for the design of high quality clinical learning environments for postgraduate medical education and training. We have chosen realist synthesis as a methodology because of its suitability for researching complexity and producing answers useful to policymakers and practitioners. This realist synthesis will follow the steps and procedures outlined by Wong et al. in the RAMESES Publication Standards for Realist Synthesis and the Realist Synthesis RAMESES Training Materials. The core research team is a multi-disciplinary group of researchers, clinicians and health professions educators. The wider research group includes experts in organisational behaviour and human resources management as well as the key stakeholders; doctors in training, patient representatives and providers of PGMET. This study will draw from the published literature and programme, and substantive, theories of workplace learning, to describe context, mechanism and outcome configurations for

  20. A reflective analysis of medical education research on self-regulation in learning and practice.

    Science.gov (United States)

    Brydges, Ryan; Butler, Deborah

    2012-01-01

    In the health professions we expect practitioners and trainees to engage in self-regulation of their learning and practice. For example, doctors are responsible for diagnosing their own learning needs and pursuing professional development opportunities; medical residents are expected to identify what they do not know when caring for patients and to seek help from supervisors when they need it, and medical school curricula are increasingly called upon to support self-regulation as a central learning outcome. Given the importance of self-regulation in both health professions education and ongoing professional practice, our aim was to generate a snapshot of the state of the science in medical education research in this area. To achieve this goal, we gathered literature focused on self-regulation or self-directed learning undertaken from multiple perspectives. Then, with support from a multi-component theoretical framework, we created an overarching map of the themes addressed thus far and emerging findings. We built from that integrative overview to consider contributions, connections and gaps in research on self-regulation to date. Based on this reflective analysis, we conclude that the medical education community's understanding about self-regulation will continue to advance as we: (i) consider how learning is undertaken within the complex social contexts of clinical training and practice; (ii) think of self-regulation within an integrative perspective that allows us to combine disparate strands of research and to consider self-regulation across the training continuum in medicine, from learning to practice; (iii) attend to the grain size of analysis both thoughtfully and intentionally, and (iv) most essentially, extend our efforts to understand the need for and best practices in support of self-regulation. © Blackwell Publishing Ltd 2012.

  1. Milestones and Millennials: A Perfect Pairing-Competency-Based Medical Education and the Learning Preferences of Generation Y.

    Science.gov (United States)

    Desy, Janeve R; Reed, Darcy A; Wolanskyj, Alexandra P

    2017-02-01

    Millennials are quickly becoming the most prevalent generation of medical learners. These individuals have a unique outlook on education and have different preferences and expectations than their predecessors. As evidenced by its implementation by the Accreditation Council for Graduate Medical Education in the United States and the Royal College of Physicians and Surgeons in Canada, competency based medical education is rapidly gaining international acceptance. Characteristics of competency based medical education can be perfectly paired with Millennial educational needs in several dimensions including educational expectations, the educational process, attention to emotional quotient and professionalism, assessment, feedback, and intended outcomes. We propose that with its attention to transparency, personalized learning, and frequent formative assessment, competency based medical education is an ideal fit for the Millennial generation as it realigns education and assessment with the needs of these 21st century learners. Copyright © 2016 Mayo Foundation for Medical Education and Research. Published by Elsevier Inc. All rights reserved.

  2. [E-Learning--an important contribution to general medical training and continuing education?].

    Science.gov (United States)

    Ruf, D; Berner, M M; Kriston, L; Härter, M

    2008-09-01

    There is increasing activity in the development of e-learning modules for general medical training and continuing education. One of the central advantages of e-learning is flexibility regarding time and place of its use. The quality of the available e-learning opportunities varies quite considerably. For users it is often not easy to assess the quality of e-learning modules or to find offers of high quality. This could be a reason for the fact that despite the huge number of e-learning modules still only few students and physicians are using them. This is although e-learning has proven to be as effective as and even more efficient than learning in the classroom or with paper-based materials. This article summarizes the different models of e-learning, how and where to find offers of high quality, advantages of using e-learning, and the effectiveness and efficiency of such offers. In addition problems of e-learning and possibilities to overcome these problems are shown.

  3. SU-A-BRA-04: Incorporating Active Learning Into Medical Physics Education

    Energy Technology Data Exchange (ETDEWEB)

    Burmeister, J. [Wayne State University School of Medicine, Detroit, MI (United States)

    2016-06-15

    Vic Montemayor - No one has been more passionate about improving the quality and effectiveness of the teaching of Medical Physics than Bill Hendee. It was in August of 2008 that the first AAPM Workshop on Becoming a Better Teacher of Medical Physics was held, organized and run by Bill Hendee. This was followed up in July of 2010 with a summer school on the same topic, again organized by Bill. There has been continued interest in alternate approaches to teaching medical physics since those initial gatherings. The momentum established by these workshops is made clear each year in the annual Innovation in Medical Physics Education session, which highlights work being done in all forms of medical physics education, from one-on-one residencies or classroom presentations to large-scale program revisions and on-line resources for international audiences. This symposium, presented on behalf of the Education Council, highlights the work of three finalists from past Innovation in Education sessions. Each will be presenting their approaches to and innovations in teaching medical physics. It is hoped that audience members interested in trying something new in their teaching of medical physics will find some of these ideas and approaches readily applicable to their own classrooms. Rebecca Howell - The presentation will discuss ways to maximize classroom learning, i.e., increasing the amount of material covered while also enhancing students’ understanding of the broader implications of the course topics. Specifically, the presentation will focus on two teaching methodologies, project based learning and flip learning. These teaching methods will be illustrated using an example of graduate medical physics course where both are used in conjunction with traditional lectures. Additionally, the presentation will focus on our experience implementing these methods including challenges that were overcome. Jay Burmeister - My presentation will discuss the incorporation of active

  4. SU-A-BRA-04: Incorporating Active Learning Into Medical Physics Education

    International Nuclear Information System (INIS)

    Burmeister, J.

    2016-01-01

    Vic Montemayor - No one has been more passionate about improving the quality and effectiveness of the teaching of Medical Physics than Bill Hendee. It was in August of 2008 that the first AAPM Workshop on Becoming a Better Teacher of Medical Physics was held, organized and run by Bill Hendee. This was followed up in July of 2010 with a summer school on the same topic, again organized by Bill. There has been continued interest in alternate approaches to teaching medical physics since those initial gatherings. The momentum established by these workshops is made clear each year in the annual Innovation in Medical Physics Education session, which highlights work being done in all forms of medical physics education, from one-on-one residencies or classroom presentations to large-scale program revisions and on-line resources for international audiences. This symposium, presented on behalf of the Education Council, highlights the work of three finalists from past Innovation in Education sessions. Each will be presenting their approaches to and innovations in teaching medical physics. It is hoped that audience members interested in trying something new in their teaching of medical physics will find some of these ideas and approaches readily applicable to their own classrooms. Rebecca Howell - The presentation will discuss ways to maximize classroom learning, i.e., increasing the amount of material covered while also enhancing students’ understanding of the broader implications of the course topics. Specifically, the presentation will focus on two teaching methodologies, project based learning and flip learning. These teaching methods will be illustrated using an example of graduate medical physics course where both are used in conjunction with traditional lectures. Additionally, the presentation will focus on our experience implementing these methods including challenges that were overcome. Jay Burmeister - My presentation will discuss the incorporation of active

  5. Medication calculation: the potential role of digital game-based learning in nurse education.

    Science.gov (United States)

    Foss, Brynjar; Mordt Ba, Petter; Oftedal, Bjørg F; Løkken, Atle

    2013-12-01

    Medication dose calculation is one of several medication-related activities that are conducted by nurses daily. However, medication calculation skills appear to be an area of global concern, possibly because of low numeracy skills, test anxiety, low self-confidence, and low self-efficacy among student nurses. Various didactic strategies have been developed for student nurses who still lack basic mathematical competence. However, we suggest that the critical nature of these skills demands the investigation of alternative and/or supplementary didactic approaches to improve medication calculation skills and to reduce failure rates. Digital game-based learning is a possible solution because of the following reasons. First, mathematical drills may improve medication calculation skills. Second, games are known to be useful during nursing education. Finally, mathematical drill games appear to improve the attitudes of students toward mathematics. The aim of this article was to discuss common challenges of medication calculation skills in nurse education, and we highlight the potential role of digital game-based learning in this area.

  6. Problem based learning in medical education: theory, rationale, process and implications for pakistan.

    Science.gov (United States)

    Baig, Lubna A

    2006-09-01

    Historically, lectures were the medium to transfer cognitive information to the learners in medical education. Apprenticeship training, labs, bedside teaching, tutorials etc. were used to impart psychomotor and affective skills. It was assumed that the learner will assimilate all this knowledge and will be competent to apply this learning in practical life. Problem-based learning (PBL) emerged due to problems in building the appropriate competencies in the medical graduates and is a relatively newer mode of transfer of knowledge. This paper will deal with problem-based learning which took the world with storm in the 80's and most institutions in the world started using different variants of PBL. This paper attempts to define and explore the theoretical basis and historical background of PBL. The paper will systematically review literature and argue about the advantages and disadvantages of PBL and the implications of its implementation in Pakistan.

  7. A systems approach to implementation of eLearning in medical education: five MEPI schools' journeys.

    Science.gov (United States)

    Vovides, Yianna; Chale, Selamawit Bedada; Gadhula, Rumbidzayi; Kebaetse, Masego B; Nigussie, Netsanet Animut; Suleman, Fatima; Tibyampansha, Dativa; Ibrahim, Glory Ramadhan; Ntabaye, Moshi; Frehywot, Seble; Nkomazana, Oathokwa

    2014-08-01

    How should eLearning be implemented in resource-constrained settings? The introduction of eLearning at four African medical schools and one school of pharmacy, all part of the Medical Education Partnership Initiative (MEPI) eLearning Technical Working Group, highlighted the need for five factors essential for successful and sustainable implementation: institutional support; faculty engagement; student engagement; technical expertise; and infrastructure and support systems. All five MEPI schools reported strengthening technical expertise, infrastructure, and support systems; four schools indicated that they were also successful in developing student engagement; and three reported making good progress in building institutional support. Faculty engagement was the one core component that all five schools needed to enhance.

  8. Developing eLearning Technologies to Implement Competency Based Medical Education: Experiences from Muhimbili University of Health and Allied Sciences

    Science.gov (United States)

    Nagunwa, Thomas; Lwoga, Edda

    2012-01-01

    This paper provides the practical experience of developing an eLearning technology as a tool to implement Competency-based Medical Education (CBME) in Tanzania medical universities, with a specific focus on Muhimbili University of Health and Allied Sciences. The paper provides a background to eLearning and the early attempt to adopt it in 2006 at…

  9. Third year medical students perceptions towards learning communication skills: implications for medical education.

    Science.gov (United States)

    Loureiro, Elizabete; Severo, Milton; Bettencourt, Paulo; Ferreira, Maria Amélia

    2011-12-01

    To analyze students' perceptions towards learning communication skills pre-and-post training in a Communication and Clinical Skills Course (CCSC) at a Portuguese Medical School. Content analysis was used to describe and systematically analyze the content written by students (n=215 from a total of 229) in an open-ended survey. In addition, content analysis association rules were used to identify meaning units. Students' pre-training definitions of communication skills were not specific; their post-training definitions were more precise and elaborated. Students perceived communications skills in Medicine as important (61%), but recommended that teaching methodologies (52%) be restructured. There appeared to be no connection between criticism of teaching skills performance and perceptions of the other aspects of the course. Students' experiences at CCSC are associated with their perceptions of communications skills learning. Content analysis associations indicated that these perceptions are influenced by context. Improvement of curricula, teaching and assessment methods, and investment in faculty development are likely to foster positive perceptions towards learning communication skills in these students. Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.

  10. Mobile Mixed Reality for Experiential Learning and Simulation in Medical and Health Sciences Education

    Directory of Open Access Journals (Sweden)

    James Birt

    2018-01-01

    Full Text Available New accessible learning methods delivered through mobile mixed reality are becoming possible in education, shifting pedagogy from the use of two dimensional images and videos to facilitating learning via interactive mobile environments. This is especially important in medical and health education, where the required knowledge acquisition is typically much more experiential, self-directed, and hands-on than in many other disciplines. Presented are insights obtained from the implementation and testing of two mobile mixed reality interventions across two Australian higher education classrooms in medicine and health sciences, concentrating on student perceptions of mobile mixed reality for learning physiology and anatomy in a face-to-face medical and health science classroom and skills acquisition in airways management focusing on direct laryngoscopy with foreign body removal in a distance paramedic science classroom. This is unique because most studies focus on a single discipline, focusing on either skills or the learner experience and a single delivery modality rather than linking cross-discipline knowledge acquisition and the development of a student’s tangible skills across multimodal classrooms. Outcomes are presented from post-intervention student interviews and discipline academic observation, which highlight improvements in learner motivation and skills, but also demonstrated pedagogical challenges to overcome with mobile mixed reality learning.

  11. A Comparison Of Internet-Based Learning And Traditional Classroom Lecture To Learn Cpr For Continuing Medical Education

    OpenAIRE

    HEMMATI, Nima; OMRANI, Soghra; HEMMATI, Naser

    2013-01-01

    The purpose of this study was to compare the satisfaction and effectiveness of Internet-based learning (IBL) and traditional classroom lecture (TCL) for continuing medical education (CME) programs by comparing final resuscitation exam results of physicians who received the newest cardiopulmonary resuscitation (CPR) curriculum guidelines training either by traditional or by an Internet-based CME. A randomized two-group pretest-posttest quasi-experimental design was used. Postgraduate general ...

  12. Medical education teaching resources.

    Science.gov (United States)

    Jibson, Michael D; Seyfried, Lisa S; Gay, Tamara L

    2014-02-01

    Numerous monographs on psychiatry education have appeared without a review specifically intended to assist psychiatry faculty and trainees in the selection of appropriate volumes for study and reference. The authors prepared this annotated bibliography to fill that gap. The authors identified titles from web-based searches of the topics "academic psychiatry," "psychiatry education," and "medical education," followed by additional searches of the same topics on the websites of major publishers. Forty-nine titles referring to psychiatry education specifically and medical education generally were identified. The authors selected works that were published within the last 10 years and remain in print and that met at least one of the following criteria: (1) written specifically about psychiatry or for psychiatric educators; (2) of especially high quality in scholarship, writing, topic selection and coverage, and pertinence to academic psychiatry; (3) covering a learning modality deemed by the authors to be of particular interest for psychiatry education. The authors reviewed 19 books pertinent to the processes of medical student and residency education, faculty career development, and education administration. These included 11 books on medical education in general, 4 books that focus more narrowly on the field of psychiatry, and 4 books addressing specific learning modalities of potential utility in the mental health professions. Most of the selected works proved to be outstanding contributions to the medical education literature.

  13. Basic practical skills teaching and learning in undergraduate medical education - a review on methodological evidence.

    Science.gov (United States)

    Vogel, Daniela; Harendza, Sigrid

    2016-01-01

    Practical skills are an essential part of physicians' daily routine. Nevertheless, medical graduates' performance of basic skills is often below the expected level. This review aims to identify and summarize teaching approaches of basic practical skills in undergraduate medical education which provide evidence with respect to effective students' learning of these skills. Basic practical skills were defined as basic physical examination skills, routine skills which get better with practice, and skills which are also performed by nurses. We searched PubMed with different terms describing these basic practical skills. In total, 3467 identified publications were screened and 205 articles were eventually reviewed for eligibility. 43 studies that included at least one basic practical skill, a comparison of two groups of undergraduate medical students and effects on students' performance were analyzed. Seven basic practical skills and 15 different teaching methods could be identified. The most consistent results with respect to effective teaching and acquisition of basic practical skills were found for structured skills training, feedback, and self-directed learning. Simulation was effective with specific teaching methods and in several studies no differences in teaching effects were detected between expert or peer instructors. Multimedia instruction, when used in the right setting, also showed beneficial effects for basic practical skills learning. A combination of voluntary or obligatory self-study with multimedia applications like video clips in combination with a structured program including the possibility for individual exercise with personal feedback by peers or teachers might provide a good learning opportunity for basic practical skills.

  14. The educational effects of mobile learning on students of medical sciences: A systematic review in experimental studies.

    Science.gov (United States)

    Koohestani, Hamid Reza; Soltani Arabshahi, Seyed Kamran; Fata, Ladan; Ahmadi, Fazlollah

    2018-04-01

    The demand for mobile learning in the medical science educational program is increasing. The present review study gathers evidence highlighted by the experimental studies on the educational effects of mobile learning for medical science students. The study was carried out as a systematic literature search published from 2007 to July 2017 in the databases PubMed/Medline, Cumulative Index to Nursing and Allied Health Literature (CINAHL), Web of Knowledge (Thomson Reuters) , Educational Resources and Information Center (ERIC), EMBASE (Elsevier), Cochrane library, PsycINFO and Google Scholar. To examine quality of the articles, a tool validated by the BEME Review was employed. Totally, 21 papers entered the study. Three main themes emerged from the content of papers: (1) improvement in student clinical competency and confidence, (2) acquisition and enhancing of students' theoretical knowledge, and (3) students' positive attitudes to and perception of mobile learning. Level 2B of Kirkpatrick hierarchy had been examined by all the papers and seven of them had reported two or more outcome levels, but level 4 was not reported in the papers. Our review showed that the students of medical sciences had positive response and attitudes to mobile learning. Moreover, implementation of mobile learning in medical sciences program might lead to valuable educational benefits and improve clinical competence and confidence along with theoretical knowledge, attitudes, and perception of mobile learning. The results indicated that mobile learning strategy in medical education can positively affect learning in all three domains of Bloom's Taxonomy.

  15. iCBLS: An interactive case-based learning system for medical education.

    Science.gov (United States)

    Ali, Maqbool; Han, Soyeon Caren; Bilal, Hafiz Syed Muhammad; Lee, Sungyoung; Kang, Matthew Jee Yun; Kang, Byeong Ho; Razzaq, Muhammad Asif; Amin, Muhammad Bilal

    2018-01-01

    Medical students should be able to actively apply clinical reasoning skills to further their interpretative, diagnostic, and treatment skills in a non-obtrusive and scalable way. Case-Based Learning (CBL) approach has been receiving attention in medical education as it is a student-centered teaching methodology that exposes students to real-world scenarios that need to be solved using their reasoning skills and existing theoretical knowledge. In this paper, we propose an interactive CBL System, called iCBLS, which supports the development of collaborative clinical reasoning skills for medical students in an online environment. The iCBLS consists of three modules: (i) system administration (SA), (ii) clinical case creation (CCC) with an innovative semi-automatic approach, and (iii) case formulation (CF) through intervention of medical students' and teachers' knowledge. Two evaluations under the umbrella of the context/input/process/product (CIPP) model have been performed with a Glycemia study. The first focused on the system satisfaction, evaluated by 54 students. The latter aimed to evaluate the system effectiveness, simulated by 155 students. The results show a high success rate of 70% for students' interaction, 76.4% for group learning, 72.8% for solo learning, and 74.6% for improved clinical skills. Copyright © 2017 Elsevier B.V. All rights reserved.

  16. Game-based versus traditional case-based learning: comparing effectiveness in stroke continuing medical education.

    Science.gov (United States)

    Telner, Deanna; Bujas-Bobanovic, Maja; Chan, David; Chester, Bob; Marlow, Bernard; Meuser, James; Rothman, Arthur; Harvey, Bart

    2010-09-01

    To evaluate family physicians' enjoyment of and knowledge gained from game-based learning, compared with traditional case-based learning, in a continuing medical education (CME) event on stroke prevention and management. An equivalence trial to determine if game-based learning was as effective as case-based learning in terms of attained knowledge levels. Game questions and small group cases were developed. Participants were randomized to either a game-based or a case-based group and took part in the event. Ontario provincial family medicine conference. Thirty-two family physicians and 3 senior family medicine residents attending the conference. Participation in either a game-based or a case-based CME learning group. Scores on 40-item immediate and 3-month posttests of knowledge and a satisfaction survey. Results from knowledge testing immediately after the event and 3 months later showed no significant difference in scoring between groups. Participants in the game-based group reported higher levels of satisfaction with the learning experience. Games provide a novel way of organizing CME events. They might provide more group interaction and discussion, as well as improve recruitment to CME events. They might also provide a forum for interdisciplinary CME. Using games in future CME events appears to be a promising approach to facilitate participant learning.

  17. Can Hybrid Educational Activities of Team and Problem Based Learning Program be Effective for Japanese Medical Students?

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    Iwata, Kentaro; Doi, Asako

    2017-11-10

    The purpose of this study is to investigate the medical students'perceptions of the Hybrid Educational Activities between team based learning (TBL) and problem based learning (PBL) Program (HEATAPP), a novel educational program that combines characteristics of PBL and TBL. A five-day HEATAPP on infectious diseases was provided to 4th year medical students at Kobe University School of Medicine, Kobe, Japan. After the program, a focus group discussion was held among 6 medical students who participated in HEATAPP. We qualitatively analyzed the recorded data to delineate the effectiveness of, and the perceptions on, HEATAPP. Some students considered HEATAPP being effective as an active learning, and in developing questions. However, some students found active learning difficult to execute, since they were so familiar with passive learning such as lectures and examinations. They also found it difficult to identify important points by reading authentic textbooks on given issues, particularly English textbooks. Even though active learning and group discussion are underscored as important in medicine, some Japanese medical students may be reluctant to shift towards these since they are so used to passive learning since childhood. English language is another barrier to active learning. The introduction of active learning in the earlier stages of education might be an effective solution. Teachers at medical schools in Japan should be mindful of the students'potentially negative attitudes towards active learning, which is claimed to be successful in western countries.

  18. Don't forget the learner: an essential aspect for developing effective hypermedia online learning in continuing medical education.

    Science.gov (United States)

    Sandars, John; Homer, Matthew; Walsh, Kieran; Rutherford, Alaster

    2012-03-01

    There is increasing use of hypermedia online learning in continuing medical education (CME) that presents the learner with a wide range of different learning resources, requiring the learner to use self-regulated learning (SRL) skills. This study is the first to apply an SRL perspective to understand how learners engage with hypermedia online learning in CME. We found that the main SRL skills used by learners were use of strategies and monitoring. The increasing use of strategies was associated with increasing interest in the topic and with increasing satisfaction with the learning experience. Further research is recommended to understand SRL processes and its impact on learning in other aspects of hypermedia online learning across the different phases of medical education. Research is also recommended to implement and evaluate the learning impact of a variety of approaches to develop the SRL skills of hypermedia online learners in CME.

  19. Educational technology in medical education.

    Science.gov (United States)

    Han, Heeyoung; Resch, David S; Kovach, Regina A

    2013-01-01

    This article aims to review the past practices of educational technology and envision future directions for medical education. The discussion starts with a historical review of definitions and perspectives of educational technology, in which the authors propose that educators adopt a broader process-oriented understanding of educational technology. Future directions of e-learning, simulation, and health information technology are discussed based on a systems view of the technological process. As new technologies continue to arise, this process-oriented understanding and outcome-based expectations of educational technology should be embraced. With this view, educational technology should be valued in terms of how well the technological process informs and facilitates learning, and the acquisition and maintenance of clinical expertise.

  20. Measuring strategies for learning regulation in medical education: scale reliability and dimensionality in a Swedish sample.

    Science.gov (United States)

    Edelbring, Samuel

    2012-08-15

    The degree of learners' self-regulated learning and dependence on external regulation influence learning processes in higher education. These regulation strategies are commonly measured by questionnaires developed in other settings than in which they are being used, thereby requiring renewed validation. The aim of this study was to psychometrically evaluate the learning regulation strategy scales from the Inventory of Learning Styles with Swedish medical students (N = 206). The regulation scales were evaluated regarding their reliability, scale dimensionality and interrelations. The primary evaluation focused on dimensionality and was performed with Mokken scale analysis. To assist future scale refinement, additional item analysis, such as item-to-scale correlations, was performed. Scale scores in the Swedish sample displayed good reliability in relation to published results: Cronbach's alpha: 0.82, 0.72, and 0.65 for self-regulation, external regulation and lack of regulation scales respectively. The dimensionalities in scales were adequate for self-regulation and its subscales, whereas external regulation and lack of regulation displayed less unidimensionality. The established theoretical scales were largely replicated in the exploratory analysis. The item analysis identified two items that contributed little to their respective scales. The results indicate that these scales have an adequate capacity for detecting the three theoretically proposed learning regulation strategies in the medical education sample. Further construct validity should be sought by interpreting scale scores in relation to specific learning activities. Using established scales for measuring students' regulation strategies enables a broad empirical base for increasing knowledge on regulation strategies in relation to different disciplinary settings and contributes to theoretical development.

  1. Measuring strategies for learning regulation in medical education: Scale reliability and dimensionality in a Swedish sample

    Directory of Open Access Journals (Sweden)

    Edelbring Samuel

    2012-08-01

    Full Text Available Abstract Background The degree of learners’ self-regulated learning and dependence on external regulation influence learning processes in higher education. These regulation strategies are commonly measured by questionnaires developed in other settings than in which they are being used, thereby requiring renewed validation. The aim of this study was to psychometrically evaluate the learning regulation strategy scales from the Inventory of Learning Styles with Swedish medical students (N = 206. Methods The regulation scales were evaluated regarding their reliability, scale dimensionality and interrelations. The primary evaluation focused on dimensionality and was performed with Mokken scale analysis. To assist future scale refinement, additional item analysis, such as item-to-scale correlations, was performed. Results Scale scores in the Swedish sample displayed good reliability in relation to published results: Cronbach’s alpha: 0.82, 0.72, and 0.65 for self-regulation, external regulation and lack of regulation scales respectively. The dimensionalities in scales were adequate for self-regulation and its subscales, whereas external regulation and lack of regulation displayed less unidimensionality. The established theoretical scales were largely replicated in the exploratory analysis. The item analysis identified two items that contributed little to their respective scales. Discussion The results indicate that these scales have an adequate capacity for detecting the three theoretically proposed learning regulation strategies in the medical education sample. Further construct validity should be sought by interpreting scale scores in relation to specific learning activities. Using established scales for measuring students’ regulation strategies enables a broad empirical base for increasing knowledge on regulation strategies in relation to different disciplinary settings and contributes to theoretical development.

  2. Ethical experiential learning in medical, nursing and allied health education: A narrative review.

    Science.gov (United States)

    Grace, Sandra; Innes, Ev; Patton, Narelle; Stockhausen, Lynette

    2017-04-01

    Students enrolled in medical, nursing and health science programs often participate in experiential learning in their practical classes. Experiential learning includes peer physical examination and peer-assisted learning where students practise clinical skills on each other. To identify effective strategies that enable ethical experiential learning for health students during practical classes. A narrative review of the literature. Pubmed, Cinahl and Scopus databases were searched because they include most of the health education journals where relevant articles would be published. A data extraction framework was developed to extract information from the included papers. Data were entered into a fillable form in Google Docs. Findings from identified studies were extracted to a series of tables (e.g. strategies for fostering ethical conduct; facilitators and barriers to peer-assisted learning). Themes were identified from these findings through a process of line by line coding and organisation of codes into descriptive themes using a constant comparative method. Finally understandings and hypotheses of relevance to our research question were generated from the descriptive themes. A total of 35 articles were retrieved that met the inclusion criteria. A total of 13 strategies for ethical experiential learning were identified and one evaluation was reported. The most frequently reported strategies were gaining written informed consent from students, providing information about the benefits of experiential learning and what to expect in practical classes, and facilitating discussions in class about potential issues. Contexts that facilitated participation in experiential learning included allowing students to choose their own groups, making participation voluntary, and providing adequate supervision, feedback and encouragement. A total of 13 strategies for ethical experiential learning were identified in the literature. A formal process for written consent was evaluated

  3. APA Summit on Medical Student Education Task Force on Informatics and Technology: learning about computers and applying computer technology to education and practice.

    Science.gov (United States)

    Hilty, Donald M; Hales, Deborah J; Briscoe, Greg; Benjamin, Sheldon; Boland, Robert J; Luo, John S; Chan, Carlyle H; Kennedy, Robert S; Karlinsky, Harry; Gordon, Daniel B; Yager, Joel; Yellowlees, Peter M

    2006-01-01

    This article provides a brief overview of important issues for educators regarding medical education and technology. The literature describes key concepts, prototypical technology tools, and model programs. A work group of psychiatric educators was convened three times by phone conference to discuss the literature. Findings were presented to and input was received from the 2005 Summit on Medical Student Education by APA and the American Directors of Medical Student Education in Psychiatry. Knowledge of, skills in, and attitudes toward medical informatics are important to life-long learning and modern medical practice. A needs assessment is a starting place, since student, faculty, institution, and societal factors bear consideration. Technology needs to "fit" into a curriculum in order to facilitate learning and teaching. Learning about computers and applying computer technology to education and clinical care are key steps in computer literacy for physicians.

  4. Learning medical English: A prerequisite for successful academic and professional education

    Directory of Open Access Journals (Sweden)

    Milosavljević Nataša

    2015-01-01

    Full Text Available The aim of this paper is to present specificities of the English language teaching necessary for successful education and professional training of medical students. In contemporary globalized world the English language has become the basic language of communication in all scientific fields including the field of medical science. It is well established that Medical English teaching should primarily focus on stable linguistic competence in English that is created by means of content and context based curriculum, thus preparing students for active use of English upon graduation. In order to achieve this it is very important that English language teaching be based on specific real situations in which the language is to be used. In addition, students should be encouraged to adapt practical skills applicable in specific future professional setting. Medical English teaching represents constant challenge for teachers because they need to be flexible, open to new approaches and methods, make decisions and adapt themselves to constant changes. In addition, long-term learning is at the core of higher education, and being equal partners, both students and teachers should be aware that education is a two-way process.

  5. The Haiti Medical Education Project: development and analysis of a competency based continuing medical education course in Haiti through distance learning.

    Science.gov (United States)

    Battat, Robert; Jhonson, Marc; Wiseblatt, Lorne; Renard, Cruff; Habib, Laura; Normil, Manouchka; Remillard, Brian; Brewer, Timothy F; Sacajiu, Galit

    2016-10-19

    Recent calls for reform in healthcare training emphasize using competency-based curricula and information technology-empowered learning. Continuing Medical Education programs are essential in maintaining physician accreditation. Haitian physicians have expressed a lack access to these activities. The Haiti Medical Education Project works in alliance with Haitian medical leadership, faculty and students to support the Country's medical education system. We present the creation, delivery and evaluation of a competency-based continuing medical education curriculum for physicians in rural Haiti. Real time lectures from local and international institutions were teleconferenced to physicians in remote Haitian sites using VidyoConferencing™ technology. With American Academy of Family Physicians (AAFP) and College of Family Physicians Canada (CFPC) guidelines as references, a competency-derived syllabus was created for a Haitian continuing medical education program. The resulting educational goals were reviewed by a committee of Haitian and North American physician/medical education practitioners to reflect local needs. All authors reviewed lectures and then conferred to establish agreement on competencies presented for each lecture. Sixty-seven lectures were delivered. Human immunodeficiency virus/Acquired Immunodeficiency Syndrome, ophthalmologic, infectious diseases, renal and endocrine competencies were well-represented, with more than 50 % of the joint AAFP and CFPC recommended competencies outlined. Areas under-represented included allergy and immunology, cardiology, surgery, pain management, gastroenterology, neurology, pulmonology, men's health and rheumatology; these topics accounted for less than 25 % of AAFP/CFPC recommended competencies. Areas not covered included geriatrics, nutrition, occupational health and women's health. Within practice-based lectures, only disaster medicine, health promotion and information management were included, but only partially

  6. Serious games and blended learning; effects on performance and motivation in medical education.

    Science.gov (United States)

    Dankbaar, Mary

    2017-02-01

    More efficient, flexible training models are needed in medical education. Information technology offers the tools to design and develop effective and more efficient training. The aims of this thesis were: 1) Compare the effectiveness of blended versus classroom training for the acquisition of knowledge; 2) Investigate the effectiveness and critical design features of serious games for performance improvement and motivation. Five empirical studies were conducted to answer the research questions and a descriptive study on an evaluation framework to assess serious games was performed. The results of the research studies indicated that: 1) For knowledge acquisition, blended learning is equally effective and attractive for learners as classroom learning; 2) A serious game with realistic, interactive cases improved complex cognitive skills for residents, with limited self-study time. Although the same game was motivating for inexperienced medical students and stimulated them to study longer, it did not improve their cognitive skills, compared with what they learned from an instructional e‑module. This indicates an 'expertise reversal effect', where a rich learning environment is effective for experts, but may be contra-productive for novices (interaction of prior knowledge and complexity of format). A blended design is equally effective and attractive as classroom training. Blended learning facilitates adaptation to the learners' knowledge level, flexibility in time and scalability of learning. Games may support skills learning, provided task complexity matches the learner's competency level. More design-based research is needed on the effects of task complexity and other design features on performance improvement, for both novices and experts.

  7. How learning analytics can early predict under-achieving students in a blended medical education course.

    Science.gov (United States)

    Saqr, Mohammed; Fors, Uno; Tedre, Matti

    2017-07-01

    Learning analytics (LA) is an emerging discipline that aims at analyzing students' online data in order to improve the learning process and optimize learning environments. It has yet un-explored potential in the field of medical education, which can be particularly helpful in the early prediction and identification of under-achieving students. The aim of this study was to identify quantitative markers collected from students' online activities that may correlate with students' final performance and to investigate the possibility of predicting the potential risk of a student failing or dropping out of a course. This study included 133 students enrolled in a blended medical course where they were free to use the learning management system at their will. We extracted their online activity data using database queries and Moodle plugins. Data included logins, views, forums, time, formative assessment, and communications at different points of time. Five engagement indicators were also calculated which would reflect self-regulation and engagement. Students who scored below 5% over the passing mark were considered to be potentially at risk of under-achieving. At the end of the course, we were able to predict the final grade with 63.5% accuracy, and identify 53.9% of at-risk students. Using a binary logistic model improved prediction to 80.8%. Using data recorded until the mid-course, prediction accuracy was 42.3%. The most important predictors were factors reflecting engagement of the students and the consistency of using the online resources. The analysis of students' online activities in a blended medical education course by means of LA techniques can help early predict underachieving students, and can be used as an early warning sign for timely intervention.

  8. Experience of Problem-Based Learning in Nursing Education at Kaohsiung Medical University

    Directory of Open Access Journals (Sweden)

    Fan-Hao Chou

    2009-05-01

    Full Text Available Nursing education must keep up with the rapidly changing medical landscape to support the competences of nurses in the areas of critical thinking, problem solving, and creativity. Problem-based learning (PBL provides an appropriate strategy for nursing education innovation. Nursing curricula based on PBL remain in the growing stage in Taiwan. Kaohsiung Medical University introduced PBL into nursing education in 2002. The critical events in the process included: (1 nurturing key tutors; (2 using PBL teaching methods in an elective course—Oncology Nursing, and designing a new elective course—Symposiums Regarding Clinical Cases; (3 holding conferences inside and outside the school to promote PBL teaching methods; (4 linking e-learning and PBL teaching methods; (5 conducting PBL research; (6 establishing a committee of PBL, objective structured clinical examination, and teaching material review for the College of Nursing; and (7 setting up a required course—Nursing Ethics. We now have 12 key tutors in the College of Nursing. We have also completed two studies to evaluate the ability of students and to explore the experience of tutors. From our studies, we know that PBL can increase learner abilities in self-directed learning, critical thinking, and PBL performance. The approach helps students to cope with the changing medical landscape. Furthermore, tutors and teachers develop adequate PBL teaching skills. Based on the experience above, we believe that we are on the right path in terms of continuing tutor development, gradually increasing the number of PBL courses, and undertaking further research to promote PBL methods in Taiwan.

  9. Generic skills in medical education: developing the tools for successful lifelong learning.

    Science.gov (United States)

    Murdoch-Eaton, Deborah; Whittle, Sue

    2012-01-01

    Higher education has invested in defining the role of generic skills in developing effective, adaptable graduates fit for a changing workplace. Research confirms that the development of generic skills that underpin effectiveness and adaptability in graduates is highly context-dependent and is shaped by the discipline within which these skills are conceptualised, valued and taught. This places the responsibility for generic skills enhancement clearly within the remit of global medical education. Many factors will influence the skill set with which students begin their medical training and experience at entry needs to be taken into account. Learning and teaching environments enhance effective skill development through active learning, teaching for understanding, feedback, and teacher-student and student-student interaction. Medical curricula need to provide students with opportunities to practise and develop their generic skills in a range of discipline-specific contexts. Curricular design should include explicit and integrated generic skills objectives against which students' progress can be monitored. Assessment and feedback serve as valuable reinforcements of the professed importance of generic skills to both learner and teacher, and will encourage students to self-evaluate and take responsibility for their own skill development. The continual need for students to modify their practice in response to changes in their environment and the requirements of their roles will help students to develop the ability to transfer these skills at transition points in their training and future careers. If they are to take their place in an ever-changing profession, medical students need to be competent in the skills that underpin lifelong learning. Only then will the doctors of the future be well placed to adapt to changes in knowledge, update their practice in line with the changing evidence base, and continue to contribute effectively as societal needs change. © Blackwell

  10. Mining reflective continuing medical education data for family physician learning needs.

    Science.gov (United States)

    Lewis, Denice Colleen; Pluye, Pierre; Rodriguez, Charo; Grad, Roland

    2016-04-06

    A mixed methods research (sequential explanatory design) studied the potential of mining the data from the consumers of continuing medical education (CME) programs, for the developers of CME programs. The quantitative data generated by family physicians, through applying the information assessment method to CME content, was presented to key informants from the CME planning community through a qualitative description study.The data were revealed to have many potential applications including supporting the creation of CME content, CME program planning and personal learning portfolios.

  11. Can Learning Style Predict Student Satisfaction with Different Instruction Methods and Academic Achievement in Medical Education?

    Science.gov (United States)

    Gurpinar, Erol; Alimoglu, Mustafa Kemal; Mamakli, Sumer; Aktekin, Mehmet

    2010-01-01

    The curriculum of our medical school has a hybrid structure including both traditional training (lectures) and problem-based learning (PBL) applications. The purpose of this study was to determine the learning styles of our medical students and investigate the relation of learning styles with each of satisfaction with different instruction methods…

  12. eLearning: a review of Internet-based continuing medical education.

    Science.gov (United States)

    Wutoh, Rita; Boren, Suzanne Austin; Balas, E Andrew

    2004-01-01

    The objective was to review the effect of Internet-based continuing medical education (CME) interventions on physician performance and health care outcomes. Data sources included searches of MEDLINE (1966 to January 2004), CINAHL (1982 to December 2003), ACP Journal Club (1991 to July/August 2003), and the Cochrane Database of Systematic Reviews (third quarter, 2003). Studies were included in the analyses if they were randomized controlled trials of Internet-based education in which participants were practicing health care professionals or health professionals in training. CME interventions were categorized according to the nature of the intervention, sample size, and other information about educational content and format. Sixteen studies met the eligibility criteria. Six studies generated positive changes in participant knowledge over traditional formats; only three studies showed a positive change in practices. The remainder of the studies showed no difference in knowledge levels between Internet-based interventions and traditional formats for CME. The results demonstrate that Internet-based CME programs are just as effective in imparting knowledge as traditional formats of CME. Little is known as to whether these positive changes in knowledge are translated into changes in practice. Subjective reports of change in physician behavior should be confirmed through chart review or other objective measures. Additional studies need to be performed to assess how long these new learned behaviors could be sustained. eLearning will continue to evolve as new innovations and more interactive modes are incorporated into learning.

  13. A national stakeholder consensus study of challenges and priorities for clinical learning environments in postgraduate medical education

    NARCIS (Netherlands)

    Kilty, Caroline; Wiese, Anel; Bergin, Colm; Flood, Patrick; Fu, Na; Horgan, Mary; Higgins, Agnes; Maher, Bridget; O’Kane, Grainne; Prihodova, Lucia; Slattery, Dubhfeasa; Stoyanov, Slavi; Bennett, Deirdre

    2018-01-01

    Background: High quality clinical learning environments (CLE) are critical to postgraduate medical education (PGME). The understaffed and overcrowded environments in which many residents work present a significant challenge to learning. The purpose of this study was to develop a national expert

  14. Collaborative diagramming during problem based learning in medical education: Do computerized diagrams support basic science knowledge construction?

    NARCIS (Netherlands)

    de Leng, Bas; Gijlers, Aaltje H.

    2015-01-01

    Aim: To examine how collaborative diagramming affects discussion and knowledge construction when learning complex basic science topics in medical education, including its effectiveness in the reformulation phase of problem-based learning. Methods: Opinions and perceptions of students (n = 70) and

  15. Supporting Accomplished Facilitation: Examining the Use of Sppreciative Inquiry to Inform the Development of Learning Resources for Medical Educators

    Science.gov (United States)

    McIntosh, Paul; Freeth, Della; Berridge, Emma Jane

    2013-01-01

    This paper examines the use of appreciative inquiry (AI) to guide development of web-based learning resources for medical educators who facilitate simulation-based learning experiences for doctors-in-training. AI can be viewed as a positive form of action research, which seeks to avoid deficit-based analyses and solutions, and commonly associated…

  16. The effectiveness of e-learning in pediatric medical student education

    Directory of Open Access Journals (Sweden)

    Rima Khasawneh

    2016-02-01

    Full Text Available Background: Electronic learning allows individualized education and may improve student performance. This study assessed the impact of e-modules about infection control and congenital infections on medical knowledge. Methods: A descriptive study was conducted involving third-year medical students on pediatric clerkship. e-Module content in three different formats was developed: a text monograph, a PowerPoint presentation, and a narrated PowerPoint lecture. Students’ use of the e-modules was tracked, as was participation in the infectious disease rotation and the order of pediatric rotation. Pre- and posttests specific to the e-module content and National Board of Medical Examiners (NBME pediatric exam scores were recorded. Results: Among 67 participants, 63% of them visited at least one e-module. Neither accessing any e-modules, timing of pediatric clerkship, nor assignment to ID rotation resulted in improved posttest nor NBME scores. Seventy percent of students rated the e-modules as satisfactory and reported usage improved their confidence with the congenital infections topic. Discussion: e-Modules did not improve student performance on NBME or posttest; however, they were perceived as satisfactory and to have improved confidence among those who used them. This study underscores the importance of formally evaluating electronic and other innovative curricula when implemented within existing medical education frameworks.

  17. The effectiveness of e-learning in pediatric medical student education.

    Science.gov (United States)

    Khasawneh, Rima; Simonsen, Kari; Snowden, Jessica; Higgins, Joy; Beck, Gary

    2016-01-01

    Electronic learning allows individualized education and may improve student performance. This study assessed the impact of e-modules about infection control and congenital infections on medical knowledge. A descriptive study was conducted involving third-year medical students on pediatric clerkship. e-Module content in three different formats was developed: a text monograph, a PowerPoint presentation, and a narrated PowerPoint lecture. Students' use of the e-modules was tracked, as was participation in the infectious disease rotation and the order of pediatric rotation. Pre- and posttests specific to the e-module content and National Board of Medical Examiners (NBME) pediatric exam scores were recorded. Among 67 participants, 63% of them visited at least one e-module. Neither accessing any e-modules, timing of pediatric clerkship, nor assignment to ID rotation resulted in improved posttest nor NBME scores. Seventy percent of students rated the e-modules as satisfactory and reported usage improved their confidence with the congenital infections topic. e-Modules did not improve student performance on NBME or posttest; however, they were perceived as satisfactory and to have improved confidence among those who used them. This study underscores the importance of formally evaluating electronic and other innovative curricula when implemented within existing medical education frameworks.

  18. Interprofessional education in anatomy: Learning together in medical and nursing training.

    Science.gov (United States)

    Herrmann, Gudrun; Woermann, Ulrich; Schlegel, Claudia

    2015-01-01

    Teamwork and the interprofessional collaboration of all health professions are a guarantee of patient safety and highly qualified treatment in patient care. In the daily clinical routine, physicians and nurses must work together, but the education of the different health professions occurs separately in various places, mostly without interrelated contact. Such training abets mutual misunderstanding and cements professional protectionism, which is why interprofessional education can play an important role in dismantling such barriers to future cooperation. In this article, a pilot project in interprofessional education involving both medical and nursing students is presented, and the concept and the course of training are described in detail. The report illustrates how nursing topics and anatomy lectures can be combined for interprofessional learning in an early phase of training. Evaluation of the course showed that the students were highly satisfied with the collaborative training and believed interprofessional education (IPE) to be an important experience for their future profession and understanding of other health professionals. The results show that the IPE teaching concept, which combines anatomy and nursing topics, provides an optimal setting for learning together and helps nurses and doctors in training to gain knowledge about other health professionals' roles, thus evolving mutual understanding. © 2014 American Association of Anatomists.

  19. The Role of Argumentation in Hypothetico-Deductive Reasoning during Problem-Based Learning in Medical Education: A Conceptual Framework

    Science.gov (United States)

    Ju, Hyunjung; Choi, Ikseon

    2018-01-01

    One of the important goals of problem-based learning (PBL) in medical education is to enhance medical students' clinical reasoning--hypothetico-deductive reasoning (HDR) in particular--through small group discussions. However, few studies have focused on explicit strategies for promoting students' HDR during group discussions in PBL. This paper…

  20. “Exporting” medical education

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    Vinod Shah

    2016-01-01

    Full Text Available A commentary on four reports of the pre-conference on medical education in low and middle income countries and efforts by mainly North American physicians to provide assistance held November, 2015. The authors address issues of participatory learning and developing critical thinking; mutual learning and leadership; and professionalism and ethics in medical education.

  1. Basic practical skills teaching and learning in undergraduate medical education – a review on methodological evidence

    Science.gov (United States)

    Vogel, Daniela; Harendza, Sigrid

    2016-01-01

    Objective: Practical skills are an essential part of physicians’ daily routine. Nevertheless, medical graduates’ performance of basic skills is often below the expected level. This review aims to identify and summarize teaching approaches of basic practical skills in undergraduate medical education which provide evidence with respect to effective students’ learning of these skills. Methods: Basic practical skills were defined as basic physical examination skills, routine skills which get better with practice, and skills which are also performed by nurses. We searched PubMed with different terms describing these basic practical skills. In total, 3467 identified publications were screened and 205 articles were eventually reviewed for eligibility. Results: 43 studies that included at least one basic practical skill, a comparison of two groups of undergraduate medical students and effects on students’ performance were analyzed. Seven basic practical skills and 15 different teaching methods could be identified. The most consistent results with respect to effective teaching and acquisition of basic practical skills were found for structured skills training, feedback, and self-directed learning. Simulation was effective with specific teaching methods and in several studies no differences in teaching effects were detected between expert or peer instructors. Multimedia instruction, when used in the right setting, also showed beneficial effects for basic practical skills learning. Conclusion: A combination of voluntary or obligatory self-study with multimedia applications like video clips in combination with a structured program including the possibility for individual exercise with personal feedback by peers or teachers might provide a good learning opportunity for basic practical skills. PMID:27579364

  2. The impact of specially designed digital games-based learning in undergraduate pathology and medical education.

    Science.gov (United States)

    Kanthan, Rani; Senger, Jenna-Lynn

    2011-01-01

    The rapid advances of computer technologies have created a new e-learner generation of "Homo-zappien" students that think and learn differently. Digital gaming is an effective, fun, active, and encouraging way of learning, providing immediate feedback and measurable process. Within the context of ongoing reforms in medical education, specially designed digital games, a form of active learning, are effective, complementary e-teaching/learning resources. To examine the effectiveness of the use of specially designed digital games for student satisfaction and for measurable academic improvement. One hundred fourteen students registered in first-year pathology Medicine 102 had 8 of 16 lecture sessions reviewed in specially designed content-relevant digital games. Performance scores to relevant content sessions were analyzed at midterm and final examinations. Seventy-one students who registered in second-year pathology Medicine 202 were exposed to the games only during the final examination, with the midterm examination serving as an internal matched-control group. Outcome measures included performance at midterm and final examinations. Paired 2-tailed t test statistics compared means. A satisfaction survey questionnaire of yes or no responses analyzed student engagement and their perceptions to digital game-based learning. Questions relevant to the game-play sessions had the highest success rate in both examinations among 114 first-year students. In the 71 second-year students, the examination scores at the end of the final examination were significantly higher than the scores on the midterm examination. Positive satisfaction survey noted increased student engagement, enhanced personal learning, and reduced student stress. Specially constructed digital games-based learning in undergraduate pathology courses showed improved academic performance as measured by examination test scores with increased student satisfaction and engagement.

  3. Podcasting in Medical Education: Can We Turn This Toy into an Effective Learning Tool?

    Science.gov (United States)

    Zanussi, Lauren; Paget, Mike; Tworek, Janet; McLaughlin, Kevin

    2012-01-01

    Advances in information technology have changed how we deliver medical education, sometimes for the better, sometimes not. Technologies that were designed for purposes other than education, such as podcasting, are now frequently used in medical education. In this article, the authors discuss the pros and cons of adapting existing technologies for…

  4. Experiences with a simulated learning environment - the SimuScape©: Virtual environments in medical education

    Directory of Open Access Journals (Sweden)

    Anna-Lena Thies

    2014-03-01

    Full Text Available INTRODUCTION: Simulation as a tool for medical education has gained considerable importance in the past years. Various studies have shown that the mastering of basic skills happens best if taught in a realistic and workplace-based context. It is necessary that simulation itself takes place in the realistic background of a genuine clinical or in an accordingly simulated learning environment. METHODS: A panoramic projection system that allows the simulation of different scenarios has been created at the medical school of the Westphalian Wilhelms-University  Muenster/Germany. The SimuScape© is a circular training room of six meters in diameter and has the capacity to generate pictures or moving images as well as the corresponding background noises for medical students, who are then able to interact with simulated patients inside a realistic environment. RESULTS: About 1,000 students have been instructed using the SimuScape© in the courses of emergency medicine, family medicine and anesthesia. The SimuScape©, with its 270°-panoramic projection, gives the students the impression “of being right in the center of action”.  It is a flexible learning environment that can be easily integrated into curricular teaching and which is in full operation for 10 days per semester. CONCLUSION: The SimuScape© allows the establishment of new medical areas outside the hospital and surgery for simulation and it is an extremely adaptable and cost-effective utilization of a lecture room. In this simulated environment it is possible to teach objectives like self-protection and patient care during disturbing environmental influences in practice.

  5. Advances in medical education and practice: what millennial medical students say about flipped learning

    Directory of Open Access Journals (Sweden)

    Baig MS

    2017-09-01

    Full Text Available Mirza Shaheer Baig, Habeeba Suleman MalluBarts and The London School of Medicine and Dentistry, London, UKWe thank Pettit et al1 for their study, which explores the opinions of millennial medicalstudents with regards to “flipped learning”. As penultimate year medical students, weplace great value in the analysis of feedback from students to develop an improvedcurriculum. We share the view that our generation has a desire for variety and flexibilityin pedagogical formats. It must be noted, however, that student preference maychange as they progress through medical school and a key factor in developing aneffective curriculum is assessing the impact on attainment in addition to collectingstudent feedback.View the original paper by Pettit and colleagues

  6. Motivation in medical education.

    Science.gov (United States)

    Pelaccia, Thierry; Viau, Rolland

    2017-02-01

    Motivation is a concept which has fascinated researchers for many decades. The field of medical education has become interested in motivation recently, having always assumed that medical students must be motivated because of their commitment to highly specific training, leading to a very specific profession. However, motivation is a major determinant of the quality of learning and success, the lack of which may well explain why teachers sometimes observe medical students who are discouraged, have lost interest or abandon their studies, with a feeling of powerlessness or resignation. After describing the importance of motivation for learning in medicine, this Guide will define the concept of motivation, setting it within the context of a social cognitive approach. In the second part of this Guide, recommendations are made, based upon the so-called "motivational dynamic model", which provides a multitude of various strategies with positive effects on students' motivation to learn.

  7. Developing an integrated framework of problem-based learning and coaching psychology for medical education: a participatory research.

    Science.gov (United States)

    Wang, Qing; Li, Huiping; Pang, Weiguo; Liang, Shuo; Su, Yiliang

    2016-01-05

    Medical schools have been making efforts to develop their own problem-based learning (PBL) approaches based on their educational conditions, human resources and existing curriculum structures. This study aimed to explore a new framework by integrating the essential features of PBL and coaching psychology applicable to the undergraduate medical education context. A participatory research design was employed. Four educational psychology researchers, eight undergraduate medical school students and two accredited PBL tutors participated in a four-month research programme. Data were collected through participatory observation, focus groups, semi-structured interviews, workshop documents and feedback surveys and then subjected to thematic content analysis. The triangulation of sources and member checking were used to ensure the credibility and trustworthiness of the research process. Five themes emerged from the analysis: current experience of PBL curriculum; the roles of and relationships between tutors and students; student group dynamics; development of self-directed learning; and coaching in PBL facilitation. On the basis of this empirical data, a systematic model of PBL and coaching psychology was developed. The findings highlighted that coaching psychology could be incorporated into the facilitation system in PBL. The integrated framework of PBL and coaching psychology in undergraduate medical education has the potential to promote the development of the learning goals of cultivating clinical reasoning ability, lifelong learning capacities and medical humanity. Challenges, benefits and future directions for implementing the framework are discussed in this paper.

  8. A COMPARISON OF INTERNET-BASED LEARNING AND TRADITIONAL CLASSROOM LECTURE TO LEARN CPR FOR CONTINUING MEDICAL EDUCATION

    Directory of Open Access Journals (Sweden)

    Naser HEMMATI

    2013-01-01

    Full Text Available The purpose of this study was to compare the satisfaction and effectiveness of Internet-based learning (IBL and traditional classroom lecture (TCL for continuing medical education (CME programs by comparing final resuscitation exam results of physicians who received the newest cardiopulmonary resuscitation (CPR curriculum guidelines training either by traditional or by an Internet-based CME. A randomized two-group pretest-posttest quasi-experimental design was used. Postgraduate general physician trainees of Iran medical schools were participated. Two methods were compared for teaching the newest curriculum guidelines of the American Heart Association: lecture method in which the teacher follows a Power point presentation with linear layout, and with interactive self-assessment and Scenario-based learning, feedback, multimedia with linear and nonlinear layout with the same power point presentation as lecture in terms of text and photography. The data on final CPR exam grades, collected both groups trained physicians, were obtained for a total of 80 physicians in 2011. An independent sample t-test analysis indicated that participants in the IBL format reported significantly higher mean ratings for this format (62.5 ±2.32 than TCL format (54.6±2.18 (p=.001. There were no significant differences between the two groups in cognitive gains (p<0.05. well-designed IBL content can be effective or a supplement component to CME.

  9. Learning styles of medical students, general surgery residents, and general surgeons: implications for surgical education

    OpenAIRE

    de Gara Chris; Engels Paul T

    2010-01-01

    Abstract Background Surgical education is evolving under the dual pressures of an enlarging body of knowledge required during residency and mounting work-hour restrictions. Changes in surgical residency training need to be based on available educational models and research to ensure successful training of surgeons. Experiential learning theory, developed by David Kolb, demonstrates the importance of individual learning styles in improving learning. This study helps elucidate the way in which ...

  10. [Digital learning and teaching in medical education : Already there or still at the beginning?

    Science.gov (United States)

    Kuhn, Sebastian; Frankenhauser, Susanne; Tolks, Daniel

    2018-02-01

    The current choice of digital teaching and learning formats in medicine is very heterogeneous. In addition to the widely used classical static formats, social communication tools, audio/video-based media, interactive formats, and electronic testing systems enrich the learning environment.For medical students, the private use of digital media is not necessarily linked to their meaningful use in the study. Many gain their experience of digital learning in the sense of "assessment drives learning", especially by taking online exams in a passive, consuming role. About half of all medical students can be referred to as "e-examinees" whose handling of digital learning is primarily focused on online exam preparation. Essentially, they do not actively influence their digital environment. Only a quarter can be identified as a "digital all-rounder", who compiles their individual learning portfolio from the broad range of digital media.At present, the use of digital media is not yet an integral and comprehensive component of the teaching framework of medical studies in Germany, but is rather used in the sense of a punctual teaching enrichment. Current trends in digital teaching and learning offerings are mobile, interactive, and personalized platforms as well as increasing the relevance of learning platforms. Furthermore, didactical concepts targeting the changed learning habits of the students are more successful regarding the acceptance and learning outcomes. In addition, digitalization is currently gaining importance as a component in the medical school curricula.

  11. [Education on ethnic diversity in health care in medical school: what can we learn from the American perspective?].

    Science.gov (United States)

    Figueroa, Caroline A; Rassam, Fadi; Spong, Karin S

    2013-01-01

    In April 2012, 20 medical students took part in a study tour to San Francisco, themed 'ethnic diversity in health care'. In this article we discuss four lessons learned from the perspective of these students. The delivery of culturally sensitive healthcare is becoming more important in the Netherlands as the ethnic minority population rate will continue to grow over the coming years. However, diversity education is not a structural component of medical curricula in the Netherlands to the same degree as in the USA where medical education pays a lot of attention to differences in health between ethnic minorities; and where there is also extensive research on this subject. We emphasize that diversity education should create awareness of differences in health outcomes between ethnic groups and awareness of one's own bias and stereotypical views. The implementation of diversity education is a challenge, which requires a change of image and the involvement of teachers from diverse medical disciplines.

  12. Active Learning in Medical Education: Application to the Training of Surgeons

    Directory of Open Access Journals (Sweden)

    Jessica G.Y. Luc

    2016-01-01

    Full Text Available Our article defines active learning in the context of surgical education and reviews the growing body of research on new approaches to teaching. We then discuss future perspectives and the challenges faced by the trainee and surgeon in applying active learning to surgical training. As modern surgical education faces numerous challenges, we hope our article will help surgical educators in the evaluation of curriculum development, methods of instruction, and assessment.

  13. Ten Things I Learned When Writing a Book of Medical Education Quotations

    Science.gov (United States)

    Walsh, Kieran

    2013-01-01

    Medical education has had a long history. Much of that history can be captured in quotations from the many people who have made medical education what it is today. Even though newcomers to the field often see and approach problems as if they were the first to discover them, examining quotations makes us realise that ideas of reform in medical…

  14. Pulse!!: a model for research and development of virtual-reality learning in military medical education and training.

    Science.gov (United States)

    Dunne, James R; McDonald, Claudia L

    2010-07-01

    Pulse!! The Virtual Clinical Learning Lab at Texas A&M University-Corpus Christi, in collaboration with the United States Navy, has developed a model for research and technological development that they believe is an essential element in the future of military and civilian medical education. The Pulse!! project models a strategy for providing cross-disciplinary expertise and resources to educational, governmental, and business entities challenged with meeting looming health care crises. It includes a three-dimensional virtual learning platform that provides unlimited, repeatable, immersive clinical experiences without risk to patients, and is available anywhere there is a computer. Pulse!! utilizes expertise in the fields of medicine, medical education, computer science, software engineering, physics, computer animation, art, and architecture. Lab scientists collaborate with the commercial virtual-reality simulation industry to produce research-based learning platforms based on cutting-edge computer technology.

  15. Effects of problem-based learning by learning style in medical education.

    Science.gov (United States)

    Chae, Su-Jin

    2012-12-01

    Although problem-based learning (PBL) has been popularized in many colleges, few studies have analyzed the relationship between individual differences and PBL. The purpose of this study was to analyze the relationship between learning style and the perception on the effects of PBL. Grasha-Riechmann Student Learning Style Scales was used to assess the learning styles of 38 students at Ajou University School of Medicine who were enrolled in a respiratory system course in 2011. The data were analyzed by regression analysis and Spearman correlation analysis. By regression analysis, dependent beta=0.478) and avoidant styles (beta=-0.815) influenced the learner's satisfaction with PBL. By Spearman correlation analysis, there was significant link between independent, dependent, and avoidant styles and the perception of the effect of PBL. There are few significant relationships between learning style and the perception of the effects of PBL. We must determine how to teach students with different learning styles and the factors that influence PBL.

  16. Teaching Critical Thinking in Graduate Medical Education: Lessons Learned in Diagnostic Radiology.

    Science.gov (United States)

    Morrissey, Benjamin; Heilbrun, Marta E

    2017-01-01

    The 2014 Institute of Medicine report, Graduate Medical Education that Meets the Nation's Health Needs , challenged the current graduate medical training process and encouraged new opportunities to redefine the fundamental skills and abilities of the physician workforce. This workforce should be skilled in critically evaluating the current systems to improve care delivery and health. To meet these goals, current challenges, motivations, and educational models at the medical school and graduate medical education levels related to formal training in nonclinical aspects of medicine, especially critical thinking, are reviewed. Our diagnostic radiology training program is presented as a "case study" to frame the review.

  17. [Medical technology and medical education].

    Science.gov (United States)

    von Mallek, D; Biersack, H-J; Mull, R; Wilhelm, K; Heinz, B; Mellert, F

    2010-08-01

    The education of medical professionals is divided into medical studies, postgraduate training leading to the qualification as a specialist, and continuing professional development. During education, all scientific knowledge and practical skills are to be acquired, which enable the physician to practice responsibly in a specialized medical area. In the present article, relevant curricula are analyzed regarding the consideration of medical device-related topics, as the clinical application of medical technology has reached a central position in modern patient care. Due to the enormous scientific and technical progress, this area has become as important as pharmacotherapy. Our evaluation shows that medical device-related topics are currently underrepresented in the course of medical education and training and should be given greater consideration in all areas of medical education. Possible solutions are presented.

  18. Value-Added Clinical Systems Learning Roles for Medical Students That Transform Education and Health: A Guide for Building Partnerships Between Medical Schools and Health Systems.

    Science.gov (United States)

    Gonzalo, Jed D; Lucey, Catherine; Wolpaw, Terry; Chang, Anna

    2017-05-01

    To ensure physician readiness for practice and leadership in changing health systems, an emerging three-pillar framework for undergraduate medical education integrates the biomedical and clinical sciences with health systems science, which includes population health, health care policy, and interprofessional teamwork. However, the partnerships between medical schools and health systems that are commonplace today use health systems as a substrate for learning. Educators need to transform the relationship between medical schools and health systems. One opportunity is the design of authentic workplace roles for medical students to add relevance to medical education and patient care. Based on the experiences at two U.S. medical schools, the authors describe principles and strategies for meaningful medical school-health system partnerships to engage students in value-added clinical systems learning roles. In 2013, the schools began large-scale efforts to develop novel required longitudinal, authentic health systems science curricula in classrooms and workplaces for all first-year students. In designing the new medical school-health system partnerships, the authors combined two models in an intersecting manner-Kotter's change management and Kern's curriculum development steps. Mapped to this framework, they recommend strategies for building mutually beneficial medical school-health system partnerships, including developing a shared vision and strategy and identifying learning goals and objectives; empowering broad-based action and overcoming barriers in implementation; and generating short-term wins in implementation. Applying this framework can lead to value-added clinical systems learning roles for students, meaningful medical school-health system partnerships, and a generation of future physicians prepared to lead health systems change.

  19. A Constructive Reframing of Student Roles and Systems Learning in Medical Education Using a Communities of Practice Lens.

    Science.gov (United States)

    Gonzalo, Jed D; Thompson, Britta M; Haidet, Paul; Mann, Karen; Wolpaw, Daniel R

    2017-12-01

    Health systems are in the midst of a transformation that is being driven by a variety of forces. This has important implications for medical educators because clinical practice environments play a key role in learning and professional development, and evolving health systems are beginning to demand that providers have "systems-ready" knowledge, attitudes, and skills. Such implications provide a clear mandate for medical schools to modify their goals and prepare physicians to practice flexibly within teams and effectively contribute to the improvement of health care delivery. In this context, the concepts of value-added medical education, authentic student roles, and health systems science are emerging as increasingly important. In this Article, the authors use a lens informed by communities of practice theory to explore these three concepts, examining the implications that the communities of practice theory has in the constructive reframing of educational practices-particularly common student roles and experiences-and charting future directions for medical education that better align with the needs of the health care system. The authors apply several key features of the communities of practice theory to current experiential roles for students, then propose a new approach to students' clinical experiences-value-added clinical systems learning roles-that provides students with opportunities to make meaningful contributions to patient care while learning health systems science at the patient and population level. Finally, the authors discuss implications for professional role formation and anticipated challenges to the design and implementation of value-added clinical systems learning roles.

  20. The effect of degree of immersion upon learning performance in virtual reality simulations for medical education.

    Science.gov (United States)

    Gutiérrez, Fátima; Pierce, Jennifer; Vergara, Víctor M; Coulter, Robert; Saland, Linda; Caudell, Thomas P; Goldsmith, Timothy E; Alverson, Dale C

    2007-01-01

    Simulations are being used in education and training to enhance understanding, improve performance, and assess competence. However, it is important to measure the performance of these simulations as learning and training tools. This study examined and compared knowledge acquisition using a knowledge structure design. The subjects were first-year medical students at The University of New Mexico School of Medicine. One group used a fully immersed virtual reality (VR) environment using a head mounted display (HMD) and another group used a partially immersed (computer screen) VR environment. The study aims were to determine whether there were significant differences between the two groups as measured by changes in knowledge structure before and after the VR simulation experience. The results showed that both groups benefited from the VR simulation training as measured by the significant increased similarity to the expert knowledge network after the training experience. However, the immersed group showed a significantly higher gain than the partially immersed group. This study demonstrated a positive effect of VR simulation on learning as reflected by improvements in knowledge structure but an enhanced effect of full-immersion using a HMD vs. a screen-based VR system.

  1. Problem-based learning in pre-clinical medical education: 22 years of outcome research.

    Science.gov (United States)

    Hartling, Lisa; Spooner, Carol; Tjosvold, Lisa; Oswald, Anna

    2010-01-01

    To conduct a systematic review of problem-based learning (PBL) in undergraduate, pre-clinical medical education. A research librarian developed comprehensive search strategies for MEDLINE, PSYCINFO, and ERIC (1985-2007). Two reviewers independently screened search results and applied inclusion criteria. Studies were included if they had a comparison group and reported primary data for evaluative outcomes. One reviewer extracted data and a second reviewer checked data for accuracy. Two reviewers independently assessed methodological quality. Quantitative synthesis was not performed due to heterogeneity. A qualitative review with detailed evidence tables is provided. Thirty unique studies were included. Knowledge acquisition measured by exam scores was the most frequent outcome reported; 12 of 15 studies found no significant differences. Individual studies demonstrated either improved clerkship (N = 3) or residency (N = 1) performance, or benefits on some clinical competencies during internships for PBL (N = 1). Three of four studies found some benefits for PBL when evaluating diagnostic accuracy. Three studies found few differences of clinical (or practical) importance on the impact of PBL on practicing physicians. Twenty-two years of research shows that PBL does not impact knowledge acquisition; evidence for other outcomes does not provide unequivocal support for enhanced learning. Work is needed to determine the most appropriate outcome measures to capture and quantify the effects of PBL. General conclusions are limited by methodological weaknesses and heterogeneity across studies. The critical appraisal of previous studies, conducted as part of this review, provides direction for future research in this area.

  2. Medical Education in Infectious Diseases. Using Smartphone Apps for Active Learning

    Science.gov (United States)

    Valdez, Luis; Gray, Andrea; Ramos, Gaston; Siu, Hugo

    2017-01-01

    Abstract Background Active Learning using smartphone technology can be implemented as a tool for teaching medical students (MS) and residents (Rs). The use of technology would increase participation and enhance student learning by engaging them in solving ID clinical case scenarios. Our objective was to describe the methods used and to share the opinions of the users of such active learning methods. Methods The smartphone applications used were Socrative and WhatsApp. We used Socrative during the Universidad Peruana de Ciencias Aplicadas (UPC) ID course for MS in two different ways. In selected lectures (4 of 32), teacher paced questions were asked based on clinical scenarios related to the topic reviewed, and by voluntary homework questionnaires (student paced). At the British American Hospital (BAH) Medicine Department (MS and Rs) Socrative was used similarly: during some noon lectures (teacher paced questions) and during the baseline MS exam and Rs mid-year exam and voluntary homework questions (student paced). WhatsApp is currently used at the BAH with questions send from Monday to Friday. MS /Rs answer individually via WhatsApp to the mentor in charge. The right answer is given the next day. Questions using WhatsApp deal with recent cases seen at the Wards or in the outpatient clinic, and are designed so that the MS/Rs must do quick literature searches in order to provide the right answer. Results Forty-one MS/Rs answered the survey on Socrative use, 25 of 48 (52%) of UPC MS and 16 (89%) MS/Rs from the BAH. Forty (97%) believed using Socrative had influenced their learning and all but 2 believed it promoted participation from the class. 36 (87.8%) would like to have Socrative used in other lectures and 35 (85%) in other courses. Only one person voted against Socrative use in courses or lectures. With regards to WhatsApp use 16 MS/Rs from BAH answered the survey. Six had used before WhatsApp as a teaching tool. All felt the methodology was useful for learning

  3. Update on Research and Application of Problem-Based Learning in Medical Science Education

    Science.gov (United States)

    Fan, Chuifeng; Jiang, Biying; Shi, Xiuying; Wang, Enhua; Li, Qingchang

    2018-01-01

    Problem-based learning (PBL) is a unique form of pedagogy dedicated to developing students' self-learning and clinical practice skills. After several decades of development, although applications vary, PBL has been recognized all over the world and implemented by many medical schools. This review summarizes and updates the application and study of…

  4. The correlation between effective factors of e-learning and demographic variables in a post-graduate program of virtual medical education in Tehran University of Medical Sciences.

    Science.gov (United States)

    Golband, Farnoosh; Hosseini, Agha Fatemeh; Mojtahedzadeh, Rita; Mirhosseini, Fakhrossadat; Bigdeli, Shoaleh

    2014-01-01

    E-learning as an educational approach has been adopted by diverse educational and academic centers worldwide as it facilitates learning in facing the challenges of the new era in education. Considering the significance of virtual education and its growing practice, it is of vital importance to examine its components for promoting and maintaining success. This analytical cross-sectional study was an attempt to determine the relationship between four factors of content, educator, learner and system, and effective e-learning in terms of demographic variables, including age, gender, educational background, and marital status of postgraduate master's students (MSc) studying at virtual faculty of Tehran University of Medical Sciences. The sample was selected by census (n=60); a demographic data gathering tool and a researcher-made questionnaire were used to collect data. The face and content validity of both tools were confirmed and the results were analyzed by descriptive statistics (frequency, percentile, standard deviation and mean) and inferential statistics (independent t-test, Scheffe's test, one-way ANOVA and Pearson correlation test) by using SPSS (V.16). The present study revealed that There was no statistically significant relationship between age and marital status and effective e-learning (P>0.05); whereas, there was a statistically significant difference between gender and educational background with effective e-learning (Pe-learning can help managers and designers to make the right decisions about educational components of e-learning, i.e. content, educator, system and learner and improve them to create a more productive learning environment for learners.

  5. The relationship between assessment methods and self-directed learning readiness in medical education.

    Science.gov (United States)

    Monroe, Katherine S

    2016-03-11

    This research explored the assessment of self-directed learning readiness within the comprehensive evaluation of medical students' knowledge and skills and the extent to which several variables predicted participants' self-directed learning readiness prior to their graduation. Five metrics for evaluating medical students were considered in a multiple regression analysis. Fourth-year medical students at a competitive US medical school received an informed consent and an online survey. Participants voluntarily completed a self-directed learning readiness scale that assessed four subsets of self-directed learning readiness and consented to the release of their academic records. The assortment of metrics considered in this study only vaguely captured students' self-directedness. The strongest predictors were faculty evaluations of students' performance on clerkship rotations. Specific clerkship grades were mildly predictive of three subscales. The Pediatrics clerkship modestly predicted critical self-evaluation (r=-.30, p=.01) and the Psychiatry clerkship mildly predicted learning self-efficacy (r =-.30, p=.01), while the Junior Surgery clerkship nominally correlated with participants' effective organization for learning (r=.21, p=.05). Other metrics examined did not contribute to predicting participants' readiness for self-directed learning. Given individual differences among participants for the variables considered, no combination of students' grades and/or test scores overwhelmingly predicted their aptitude for self-directed learning. Considering the importance of fostering medical students' self-directed learning skills, schools need a reliable and pragmatic approach to measure them. This data analysis, however, offered no clear-cut way of documenting students' self-directed learning readiness based on the evaluation metrics included.

  6. Mobile Learning in Medical Education: A Case Study through the Lens of Sleep Education

    Science.gov (United States)

    Wells, Mary Ellen

    2014-01-01

    Sleep disorders affect millions of Americans and are directly associated with many deadly diseases, including neurological disorders. Despite this impact, sleep medicine education is not included in many U.S.-based neurology residency education programs, resulting in under-diagnosed patients and missed therapeutic opportunities. This study aims to…

  7. Medical Students Educate Teens About Skin Cancer: What Have We Learned?

    OpenAIRE

    Kamell, Jeanette M.; Rietkerk, William; Lam, Ken; Phillips, Jason M.; Wu, Jashin J.; McCullough, Jerry L.; Linden, Kenneth G.; Osann, Kathryn

    2010-01-01

    Skin cancer is a serious societal problem, and public awareness outreach, including to youth, is crucial. Medical students have joined forces to educate adolescents about skin cancer with significant impacts; even one 50-min interactive outreach session led to sustained changes in knowledge and behavior in a cohort of 1,200 adolescents surveyed. Medical students can act as a tremendous asset to health awareness public outreach efforts: enthusiastic volunteerism keeps education cost-effective,...

  8. More technology, better learning resources, better learning? Lessons from adopting virtual microscopy in undergraduate medical education.

    Science.gov (United States)

    Helle, Laura; Nivala, Markus; Kronqvist, Pauliina

    2013-01-01

    The adoption of virtual microscopy at the University of Turku, Finland, created a unique real-world laboratory for exploring ways of reforming the learning environment. The purpose of this study was to evaluate the students' reactions and the impact of a set of measures designed to boost an experimental group's understanding of abnormal histology through an emphasis on knowledge of normal cells and tissues. The set of measures included (1) digital resources to review normal structures and an entrance examination for enforcement, (2) digital course slides highlighting normal and abnormal tissues, and (3) self-diagnostic quizzes. The performance of historical controls was used as a baseline, as previous students had never been exposed to the above-mentioned measures. The students' understanding of normal histology was assessed in the beginning of the module to determine the impact of the first set of measures, whereas that of abnormal histology was assessed at the end of the module to determine the impact of the whole set of measures. The students' reactions to the instructional measures were assessed by course evaluation data. Additionally, four students were interviewed. Results confirmed that the experimental group significantly outperformed the historical controls in understanding normal histology. The students held favorable opinions on the idea of emphasizing normal structures. However, with regards to abnormal histology, the historical controls outperformed the experimental group. In conclusion, allowing students access to high-quality digitized materials and boosting prerequisite skills are clearly not sufficient to boost final competence. Instead, the solution may lie in making students externally accountable for their learning throughout their training. Copyright © 2012 American Association of Anatomists.

  9. Developments in Veterinary Medical Education : Intentions, perceptions, learning processes and outcomes

    NARCIS (Netherlands)

    Jaarsma, A.D.C.

    2008-01-01

    The past decennia, veterinary medical education worldwide has gone through some rapid and major developments. Motivation for these developments were, among others, the explosion of (bio) medical knowledge, the related problem of curriculum overload and the mismatch between university and the

  10. Job requirements compared to medical school education: differences between graduates from problem-based learning and conventional curricula

    Directory of Open Access Journals (Sweden)

    Federkeil Gero

    2010-01-01

    Full Text Available Abstract Background Problem-based Learning (PBL has been suggested as a key educational method of knowledge acquisition to improve medical education. We sought to evaluate the differences in medical school education between graduates from PBL-based and conventional curricula and to what extent these curricula fit job requirements. Methods Graduates from all German medical schools who graduated between 1996 and 2002 were eligible for this study. Graduates self-assessed nine competencies as required at their day-to-day work and as taught in medical school on a 6-point Likert scale. Results were compared between graduates from a PBL-based curriculum (University Witten/Herdecke and conventional curricula. Results Three schools were excluded because of low response rates. Baseline demographics between graduates of the PBL-based curriculum (n = 101, 49% female and the conventional curricula (n = 4720, 49% female were similar. No major differences were observed regarding job requirements with priorities for "Independent learning/working" and "Practical medical skills". All competencies were rated to be better taught in PBL-based curriculum compared to the conventional curricula (all p Conclusion Among medical graduates in Germany, PBL demonstrated benefits with regard to competencies which were highly required in the job of physicians. Research and business competence deserve closer attention in future curricular development.

  11. Rationing medical education.

    African Journals Online (AJOL)

    This paper discussed the pros and cons of the application of rationing to medical education and the different ... Even though some stakeholders in medical education might be taken aback at .... Walsh K. Online educational tools to improve the.

  12. 'E-learning' modalities in the current era of Medical Education in Pakistan.

    Science.gov (United States)

    Jawaid, Masood; Aly, Syed Moyn

    2014-09-01

    There are a number of e-Learning modalities, some or all of which may be used throughout a medical, dental, nursing or any other health related undergraduate curriculum. The purpose of this paper is to briefly describe what e-learning is along with some of the modalities, their common advantages and limitations. This publication ends with practical implications of these modalities for Pakistan.

  13. Blended Learning in Anatomy Teaching for Non-Medical Students: An Innovative Approach to the Health Professions Education

    Directory of Open Access Journals (Sweden)

    Olivia Miu Yung Ngan

    2018-06-01

    Full Text Available Purpose: Anatomy is a basic science for health professions curricula. Recent research suggests that the innovative blended learning approach (classroom learning plus use of online learning outperforms conventional didactic teaching by facilitating effective learning. This study explores the feasibility of adopting blended learning in anatomy teaching and evaluates the learning experiences of students. Method: Courseware called electronic Professional Study (ePS was developed and used for teaching anatomy of the cardiovascular system for non-medical students. ePS composed of three condensed, recorded course lectures, revision guides, and gamified quizzes. These were placed on the Web platform for students to watch before didactic lecture. Scheduled class periods were dedicated to participating in active-learning exercises. By the end of the academic semester, the courseware evaluation was implemented using a set of 5-point Likert scale questions. The e-questionnaire was distributed to a convenience sample of Year-2 full-time undergraduate students majoring in pharmacy enrolled in an introductory course in anatomy and physiology. Multiple linear regression was conducted to examine the relationship between courseware usage and examination results. Results: All enrolled students (n = 53 completed and returned the questionnaire. About 38% used the courseware less than ten times during the semester, and 7.5% never used it. e-Questionnaire shows that a majority agreed that the courseware content was clearly presented and easy to navigate. Multiple regression shows that courseware usage did not contribute significantly to the performance. Conclusions: Blended learning was perceived positively by most students. However, no effect on learning could be established. Keywords: Anatomy, Health profession education, Micro-module, Medical education, e-learning Courseware, Gamification, Hong Kong

  14. Current pain education within undergraduate medical studies across Europe: Advancing the Provision of Pain Education and Learning (APPEAL) study

    Science.gov (United States)

    Briggs, Emma V; Battelli, Daniele; Gordon, David; Kopf, Andreas; Ribeiro, Sofia; Puig, Margarita M; Kress, Hans G

    2015-01-01

    Objectives Unrelieved pain is a substantial public health concern necessitating improvements in medical education. The Advancing the Provision of Pain Education and Learning (APPEAL) study aimed to determine current levels and methods of undergraduate pain medicine education in Europe. Design and methods Using a cross-sectional design, publicly available curriculum information was sought from all medical schools in 15 representative European countries in 2012–2013. Descriptive analyses were performed on: the provision of pain teaching in dedicated pain modules, other modules or within the broader curriculum; whether pain teaching was compulsory or elective; the number of hours/credits spent teaching pain; pain topics; and teaching and assessment methods. Results Curriculum elements were publicly available from 242 of 249 identified schools (97%). In 55% (133/242) of schools, pain was taught only within compulsory non-pain-specific modules. The next most common approaches were for pain teaching to be provided wholly or in part via a dedicated pain module (74/242; 31%) or via a vertical or integrated approach to teaching through the broader curriculum, rather than within any specific module (17/242; 7%). The curricula of 17/242 schools (7%) showed no evidence of any pain teaching. Dedicated pain modules were most common in France (27/31 schools; 87%). Excluding France, only 22% (47/211 schools) provided a dedicated pain module and in only 9% (18/211) was this compulsory. Overall, the median number of hours spent teaching pain was 12.0 (range 4–56.0 h; IQR: 12.0) for compulsory dedicated pain modules and 9.0 (range 1.0–60.0 h; IQR: 10.5) for other compulsory (non-pain specific) modules. Pain medicine was principally taught in classrooms and assessed by conventional examinations. There was substantial international variation throughout. Conclusions Documented pain teaching in many European medical schools falls far short of what might be expected given the

  15. Vertical Integration in Teaching And Learning (VITAL): an approach to medical education in general practice.

    Science.gov (United States)

    Dick, Marie-Louise B; King, David B; Mitchell, Geoffrey K; Kelly, Glynn D; Buckley, John F; Garside, Susan J

    2007-07-16

    There is increasing demand to provide clinical and teaching experiences in the general practice setting. Vertical integration in teaching and learning, whereby teaching and learning roles are shared across all learner stages, has the potential to decrease time demands and stress on general practitioners, to provide teaching skills and experience to GP registrars, and to improve the learning experience for medical students, and may also help meet the increased demand for teaching in general practice. We consider potential advantages and barriers to vertical integration of teaching in general practice, and provide results of focus group discussions with general practice principals and registrars about vertical integration. We recommend further research into the feasibility of using vertical integration to enhance the capacity to teach medical students in general practice.

  16. Education in Clinical Reasoning: An Experimental Study on Strategies to Foster Novice Medical Students’ Engagement in Learning Activities

    Directory of Open Access Journals (Sweden)

    Alexander Linsen

    2018-06-01

    Full Text Available Purpose: Clinical reasoning forms the interface between medical knowledge and medical practice. However, it is not clear how to organize education to foster the development of clinical reasoning. This study compared two strategies to teach clinical reasoning. Method: As part of a regular clinical reasoning course 333 students participated in a two-phase experiment. In the learning phase, participants were randomly assigned to either the conventional strategy (CS or the new strategy (NS. Participants in the CS solved a clinical case using a written description of a patient encounter and individual study. Participants assigned to the NS solved the same case using a video patient encounter and group discussion. One week later, all participants took the same diagnostic performance test. Performance on the diagnostic test and differences between the groups regarding their interest, cognitive engagement, appreciation of the educational activity, and time investment in self-study were analyzed. Results: There was no significant effect of teaching strategy on diagnostic performance (p = .23. Students in the NS condition showed more interest during the session (p = .003 and were more appreciative of the course when assigning an overall grade than the students in the CS condition (p<.001. The NS students reported having spent fewer hours studying the clinical case individually before the group session than the CS students (p<.001. Discussion: The NS resulted in more students’ involvement and higher appreciation of the learning activity compared to the CS. There was no difference in diagnostic accuracy, but the NS seems more efficient: to achieve the same performance, the NS students needed only half the preparation time before the learning session than the students working under the CS. This higher efficiency may be due to the benefits of small-group learning, but clarifying this finding requires further investigation. Keywords: Clinical reasoning

  17. Medical students educate teens about skin cancer: what have we learned?

    Science.gov (United States)

    Kamell, Jeanette M; Rietkerk, William; Lam, Ken; Phillips, Jason M; Wu, Jashin J; McCullough, Jerry L; Linden, Kenneth G; Osann, Kathryn

    2011-03-01

    Skin cancer is a serious societal problem, and public awareness outreach, including to youth, is crucial. Medical students have joined forces to educate adolescents about skin cancer with significant impacts; even one 50-min interactive outreach session led to sustained changes in knowledge and behavior in a cohort of 1,200 adolescents surveyed. Medical students can act as a tremendous asset to health awareness public outreach efforts: enthusiastic volunteerism keeps education cost-effective, results in exponential spread of information, reinforces knowledge and communication skills of future physicians, and can result in tangible, life-saving benefits such as early detection of melanoma.

  18. Job requirements compared to medical school education: differences between graduates from problem-based learning and conventional curricula.

    Science.gov (United States)

    Schlett, Christopher L; Doll, Hinnerk; Dahmen, Janosch; Polacsek, Ole; Federkeil, Gero; Fischer, Martin R; Bamberg, Fabian; Butzlaff, Martin

    2010-01-14

    Problem-based Learning (PBL) has been suggested as a key educational method of knowledge acquisition to improve medical education. We sought to evaluate the differences in medical school education between graduates from PBL-based and conventional curricula and to what extent these curricula fit job requirements. Graduates from all German medical schools who graduated between 1996 and 2002 were eligible for this study. Graduates self-assessed nine competencies as required at their day-to-day work and as taught in medical school on a 6-point Likert scale. Results were compared between graduates from a PBL-based curriculum (University Witten/Herdecke) and conventional curricula. Three schools were excluded because of low response rates. Baseline demographics between graduates of the PBL-based curriculum (n = 101, 49% female) and the conventional curricula (n = 4720, 49% female) were similar. No major differences were observed regarding job requirements with priorities for "Independent learning/working" and "Practical medical skills". All competencies were rated to be better taught in PBL-based curriculum compared to the conventional curricula (all p learning/working" (Delta + 0.57), "Psycho-social competence" (Delta + 0.56), "Teamwork" (Delta + 0.39) and "Problem-solving skills" (Delta + 0.36), whereas "Research competence" (Delta--1.23) and "Business competence" (Delta--1.44) in the PBL-based curriculum needed improvement. Among medical graduates in Germany, PBL demonstrated benefits with regard to competencies which were highly required in the job of physicians. Research and business competence deserve closer attention in future curricular development.

  19. How do medical educators design a curriculum that facilitates student learning about professionalism?

    Science.gov (United States)

    Mason, Glenn; Wang, Shaoyu

    2016-01-01

    Objectives This study analyses the ways in which curriculum reform facilitated student learning about professionalism. Methods Design-based research provided the structure for an iterative approach to curriculum change which we undertook over a 3 year period. The learning environment of the Personal and Professional Development Theme (PPD) was analysed through the sociocultural lens of Activity Theory. Lave and Wenger’s and Mezirow’s learning theories informed curriculum reform to support student development of a patient-centred and critically reflective professional identity. The renewed pedagogical outcomes were aligned with curriculum content, learning and teaching processes and assessment, and intense staff education was undertaken. We analysed qualitative data from tutor interviews and free-response student surveys to evaluate the impact of curriculum reform. Results Students’ and tutors’ reflections on learning in PPD converged on two principle themes - ‘Developing a philosophy of medicine’ and ‘Becoming an ethical doctor’- which corresponded to the overarching PPD theme aims of communicative learning. Students and tutors emphasised the importance of the unique learning environment of PPD tutorials for nurturing personal development and the positive impact of the renewed assessment programme on learning. Conclusions A theory-led approach to curriculum reform resulted in student engagement in the PPD curriculum and facilitated a change in student perspective about the epistemological foundation of medicine. PMID:26845777

  20. Lifelong Learning for Clinical Practice: How to Leverage Technology for Telebehavioral Health Care and Digital Continuing Medical Education.

    Science.gov (United States)

    Hilty, Donald M; Turvey, Carolyn; Hwang, Tiffany

    2018-03-12

    Psychiatric practice continues to evolve and play an important role in patients' lives, the field of medicine, and health care delivery. Clinicians must learn a variety of clinical care systems and lifelong learning (LLL) is crucial to apply knowledge, develop skills, and adjust attitudes. Technology is rapidly becoming a key player-in delivery, lifelong learning, and education/training. The evidence base for telepsychiatry/telemental health via videoconferencing has been growing for three decades, but a greater array of technologies have emerged in the last decade (e.g., social media/networking, text, apps). Clinicians are combining telepsychiatry and these technologies frequently and they need to reflect on, learn more about, and develop skills for these technologies. The digital age has solidified the role of technology in continuing medical education and day-to-day practice. Other fields of medicine are also adapting to the digital age, as are graduate and undergraduate medical education and many allied mental health organizations. In the future, there will be more online training, simulation, and/or interactive electronic examinations, perhaps on a monthly cycle rather than a quasi-annual or 10-year cycle of recertification.

  1. Undergraduate medical education.

    Science.gov (United States)

    Rees, L; Wass, J

    1993-01-23

    Pressures from students and teachers, from professional bodies, and from changes in the way health care is delivered are all forcing a rethink of how medical students should be taught. These pressures may be more intense in London but are not confined to it. The recommendation the Tomlinson report advocates that has been generally welcomed is for more investment in primary care in London. General practitioners have much to teach medical schools about effective ways of learning, but incentives for teaching students in general practice are currently low, organising such teaching is difficult and needs resources, and resistance within traditional medical school hierarchies needs to be overcome. Likewise, students value learning within local communities, but the effort demanded of public health departments and community organisations is great at a time when they are under greater pressure than ever before. The arguments over research that favour concentration in four multifaculty schools are less clear cut for undergraduate education, where personal support for students is important. An immediate concern is that the effort demanded for reorganising along the lines suggested by Tomlinson will not leave medical schools much energy for innovating.

  2. Reflections on Empathy in Medical Education: What Can We Learn from Social Neurosciences?

    Science.gov (United States)

    Preusche, Ingrid; Lamm, Claus

    2016-01-01

    The role of empathy in human social interaction has been examined in several research fields, including medical education (ME) and social neuroscience (SN). SN yields insights into empathy based on neurobiological processes, and such information may also be relevant to ME. In this reflection article, the authors first critically review current…

  3. Context matters when striving to promote active and lifelong learning in medical education

    NARCIS (Netherlands)

    Berkhout, Joris J.; Helmich, Esther; Teunissen, Pim W.; van der Vleuten, Cees P. M.; Jaarsma, A. Debbie C.

    Where do we stand now? In the 30 years that have passed since The Edinburgh Declaration on Medical Education, we have made tremendous progress in research on fostering self-directed and independent study' as propagated in this declaration, of which one prime example is research carried out on

  4. Context matters when striving to promote active and lifelong learning in medical education

    NARCIS (Netherlands)

    Berkhout, Joris J.; Helmich, Esther; Teunissen, Pim W.; van der Vleuten, Cees P. M.; Jaarsma, A. Debbie C.

    2018-01-01

    Where do we stand now?In the 30 years that have passed since The Edinburgh Declaration on Medical Education, we have made tremendous progress in research on fostering self-directed and independent study' as propagated in this declaration, of which one prime example is research carried out on

  5. [Research in medical education

    DEFF Research Database (Denmark)

    Ringsted, Charlotte Vibeke

    2008-01-01

    Research in medical education is a relatively new discipline. Over the past 30 years, the discipline has experienced a tremendous growth, which is reflected in an increase in the number of publications in both medical education journals and medical science journals. However, recent reviews...... of articles on medical education studies indicate a need for improvement of the quality of medical education research in order to contribute to the advancement of educational practice as well as educational research. In particular, there is a need to embed studies in a conceptual theoretical framework...

  6. The acquisition of tacit knowledge in medical education: learning by doing.

    Science.gov (United States)

    McLeod, P J; Steinert, Y; Meagher, T; Schuwirth, L; Tabatabai, D; McLeod, A H

    2006-02-01

    This study was designed to assess medical school teachers' tacit knowledge of basic pedagogic principles and to explore the specific character of the knowledge base. We developed a 50-item, multiple-choice question test based on important pedagogic principles, and classified all questions as requiring either declarative or procedural knowledge. A total of 72 medical teachers representing 5 different groups of clinicians and educators agreed to sit the test. Teachers in all 5 groups performed well on the test of tacit pedagogic knowledge but those with advanced education degrees, or local recognition as experts, performed best. All test takers performed best on questions requiring procedural knowledge. Medical teachers possess tacit knowledge of basic pedagogic principles. Superior test performance on questions requiring procedural knowledge is consistent with their working in a clinical environment characterised by repeated procedural activities.

  7. The effect of problem-based learning on education and recall of medical students in a course of basic immunology in comparison with lecture-based learning

    Directory of Open Access Journals (Sweden)

    Davood Yadegarinia

    2002-07-01

    Full Text Available Background According to the available evidence and experiments, problem-based learning is one of the most successful methods to achieve higher educational objectives. In this method, the discussion about the medical subjects to be learned by the students is based on a real clinical case and participation of the students. Various advantages and disadvantages of this method have been addressed in different studies. Purpose In order to evaluate the effect of this method in our educational framework, we compare two educational methods, problem-based learning and lecture-based learning, in terms of students• education and recall. Methods It is an experimental study. Two topics of basic immunology were chosen after holding discussion meetings. The students were divided randomly into two groups. Each topic was taught to the two groups of students using both methods alternately. Students' educational achievement was evaluated with pre-test and post-test exams. Four weeks after these sessions, short-assay exams were used to evaluate the students' recall. Results The difference of pre-test results between the two groups was not statistically significant, whereas the difference of post-test scores was statistically significant. There was no statistically significant difference in the students' recall between the two groups. Conclusion Considering the exchange of two methods between the two groups, the effect of personal differences was eliminated in this study, and since there is no significant difference in the pre-test scores, the difference of post-test results could be related to the effect of PBL. According to the results of this study and with conducting additional experiments, the problem-based learning could be adjusted with the specific educational framework in our country. Keywords: problem-based learning, lecture-based learning, education, recall

  8. The Relationship Between Learning Style Preferences and Gender, Educational Major and Status in First Year Medical Students: A Survey Study From Iran

    OpenAIRE

    Sarabi-Asiabar, Ali; Jafari, Mehdi; Sadeghifar, Jamil; Tofighi, Shahram; Zaboli, Rouhollah; Peyman, Hadi; Salimi, Mohammad; Shams, Lida

    2014-01-01

    Background: Identifying and employing appropriate learning styles could play an important role in selecting teaching styles in order to improve education. Objectives: This study aimed to determine the relationship between learning styles preferences and gender, educational major and status in first year students at Isfahan University of Medical Sciences. Patients and Methods: A cross-sectional study employing the visual-aural-read/write-kinesthetic (VARK) learning style?s questionnaire was do...

  9. Do general practitioners' risk-taking propensities and learning styles influence their continuing medical education preferences?

    Science.gov (United States)

    Robinson, Geoffrey

    2002-01-01

    the risk averse and assimilators. The success of a combined educational strategy will depend on an inclusive philosophy, both recognizing and engaging the wide range of differences in learning style and risk taking for all the individuals who make up learning teams.

  10. JGME-ALiEM Hot Topics in Medical Education: Analysis of a Multimodal Online Discussion About Team-Based Learning.

    Science.gov (United States)

    Riddell, Jeff; Patocka, Catherine; Lin, Michelle; Sherbino, Jonathan

    2017-02-01

    Team-based learning (TBL) is an instructional method that is being increasingly incorporated in health professions education, although use in graduate medical education (GME) has been more limited. To curate and describe themes that emerged from a virtual journal club discussion about TBL in GME, held across multiple digital platforms, while also evaluating the use of social media in online academic discussions. The Journal of Graduate Medical Education ( JGME ) and the Academic Life in Emergency Medicine blog facilitated a weeklong, open-access, virtual journal club on the 2015 JGME article "Use of Team-Based Learning Pedagogy for Internal Medicine Ambulatory Resident Teaching." Using 4 stimulus questions (hosted on a blog as a starting framework), we facilitated discussions via the blog, Twitter, and Google Hangouts on Air platforms. We evaluated 2-week web analytics and performed a thematic analysis of the discussion. The virtual journal club reached a large international audience as exemplified by the blog page garnering 685 page views from 241 cities in 42 countries. Our thematic analysis identified 4 domains relevant to TBL in GME: (1) the benefits and barriers to TBL; (2) the design of teams; (3) the role of assessment and peer evaluation; and (4) crowdsourced TBL resources. The virtual journal club provided a novel forum across multiple social media platforms, engaging authors, content experts, and the health professions education community in a discussion about the importance, impediments to implementation, available resources, and logistics of adopting TBL in GME.

  11. Learning about facts of life: perspective from medical students on sources and preferences about puberty and sex education in Karachi.

    Science.gov (United States)

    Shaikh, Masood Ali; Mubeen, Syed Muhammand; Furqan, Muhammad

    2017-11-01

    Puberty heralds the onset of adulthood, and is fraught with complex physiological and psychological changes and emotions. In this study, we looked at the sources of information about puberty and sex education among males and females, age at which they learned about them, and the opinions on the role of schools and parents in imparting this education among medical students.A cross-sectional pilot study, using convenience sampling was conducted among 153 medical students of the Hamdard College of Medicine and Dentistry (HCM&D) in Karachi. Regarding most common source of information about puberty; 23 (25.3%) males identified friends as the most important source of information. While 31 (50.0%) women identified their mothers as the most important source.Regarding most common source of information about reproductive systems and sex; 17 (27.4%) women identified school teachers as the most common source of information, while 26 (28.6%) men identified books and magazines.

  12. The importance of social and collaborative learning for online continuing medical education (OCME): directions for future development and research.

    Science.gov (United States)

    Sandars, John; Kokotailo, Patricia; Singh, Gurmit

    2012-01-01

    There is an increasing use of online continuing medical education (OCME), but the potential use of social and collaborative learning to change professional performance and improve patient care has yet to be fully realised. The integration of the main themes from the presentations and comments from participants at a symposium at AMEE 2011. Sociological perspectives on change in professional performance highlight the need for social and collaborative learning in OCME so that learners can share information (explicit knowledge) and opinion (tacit knowledge). The educational topic should be relevant to the complexity of professional practice and use iterative cycles of implementation and critical reflection in social networks so that proposed solutions can be tested in actual practice. The challenge of developing effective online discussions for collaborative learning is recognised. The provision of OCME requires a shift in both policy and practice to emphasise the importance of social and collaborative learning. Further research is recommended, especially to evaluate the implementation and impact of social and collaborative learning for OCME on patient care and the use of newer Web 2.0 approaches.

  13. [The globalization of medical education].

    Science.gov (United States)

    Stevens, Fred C J

    2013-01-01

    With reference to a recently published research article on the applicability and effectiveness of problem-based learning (PBL) in non-Western medical schools, this commentary explores the assumption that a set of shared values is the common denominator of the globalisation of medical education. The use and effectiveness of PBL are not isolated from the cultural and social structural context in which it is applied; critical differences in values and in views on education underlie what educators and students perceive to be effective locally. The globalisation of medical education is more than the import of instructional designs, and includes Western models of social organisation that require deep reflection and adaptation for success; hence, instead of spreading models for medical education across the globe, more effort should be put into the support of 'home-grown' equivalents and alternatives.

  14. Paradigm shifts in medical education: implications for medical/health ...

    African Journals Online (AJOL)

    Contemporary health and medical education in the present information dispensation must actively engage healthcare providers in opportunities for knowledge seeking, learning to learn, and motivation to continue learning. The favored pedagogical design to achieve this is Problem-Based Learning (PBL) enhanced with the ...

  15. What Are We Looking for in Computer-Based Learning Interventions in Medical Education? A Systematic Review

    Science.gov (United States)

    Ferreira, Patrícia; Taveira-Gomes, Isabel; Severo, Milton; Ferreira, Maria Amélia

    2016-01-01

    Background Computer-based learning (CBL) has been widely used in medical education, and reports regarding its usage and effectiveness have ranged broadly. Most work has been done on the effectiveness of CBL approaches versus traditional methods, and little has been done on the comparative effects of CBL versus CBL methodologies. These findings urged other authors to recommend such studies in hopes of improving knowledge about which CBL methods work best in which settings. Objective In this systematic review, we aimed to characterize recent studies of the development of software platforms and interventions in medical education, search for common points among studies, and assess whether recommendations for CBL research are being taken into consideration. Methods We conducted a systematic review of the literature published from 2003 through 2013. We included studies written in English, specifically in medical education, regarding either the development of instructional software or interventions using instructional software, during training or practice, that reported learner attitudes, satisfaction, knowledge, skills, or software usage. We conducted 2 latent class analyses to group articles according to platform features and intervention characteristics. In addition, we analyzed references and citations for abstracted articles. Results We analyzed 251 articles. The number of publications rose over time, and they encompassed most medical disciplines, learning settings, and training levels, totaling 25 different platforms specifically for medical education. We uncovered 4 latent classes for educational software, characteristically making use of multimedia (115/251, 45.8%), text (64/251, 25.5%), Web conferencing (54/251, 21.5%), and instructional design principles (18/251, 7.2%). We found 3 classes for intervention outcomes: knowledge and attitudes (175/212, 82.6%), knowledge, attitudes, and skills (11.8%), and online activity (12/212, 5.7%). About a quarter of the

  16. What Are We Looking for in Computer-Based Learning Interventions in Medical Education? A Systematic Review.

    Science.gov (United States)

    Taveira-Gomes, Tiago; Ferreira, Patrícia; Taveira-Gomes, Isabel; Severo, Milton; Ferreira, Maria Amélia

    2016-08-01

    Computer-based learning (CBL) has been widely used in medical education, and reports regarding its usage and effectiveness have ranged broadly. Most work has been done on the effectiveness of CBL approaches versus traditional methods, and little has been done on the comparative effects of CBL versus CBL methodologies. These findings urged other authors to recommend such studies in hopes of improving knowledge about which CBL methods work best in which settings. In this systematic review, we aimed to characterize recent studies of the development of software platforms and interventions in medical education, search for common points among studies, and assess whether recommendations for CBL research are being taken into consideration. We conducted a systematic review of the literature published from 2003 through 2013. We included studies written in English, specifically in medical education, regarding either the development of instructional software or interventions using instructional software, during training or practice, that reported learner attitudes, satisfaction, knowledge, skills, or software usage. We conducted 2 latent class analyses to group articles according to platform features and intervention characteristics. In addition, we analyzed references and citations for abstracted articles. We analyzed 251 articles. The number of publications rose over time, and they encompassed most medical disciplines, learning settings, and training levels, totaling 25 different platforms specifically for medical education. We uncovered 4 latent classes for educational software, characteristically making use of multimedia (115/251, 45.8%), text (64/251, 25.5%), Web conferencing (54/251, 21.5%), and instructional design principles (18/251, 7.2%). We found 3 classes for intervention outcomes: knowledge and attitudes (175/212, 82.6%), knowledge, attitudes, and skills (11.8%), and online activity (12/212, 5.7%). About a quarter of the articles (58/227, 25.6%) did not hold

  17. A national stakeholder consensus study of challenges and priorities for clinical learning environments in postgraduate medical education

    Directory of Open Access Journals (Sweden)

    Caroline Kilty

    2017-11-01

    Full Text Available Abstract Background High quality clinical learning environments (CLE are critical to postgraduate medical education (PGME. The understaffed and overcrowded environments in which many residents work present a significant challenge to learning. The purpose of this study was to develop a national expert group consensus amongst stakeholders in PGME to; (i identify important barriers and facilitators of learning in CLEs and (ii indicate priority areas for improvement. Our objective was to provide information to focus efforts to provide high quality CLEs. Methods Group Concept Mapping (GCM is an integrated mixed methods approach to generating expert group consensus. A multi-disciplinary group of experts were invited to participate in the GCM process via an online platform. Multi-dimensional scaling and hierarchical cluster analysis were used to analyse participant inputs in regard to barriers, facilitators and priorities. Results Participants identified facilitators and barriers in ten domains within clinical learning environments. Domains rated most important were those which related to residents’ connection to and engagement with more senior doctors. Organisation and conditions of work and Time to learn with senior doctors during patient care were rated as the most difficult areas in which to make improvements. Conclusions High quality PGME requires that residents engage and connect with senior doctors during patient care, and that they are valued and supported both as learners and service providers. Academic medicine and health service managers must work together to protect these elements of CLEs, which not only shape learning, but impact quality of care and patient safety.

  18. A national stakeholder consensus study of challenges and priorities for clinical learning environments in postgraduate medical education.

    Science.gov (United States)

    Kilty, Caroline; Wiese, Anel; Bergin, Colm; Flood, Patrick; Fu, Na; Horgan, Mary; Higgins, Agnes; Maher, Bridget; O'Kane, Grainne; Prihodova, Lucia; Slattery, Dubhfeasa; Stoyanov, Slavi; Bennett, Deirdre

    2017-11-22

    High quality clinical learning environments (CLE) are critical to postgraduate medical education (PGME). The understaffed and overcrowded environments in which many residents work present a significant challenge to learning. The purpose of this study was to develop a national expert group consensus amongst stakeholders in PGME to; (i) identify important barriers and facilitators of learning in CLEs and (ii) indicate priority areas for improvement. Our objective was to provide information to focus efforts to provide high quality CLEs. Group Concept Mapping (GCM) is an integrated mixed methods approach to generating expert group consensus. A multi-disciplinary group of experts were invited to participate in the GCM process via an online platform. Multi-dimensional scaling and hierarchical cluster analysis were used to analyse participant inputs in regard to barriers, facilitators and priorities. Participants identified facilitators and barriers in ten domains within clinical learning environments. Domains rated most important were those which related to residents' connection to and engagement with more senior doctors. Organisation and conditions of work and Time to learn with senior doctors during patient care were rated as the most difficult areas in which to make improvements. High quality PGME requires that residents engage and connect with senior doctors during patient care, and that they are valued and supported both as learners and service providers. Academic medicine and health service managers must work together to protect these elements of CLEs, which not only shape learning, but impact quality of care and patient safety.

  19. Student-centred learning in Community Medicine: An experience from Jawaharlal Institute of Postgraduate Medical Education and Research, Puducherry.

    Science.gov (United States)

    Kar, S S; Premarajan, K C; L, Subitha; Archana, R; Iswarya, S; A, Sujiv

    2014-01-01

    Student-centred learning (SCL) places the student at the centre of policies, practices and decision-making in the teaching-learning process. SCL methodology also advocates active involvement of students in the curriculum planning, selection of teaching-learning methods and assessment process. We planned an education innovation project to assess the perception of fifth semester undergraduate medical students towards implementation of an SCL methodology. The study was done among 87 fifth semester undergraduate medical students (batch of 2010-11) in the noncommunicable disease epidemiology section of Community Medicine at the Jawaharlal Institute of Postgraduate Medical Education and Research (JIPMER), Puducherry. The students divided themselves into seven groups and developed the learning objectives, selected teaching-learning methods and assessment process for each session. The facilitators had 3-5 rounds of interaction with each group before the session. Qualitative analysis of feedback collected from students and external faculty after each session was done. The effect of implementing the SCL methodology was assessed by the reaction level of Kirkpatrick's training evaluation model by using a rating scale Results. Of the 87 eligible students, 73 (83.9%) returned the forms for evaluation. All seven groups were able to formulate the learning objectives. Most of the groups had used PowerPoint slides and videos as a teaching-learning tool. Innovative assessment methods such as crosswords and 'chocopati' were used by some groups. In general, the perception of students was favourable towards SCL compared to conventional methods and they felt that this methodology should be adopted more often. Time management and organization of sessions were the main problems encountered by the students. The mean (SD) score for the items 'sessions were useful', 'sessions were enjoyable' and 'sessions improved my knowledge' were 6.2 (1.8), 7.1 (1.8) and 6.3 (1.9), respectively. The

  20. Global faculty development: lessons learned from the Foundation for Advancement of International Medical Education and Research (FAIMER) initiatives.

    Science.gov (United States)

    Burdick, William P

    2014-08-01

    Foundation for Advancement of International Medical Education and Research (FAIMER) faculty development programs have operated since 2001 and are designed to overcome many of the challenges inherent in global health collaborations, including alignment with local needs, avoiding persistent dependency, and development of trust. FAIMER fellowship programs, developed for midcareer faculty members in all health professions from around the world, share goals of strengthening knowledge and skills in education leadership, education methods, and project management and evaluation. Building community is another explicit goal that allows participants to support and learn from each other.The author recommends several practices for successful international collaborations based on 13 years of experience with FAIMER fellowships. These include using authentic education projects to maintain alignment with local needs and apply newly acquired knowledge and skills, teaching leadership across cultures with careful communication and adaptation of concepts to local environments, cultivating a strong field of health professions education to promote diffusion of ideas and advocate for policy change, intentionally promoting field development and leadership to reduce dependency, giving generously of time and resources, learning from others as much as teaching others, and recognizing that effective partnerships revolve around personal relationships to build trust. These strategies have enabled the FAIMER fellowship programs to stay aligned with local needs, reduce dependency, and maintain trust.

  1. How educational innovations and attention to competencies in postgraduate medical education relate to preparedness for practice: the key role of the learning environment.

    Science.gov (United States)

    Dijkstra, Ids S; Pols, Jan; Remmelts, Pine; Rietzschel, Eric F; Cohen-Schotanus, Janke; Brand, Paul L P

    2015-12-01

    Many training programmes in postgraduate medical education (PGME) have introduced competency frameworks, but the effects of this change on preparedness for practice are unknown. Therefore, we explored how elements of competency-based programmes in PGME (educational innovations, attention to competencies and learning environment) were related to perceived preparedness for practice among new consultants. A questionnaire was distributed among 330 new consultants. Respondents rated how well their PGME training programme prepared them for practice, the extent to which educational innovations (portfolio, Mini-CEX) were implemented, and how much attention was paid to CanMEDS competencies during feedback and coaching, and they answered questions on the learning environment and general self-efficacy. Multiple regression and mediation analyses were used to analyze data. The response rate was 43 % (143/330). Controlling for self-efficacy and gender, the learning environment was the strongest predictor of preparedness for practice (B = 0.42, p competencies (B = 0.29, p competencies mediated the relationship between educational innovations and preparedness for practice. This mediation became stronger at higher learning environment values. The learning environment plays a key role in determining the degree to which competency-based PGME prepares trainees for independent practice.

  2. MO-DE-BRA-02: From Teaching to Learning: Systems-Based-Practice and Practice-Based-Learning Innovations in Medical Physics Education Programs

    Energy Technology Data Exchange (ETDEWEB)

    Kapur, A [North Shore-LIJ Health System, New Hyde Park, NY (United States)

    2015-06-15

    Purpose: The increasing complexity in the field of radiation medicine and concomitant rise in patient safety concerns call for enhanced systems-level training for future medical physicists and thus commensurate innovations in existing educational program curricula. In this work we report on the introduction of three learning opportunities to augment medical physics educational programs towards building systems-based practice and practice-based learning competencies. Methods: All initiatives were introduced for senior -level graduate students and physics residents in an institution with a newly established medical-physics graduate program and therapeutic-physics residency program. The first, centered on incident learning, was based on a spreadsheet tool that incorporated the reporting structure of the Radiation Oncology-incident Learning System (ROILS), included 120 narratives of published incidents and enabled inter-rater variability calculations. The second, centered on best-practices, was a zero-credit seminar course, where students summarized select presentations from the AAPM virtual library on a weekly basis and moderated class discussions using a point/counterpoint approach. Presentation styles were critiqued. The third; centered on learning-by-teaching, required physics residents to regularly explain fundamental concepts in radiological physics from standard textbooks to board certified physics faculty members. Results: Use of the incident-learning system spreadsheet provided a platform to recast known accidents into the framework of ROILS, thereby increasing awareness of factors contributing to unsafe practice and appreciation for inter-rater variability. The seminar course enhanced awareness of best practices, the effectiveness of presentation styles and encouraged critical thinking. The learn-by-teaching rotation allowed residents to stay abreast of and deepen their knowledge of relevant subjects. Conclusion: The incorporation of systems

  3. MO-DE-BRA-02: From Teaching to Learning: Systems-Based-Practice and Practice-Based-Learning Innovations in Medical Physics Education Programs

    International Nuclear Information System (INIS)

    Kapur, A

    2015-01-01

    Purpose: The increasing complexity in the field of radiation medicine and concomitant rise in patient safety concerns call for enhanced systems-level training for future medical physicists and thus commensurate innovations in existing educational program curricula. In this work we report on the introduction of three learning opportunities to augment medical physics educational programs towards building systems-based practice and practice-based learning competencies. Methods: All initiatives were introduced for senior -level graduate students and physics residents in an institution with a newly established medical-physics graduate program and therapeutic-physics residency program. The first, centered on incident learning, was based on a spreadsheet tool that incorporated the reporting structure of the Radiation Oncology-incident Learning System (ROILS), included 120 narratives of published incidents and enabled inter-rater variability calculations. The second, centered on best-practices, was a zero-credit seminar course, where students summarized select presentations from the AAPM virtual library on a weekly basis and moderated class discussions using a point/counterpoint approach. Presentation styles were critiqued. The third; centered on learning-by-teaching, required physics residents to regularly explain fundamental concepts in radiological physics from standard textbooks to board certified physics faculty members. Results: Use of the incident-learning system spreadsheet provided a platform to recast known accidents into the framework of ROILS, thereby increasing awareness of factors contributing to unsafe practice and appreciation for inter-rater variability. The seminar course enhanced awareness of best practices, the effectiveness of presentation styles and encouraged critical thinking. The learn-by-teaching rotation allowed residents to stay abreast of and deepen their knowledge of relevant subjects. Conclusion: The incorporation of systems

  4. The Learning Environment Counts: Longitudinal Qualitative Analysis of Study Strategies Adopted by First-Year Medical Students in a Competency-Based Educational Program.

    Science.gov (United States)

    Bierer, S Beth; Dannefer, Elaine F

    2016-11-01

    The move toward competency-based education will require medical schools and postgraduate training programs to restructure learning environments to motivate trainees to take personal ownership for learning. This qualitative study explores how medical students select and implement study strategies while enrolled in a unique, nontraditional program that emphasizes reflection on performance and competence rather than relying on high-stakes examinations or grades to motivate students to learn and excel. Fourteen first-year medical students volunteered to participate in three, 45-minute interviews (42 overall) scheduled three months apart during 2013-2014. Two medical educators used structured interview guides to solicit students' previous assessment experiences, preferred learning strategies, and performance monitoring processes. Interviews were digitally recorded and transcribed verbatim. Participants confirmed accuracy of transcripts. Researchers independently read transcripts and met regularly to discuss transcripts and judge when themes achieved saturation. Medical students can adopt an assessment for learning mind-set with faculty guidance and implement appropriate study strategies for mastery-learning demands. Though students developed new strategies at different rates during the year, they all eventually identified study and performance monitoring strategies to meet learning needs. Students who had diverse learning experiences in college embraced mastery-based study strategies sooner than peers after recognizing that the learning environment did not reward performance-based strategies. Medical students can take ownership for their learning and implement specific strategies to regulate behavior when learning environments contain building blocks emphasized in self-determination theory. Findings should generalize to educational programs seeking strategies to design learning environments that promote self-regulated learning.

  5. Lab Safety and Bioterrorism Readiness Curricula Using Active Learning and Hands-on Strategies as Continuing Education for Medical Technologists

    Directory of Open Access Journals (Sweden)

    Steven Fiester

    2010-04-01

    Full Text Available Frequent reports of laboratory- (and hospital- acquired infection suggest a deficiency in safety training or lack of compliance. To assess the need for continuing education (CE addressing this problem, an original education needs assessment survey was designed and administered to medical technologists (med-techs in Northeast Ohio. Survey results were used to design a learner-centered training curriculum (for example, Lab Safety and Bioterrorism Readiness trainings that engaged med-techs in active learning, integrative peer-to-peer teaching, and hands-on exercises in order to improve microbiology safety knowledge and associated laboratory techniques. The Lab Safety training was delivered six times and the Bioterrorism Readiness training was delivered five times. Pre/posttesting revealed significant gains in knowledge and techniques specific to laboratory safety, security, risk assessment, and bioterrorism readiness amongst the majority of med-techs completing the CE trainings. The majority of participants felt that the hands-on exercises met their needs and that their personal laboratory practices would change as a result of the training course, as measured by attitudinal surveys. We conclude that active learning techniques and peer education significantly enhance microbiology learning amongst participating med-techs.

  6. Possibilities of utilizing blended-learning in the area of language education of medical staff

    Directory of Open Access Journals (Sweden)

    Radka Šulistová

    2014-11-01

    Full Text Available This contribution deals with the presentation of teaching materials created within the IMED-KOMM-EU "Intercultural medical communication inEurope" internet project, having taken place under the leadership of the Institute for Intercultural Communication inGermany(Ansbach,Berlin,Jena,Erfurt. Project target was creating, testing, valorisation and permanent extending of the mentioned teaching materials, testing and certification technologies (ECL for intercultural professional communication of foreign physicians and other medical staff. The target groups involving the already practising professionals, as well as students, should be able to utilize the existing possibilities of communication withinEuropeand to perform their professional activity or studies in the languages, in which the materials are elaborated. As a result, five complete courses of blended-learning were created, which are generally easily accessible at mutually connected web sites in Czech, Slovak, German, Bulgarian and Hungarian. Their core are modules orientated on practice with complex exercises online and offline focused on the medical communication, including the manuals for teachers.

  7. Conditions for excellence in teaching in medical education: The Frankfurt Model to ensure quality in teaching and learning

    Directory of Open Access Journals (Sweden)

    Giesler, Marianne

    2017-10-01

    Full Text Available Background: There is general consensus that the organizational and administrative aspects of academic study programs exert an important influence on teaching and learning. Despite this, no comprehensive framework currently exists to describe the conditions that affect the quality of teaching and learning in medical education. The aim of this paper is to systematically and comprehensively identify these factors to offer academic administrators and decision makers interested in improving teaching a theory-based and, to an extent, empirically founded framework on the basis of which improvements in teaching quality can be identified and implemented.Method: Primarily, the issue was addressed by combining a theory-driven deductive approach with an experience based, “best evidence” one during the course of two workshops held by the GMA Committee on Personnel and Organizational Development in Academic Teaching (POiL in Munich (2013 and Frankfurt (2014. Two models describing the conditions relevant to teaching and learning (Euler/Hahn and Rindermann were critically appraised and synthesized into a new third model. Practical examples of teaching strategies that promote or hinder learning were compiled and added to the categories of this model and, to the extent possible, supported with empirical evidence.Based on this, a checklist with recommendations for optimizing general academic conditions was formulated.Results: The covers six categories: and These categories have been supplemented by the interests, motives and abilities of the actual teachers and students in this particular setting. The categories of this model provide the structure for a checklist in which recommendations for optimizing teaching are given.Conclusions: The checklist derived from the Frankfurt Model for ensuring quality in teaching and learning can be used for quality assurance and to improve the conditions under which teaching and learning take place in medical schools.

  8. Rationing medical education.

    African Journals Online (AJOL)

    This paper discussed the pros and cons of the application of rationing to medical education and the different ... Different types of rationing exist in healthcare professional education. ... state-of-the-art resources, technology and tutors con-.

  9. Medical students' online learning technology needs.

    Science.gov (United States)

    Han, Heeyoung; Nelson, Erica; Wetter, Nathan

    2014-02-01

    This study investigated medical students' online learning technology needs at a medical school. The study aimed to provide evidence-based guidance for technology selection and online learning design in medical education. The authors developed a 120-item survey in collaboration with the New Technology in Medical Education (NTIME) committee at the Southern Illinois University School of Medicine (SIUSOM). Overall, 123 of 290 medical students (42%) at the medical school participated in the survey. The survey focused on five major areas: students' hardware and software use; perception of educational technology (ET) in general; online behaviours; perception of ET use at the school; and demographic information. Students perceived multimedia tools, scheduling tools, communication tools, collaborative authoring tools, learning management systems and electronic health records useful educational technologies for their learning. They did not consider social networking tools useful for their learning, despite their frequent use. Third-year students were less satisfied with current technology integration in the curriculum, information sharing and collaborative learning than other years. Students in clerkships perceived mobile devices as useful for their learning. Students using a mobile device (i.e. a smartphone) go online, text message, visit social networking sites and are online during classes more frequently than non-users. Medical students' ET needs differ between preclinical and clinical years. Technology supporting ubiquitous mobile learning and health information technology (HIT) systems at hospitals and out-patient clinics can be integrated into clerkship curricula. © 2014 John Wiley & Sons Ltd.

  10. Ultrasound imaging in medical student education: Impact on learning anatomy and physical diagnosis.

    Science.gov (United States)

    So, Sokpoleak; Patel, Rita M; Orebaugh, Steven L

    2017-03-01

    Ultrasound use has expanded dramatically among the medical specialties for diagnostic and interventional purposes, due to its affordability, portability, and practicality. This imaging modality, which permits real-time visualization of anatomic structures and relationships in vivo, holds potential for pre-clinical instruction of students in anatomy and physical diagnosis, as well as providing a bridge to the eventual use of bedside ultrasound by clinicians to assess patients and guide invasive procedures. In many studies, but not all, improved understanding of anatomy has been demonstrated, and in others, improved accuracy in selected aspects of physical diagnosis is evident. Most students have expressed a highly favorable impression of this technology for anatomy education when surveyed. Logistic issues or obstacles to the integration of ultrasound imaging into anatomy teaching appear to be readily overcome. The enthusiasm of students and anatomists for teaching with ultrasound has led to widespread implementation of ultrasound-based teaching initiatives in medical schools the world over, including some with integration throughout the entire curriculum; a trend that likely will continue to grow. Anat Sci Educ 10: 176-189. © 2016 American Association of Anatomists. © 2016 American Association of Anatomists.

  11. Furthering Medical Education in Texas.

    Science.gov (United States)

    Varma, Surendra K; Jennings, John

    2016-02-01

    Medical education in Texas is moving in the right direction. The Texas Medical Association has been a major partner in advancing medical education initiatives. This special symposium issue on medical education examines residency training costs, the Next Accreditation System, graduate medical education in rural Texas, Texas' physician workforce needs, the current state of education reform, and efforts to retain medical graduates in Texas.

  12. Simulation based virtual learning environment in medical genetics counseling: an example of bridging the gap between theory and practice in medical education.

    Science.gov (United States)

    Makransky, Guido; Bonde, Mads T; Wulff, Julie S G; Wandall, Jakob; Hood, Michelle; Creed, Peter A; Bache, Iben; Silahtaroglu, Asli; Nørremølle, Anne

    2016-03-25

    Simulation based learning environments are designed to improve the quality of medical education by allowing students to interact with patients, diagnostic laboratory procedures, and patient data in a virtual environment. However, few studies have evaluated whether simulation based learning environments increase students' knowledge, intrinsic motivation, and self-efficacy, and help them generalize from laboratory analyses to clinical practice and health decision-making. An entire class of 300 University of Copenhagen first-year undergraduate students, most with a major in medicine, received a 2-h training session in a simulation based learning environment. The main outcomes were pre- to post- changes in knowledge, intrinsic motivation, and self-efficacy, together with post-intervention evaluation of the effect of the simulation on student understanding of everyday clinical practice were demonstrated. Knowledge (Cohen's d = 0.73), intrinsic motivation (d = 0.24), and self-efficacy (d = 0.46) significantly increased from the pre- to post-test. Low knowledge students showed the greatest increases in knowledge (d = 3.35) and self-efficacy (d = 0.61), but a non-significant increase in intrinsic motivation (d = 0.22). The medium and high knowledge students showed significant increases in knowledge (d = 1.45 and 0.36, respectively), motivation (d = 0.22 and 0.31), and self-efficacy (d = 0.36 and 0.52, respectively). Additionally, 90 % of students reported a greater understanding of medical genetics, 82 % thought that medical genetics was more interesting, 93 % indicated that they were more interested and motivated, and had gained confidence by having experienced working on a case story that resembled the real working situation of a doctor, and 78 % indicated that they would feel more confident counseling a patient after the simulation. The simulation based learning environment increased students' learning, intrinsic motivation, and

  13. Developing virtual patients for medical microbiology education.

    Science.gov (United States)

    McCarthy, David; O'Gorman, Ciaran; Gormley, Gerry J

    2013-12-01

    The landscape of medical education is changing as students embrace the accessibility and interactivity of e-learning. Virtual patients are e-learning resources that may be used to advance microbiology education. Although the development of virtual patients has been widely considered, here we aim to provide a coherent approach for clinical educators. Copyright © 2013 Elsevier Ltd. All rights reserved.

  14. The cognitive impact of interactive design features for learning complex materials in medical education.

    Science.gov (United States)

    Song, Hyuksoon S; Pusic, Martin; Nick, Michael W; Sarpel, Umut; Plass, Jan L; Kalet, Adina L

    2014-02-01

    To identify the most effective way for medical students to interact with a browser-based learning module on the symptoms and neurological underpinnings of stroke syndromes, this study manipulated the way in which subjects interacted with a graphical model of the brain and examined the impact of functional changes on learning outcomes. It was hypothesized that behavioral interactions that were behaviorally more engaging and which required deeper consideration of the model would result in heightened cognitive interaction and better learning than those whose manipulation required less deliberate behavioral and cognitive processing. One hundred forty four students were randomly assigned to four conditions whose model controls incorporated features that required different levels of behavioral and cognitive interaction: Movie (low behavioral/low cognitive, n = 40), Slider (high behavioral/low cognitive, n = 36), Click (low behavioral/high cognitive, n = 30), and Drag (high behavioral/high cognitive, n = 38). Analysis of Covariates (ANCOVA) showed that students who received the treatments associated with lower cognitive interactivity (Movie and Slider) performed better on a transfer task than those receiving the module associated with high cognitive interactivity (Click and Drag, partial eta squared = .03). In addition, the students in the high cognitive interactivity conditions spent significantly more time on the stroke locator activity than other conditions (partial eta squared = .36). The results suggest that interaction with controls that were tightly coupled with the model and whose manipulation required deliberate consideration of the model's features may have overtaxed subjects' cognitive resources. Cognitive effort that facilitated manipulation of content, though directed at the model, may have resulted in extraneous cognitive load, impeding subjects in recognizing the deeper, global relationships in the materials. Instructional designers must, therefore, keep in

  15. Managed medical education?

    Science.gov (United States)

    Hafferty, F W

    1999-09-01

    The forces of rationality and commodification, hallmarks of the managed care revolution, may soon breach the walls of organized medical education. Whispers are beginning to circulate that the cost of educating future physicians is too high. Simultaneously, managed care companies are accusing medical education of turning out trainees unprepared to practice in a managed care environment. Changes evident in other occupational and service delivery sectors of U.S. society as diverse as pre-college education and prisons provide telling insights into what may be in store for medical educators. Returning to academic medicine, the author reflects that because corporate managed care is already established in teaching hospitals, and because managed research (e.g., corporate-sponsored and -run drug trials, for-profit drug-study centers, and contract research organizations) is increasing, managed medical education could become a reality as well. Medical education has made itself vulnerable to the intrusion of corporate rationalizers because it has failed to professionalism at core of its curricula-something only it is able to do--and instead has focused unduly on the transmission of esoteric knowledge and core clinical skills, a process that can be carried out more efficiently, more effectively, and less expensively by other players in the medical education marketplace such as Kaplan, Compass, or the Princeton Review. The author explains why reorganizing medical education around professional values is crucial, why the AAMC's Medical School Objectives Project offers guidance in this area, why making this change will be difficult, and why medical education must lead in establishing how to document the presence and absence of such qualities as altruism and dutifulness and the ways that appropriate medical education can foster these and similar core competencies. "Anything less and organized medicine will acknowledged... that it has abandoned its social contract and entered the

  16. Archives: Continuing Medical Education

    African Journals Online (AJOL)

    Items 51 - 88 of 88 ... Archives: Continuing Medical Education. Journal Home > Archives: Continuing Medical Education. Log in or Register to get access to full text downloads. Username, Password, Remember me, or Register · Journal Home · ABOUT THIS JOURNAL · Advanced Search · Current Issue · Archives. 51 - 88 of 88 ...

  17. Helping students with learning difficulties in medical and health-care education.

    Science.gov (United States)

    Coles, C R

    1990-05-01

    In health profession education many more students than is currently acknowledged experience often extreme difficulties with their studying. This booklet is intended to help them. It outlines an approach being adopted in the Faculty of Medicine at the University of Southampton by which students are encouraged to reflect on and discuss their approaches to studying, identifying their perception of their task and where necessary changing this. It is shown that students need to elaborate their knowledge, that is to structure the factual information they are receiving and to relate it to their practical experiences. A number of suggestions are made to encourage this, and their theoretical underpinnings are discussed. It is concluded that while inappropriate curricula and teaching methods and not some weakness on the part of students are largely the cause of learning difficulties, it will take time to change these. Establishing a kind of 'clinic' for helping students cope can be of value immediately.

  18. Applicability of the theory of planned behavior in explaining the general practitioners eLearning use in continuing medical education.

    Science.gov (United States)

    Hadadgar, Arash; Changiz, Tahereh; Masiello, Italo; Dehghani, Zahra; Mirshahzadeh, Nahidossadat; Zary, Nabil

    2016-08-22

    General practitioners (GP) update their knowledge and skills by participating in continuing medical education (CME) programs either in a traditional or an e-Learning format. GPs' beliefs about electronic format of CME have been studied but without an explicit theoretical framework which makes the findings difficult to interpret. In other health disciplines, researchers used theory of planned behavior (TPB) to predict user's behavior. In this study, an instrument was developed to investigate GPs' intention to use e-Learning in CME based on TPB. The goodness of fit of TPB was measured using confirmatory factor analysis and the relationship between latent variables was assessed using structural equation modeling. A total of 148 GPs participated in the study. Most of the items in the questionnaire related well to the TPB theoretical constructs, and the model had good fitness. The perceived behavioral control and attitudinal constructs were included, and the subjective norms construct was excluded from the structural model. The developed questionnaire could explain 66 % of the GPs' intention variance. The TPB could be used as a model to construct instruments that investigate GPs' intention to participate in e-Learning programs in CME. The findings from the study will encourage CME managers and researchers to explore the developed instrument as a mean to explain and improve the GPs' intentions to use eLearning in CME.

  19. Empathy in Psychoanalysis and Medical Education - what can we learn from each other?

    Science.gov (United States)

    Löffler-Stastka, Henriette; Datz, Felicitas; Parth, Karoline; Preusche, Ingrid; Bukowski, Xenia; Seidman, Charles

    2017-05-02

    Several research areas, including medical education (ME), focus on empathy as an important topic in interpersonal relationships. This focus is central to the use of communication skills related to empathy and even more crucial to provide information in a way that makes patients feel more involved in the treatment process. Psychoanalysis (PA) provides its initial concept of empathy based on affective aspects including findings from neuroscience and brain research. Enhancing cooperation between ME and PA can help to integrate both aspects of empathy into a longitudinal training program. The condition of psychoanalytic empathy definitions is the understanding of unconscious processes. It is important to primarily attend especially the dominant affects towards the patient before interpreting his or her behaviour, since in explaining the emerging affects, the analyst has to empathize with the patient to understand the (unconscious) reasons for its behaviour. A strong consideration of nonverbal communication, clinical perceptions, intuitive interaction, contagion-like processes and their implementation and empowerment in medical and therapeutic curricula is one way of beneficially using interdisciplinary approaches to yield empathy in clinical interaction. Established methods of PA, like training of containment, reflective functioning, affective holding and giving meaningful interpretations in accordance with countertransferential and transferential aspects may help to put a focus on the clinican-patient-interaction and the preservation of the physicians' (mental) health. In consequence of the discussion of various training methods that take the theoretical and practical concepts of empathy into account, we aim for an implementation of the named methods in the medical curricula.

  20. Gender matters in medical education.

    Science.gov (United States)

    Bleakley, Alan

    2013-01-01

    Women are in the majority in terms of entry to medical schools worldwide and will soon represent the majority of working doctors. This has been termed the 'feminising' of medicine. In medical education, such gender issues tend to be restricted to discussions of demographic changes and structural inequalities based on a biological reading of gender. However, in contemporary social sciences, gender theory has moved beyond both biology and demography to include cultural issues of gendered ways of thinking. Can contemporary feminist thought drawn from the social sciences help medical educators to widen their appreciation and understanding of the feminising of medicine? Post-structuralist feminist critique, drawn from the social sciences, focuses on cultural practices, such as language use, that support a dominant patriarchy. Such a critique is not exclusive to women, but may be described as supporting a tender-minded approach to practice that is shared by both women and men. The demographic feminising of medicine may have limited effect in terms of changing both medical culture and medical education practices without causing radical change to entrenched cultural habits that are best described as patriarchal. Medical education currently suffers from male biases, such as those imposed by 'andragogy', or adult learning theory, and these can be positively challenged through post-structuralist feminist critique. Women doctors entering the medical workforce can resist and reformulate the current dominant patriarchy rather than reproducing it, supported by male feminists. Such a feminising of medicine can extend to medical education, but will require an appropriate theoretical framework to make sense of the new territory. The feminising of medical education informed by post-structuralist frameworks may provide a platform for the democratisation of medical culture and practices, further informing authentic patient-centred practices of care. © Blackwell Publishing Ltd 2013.

  1. [Can medical students' motivation for a course of basic physiology education integrating into lectures some active learning methods be improved?

    Science.gov (United States)

    Bentata, Yassamine; Delfosse, Catherine

    2017-01-01

    Students' motivation is a critical component of learning and students' perception of activity value is one of the three major components of their motivation. How can we make students perceive the usefulness and the interest of their university courses while increasing their motivation? The aim of our study was to determine students' perception of basic physiology education value and to assess the impact of lecture integration into some active learning methods on the motivation of the students of the first cycle of Medicine in a junior faculty. We conducted a prospective study, involving the students in their second year of medical studies. At first, we assessed students' motivation for university courses through a first questionnaire, after we integrated two educational activities: the case study and the realization of a conceptual map for the lectures of the physiology module and then we evaluated, through a second questionnaire, the impact of these two activities on students' motivation. Out of 249 students in their second year of medical studies 131 and 109 students have completed and returned the 1st and 2nd questionnaire respectively. Overall students' motivation for their university courses was very favorable, even if the motivation for physiology course (70.8%) was slightly lower than for all the courses (80%). Our students enjoyed the two proposed activities and only 13% (for the case study) and 16.8% (for the map) were not satisfied. 40.9% of students completed a conceptual map whose quality judged on the identification of concepts and of the links between concepts was globally satisfactory for a first experience. Students' motivation is influenced by multiple internal and external factors and is a big problem in the university environment. In this context, a rigorous planning of diversified and active educational activities is one of the main gateways for teacher to encourage motivation.

  2. Nationaler Kompetenzbasierter Lernzielkatalog Medizin (NKLM für Deutschland: Zusammenarbeit der Gesellschaft für Medizinische Ausbildung (GMA und des Medizinischen Fakultätentages (MFT [National Competence-Based Learning Objectives for Undergraduate Medical Education (NKLM in Germany: Cooperation of the Association for Medical Education (GMA and the Association of Medical Faculties in Germany (MFT

    Directory of Open Access Journals (Sweden)

    Hahn, Eckhart G.

    2009-08-01

    Full Text Available [english] The Framework for Qualifications of the European Higher Education Area (FQ-EHEA; Bologna Process and the European Qualifications Framework for Lifelong Learning (EQF-LLL; Lisbon Process are competence-driven frameworks for vocational and higher education programmes in need for defined learning objectives. In the field of medical education, The Netherlands and Switzerland have developed national catalogues for undergraduate medical training, which are competence-based and compatible with a two-cycle curriculum comprised of a Bachelor in Medicine and a Master in Medicine. In Germany, virtually all medical organizations, last not least the Association of Medical Faculties (MFT, have voted against the application of the two-cycle (and the three-cycle curriculum to medical undergraduate education. A standstill of the European processes will not be accepted in the political arena, and a proposition was made by the Conference of German Ministers of Higher Education to develop a medical qualification framework for Germany, asking the Association for Medical Education (GMA and the MFT to join forces. This is not possible without consented national learning objectives derived from the professional context of physicians. The GMA has teamed up with the MFT to develop National Competence-Based Learning Objectives for Undergraduate Medical Education (NKLM in Germany (see Figure 1 to fulfill these needs.

  3. Are online learning modules an effective way to deliver hand trauma management continuing medical education to emergency physicians?

    Science.gov (United States)

    Williams, Jason G

    2014-01-01

    The enormity of modern medical knowledge and the rapidity of change have created increased need for ongoing or continuing medical education (CME) for physicians. Online CME is attractive for its availability at any time and any place, low cost and potentially increased effectiveness compared with traditional face-to-face delivery. To determine whether online CME modules are an effective method for delivering plastic surgery CME to primary care physicians. A needs assessment survey was conducted among all emergency and family physicians in Nova Scotia. Results indicated that this type of program was appealing, and that hand trauma related topics were most desired for CME. 7 Lesson Builder (SoftChalk LLC, www.softchalk.com) was used to construct a multimedia e-learning module that was distributed along with a pretest, post-test and feedback questionnaire. Quantitative (pre- and post-test scores) and qualitative (feedback responses) data were analyzed. The 32 participants who completed the study indicated that it was a positive and enjoyable experience, and that there was a need for more resources like this. Compared with pretest scores, there was a significant gain in knowledge following completion of the module (P=0.001). The present study demonstrated that an e-learning format is attractive for this population and effective in increasing knowledge. This positive outcome will lead to development of additional modules.

  4. Digital Game-Based Learning: A Supplement for Medication Calculation Drills in Nurse Education

    Science.gov (United States)

    Foss, Brynjar; Lokken, Atle; Leland, Arne; Stordalen, Jorn; Mordt, Petter; Oftedal, Bjorg F.

    2014-01-01

    Student nurses, globally, appear to struggle with medication calculations. In order to improve these skills among student nurses, the authors developed The Medication Game--an online computer game that aims to provide simple mathematical and medical calculation drills, and help students practise standard medical units and expressions. The aim of…

  5. Collaborative diagramming during problem based learning in medical education: Do computerized diagrams support basic science knowledge construction?

    Science.gov (United States)

    De Leng, Bas; Gijlers, Hannie

    2015-05-01

    To examine how collaborative diagramming affects discussion and knowledge construction when learning complex basic science topics in medical education, including its effectiveness in the reformulation phase of problem-based learning. Opinions and perceptions of students (n = 70) and tutors (n = 4) who used collaborative diagramming in tutorial groups were collected with a questionnaire and focus group discussions. A framework derived from the analysis of discourse in computer-supported collaborative leaning was used to construct the questionnaire. Video observations were used during the focus group discussions. Both students and tutors felt that collaborative diagramming positively affected discussion and knowledge construction. Students particularly appreciated that diagrams helped them to structure knowledge, to develop an overview of topics, and stimulated them to find relationships between topics. Tutors emphasized that diagramming increased interaction and enhanced the focus and detail of the discussion. Favourable conditions were the following: working with a shared whiteboard, using a diagram format that facilitated distribution, and applying half filled-in diagrams for non-content expert tutors and\\or for heterogeneous groups with low achieving students. The empirical findings in this study support the findings of earlier more descriptive studies that diagramming in a collaborative setting is valuable for learning complex knowledge in medicine.

  6. Continuing Medical Education

    African Journals Online (AJOL)

    Continuing Medical Education. Journal Home · ABOUT THIS JOURNAL · Advanced Search · Current Issue · Archives · Journal Home > Vol 25, No 9 (2007) >. Log in or Register to get access to full text downloads.

  7. E-learning for medical education: reflections of learners on patients.

    Science.gov (United States)

    Walsh, Kieran

    2018-01-01

    There is a growing research interest in how healthcare professionals learn online. This paper reports an analysis of reflections that relate to patients from users of an e-learning resource, BMJ Learning. Healthcare professionals who use BMJ Learning are encouraged to reflect on their learning. Over one year, all of the learners' reflections that related to patients were captured by the programme's software and were analysed using thematic analysis. A number of key themes emerged from this analysis: many learners reflected on patients in the context of their disease; many learners reflected on how they had put their learning into action or planned to put their learning into action for the benefit of patients; many learners reflected on how they would pass on what they had learned to patients; learners greatly appreciated patients contributing to the learning. Learners predominantly reflect about patients in the context of their disease. The reflections demonstrate that learners are keen to put their learning into action for the benefit of their patients. Learners' reflections show a keen interest in the patient-centredness of the learning resources.

  8. Machine learning and medical imaging

    CERN Document Server

    Shen, Dinggang; Sabuncu, Mert

    2016-01-01

    Machine Learning and Medical Imaging presents state-of- the-art machine learning methods in medical image analysis. It first summarizes cutting-edge machine learning algorithms in medical imaging, including not only classical probabilistic modeling and learning methods, but also recent breakthroughs in deep learning, sparse representation/coding, and big data hashing. In the second part leading research groups around the world present a wide spectrum of machine learning methods with application to different medical imaging modalities, clinical domains, and organs. The biomedical imaging modalities include ultrasound, magnetic resonance imaging (MRI), computed tomography (CT), histology, and microscopy images. The targeted organs span the lung, liver, brain, and prostate, while there is also a treatment of examining genetic associations. Machine Learning and Medical Imaging is an ideal reference for medical imaging researchers, industry scientists and engineers, advanced undergraduate and graduate students, a...

  9. Pediatric hospitalists and medical education.

    Science.gov (United States)

    Ottolini, Mary C

    2014-07-01

    Pediatric hospital medicine (PHM) is moving toward becoming an American Board of Pediatrics (ABP) subspecialty, roughly a decade after its formal inception in 2003. Education has played a central role as the field has evolved. Hospitalists are needed to educate trainees, medical students, residents, fellows, and nurse practitioner and physician assistant students in inpatient pediatric practice. Continuous professional development is needed for hospitalists currently in practice to augment clinical skills, such as providing sedation and placing peripherally inserted central catheter lines, and nonclinical skills in areas such as quality improvement methodology, hospital administration, and health service research. To address the educational needs of the current and future state of PHM, additional training is now needed beyond residency training. Fellowship training will be essential to continue to advance the field of PHM as well as to petition the ABP for specialty accreditation. Training in using adult educational theory, curriculum, and assessment design are critical for pediatric hospitalists choosing to advance their careers as clinician-educators. Several venues are available for gaining advanced knowledge and skill as an educator. PHM clinician-educators are advancing the field of pediatric education as well as their own academic careers by virtue of the scholarly approach they have taken to designing and implementing curricula for unique PHM teaching situations. PHM educators are changing the educational paradigm to address challenges to traditional education strategies posed by duty hour restrictions and the increasing drive to shorten the duration of the hospitalization. By embracing learning with technology, such as simulation and e-learning with mobile devices, PHM educators can address these challenges as well as respond to learning preferences of millennial learners. The future for PHM education is bright. Copyright 2014, SLACK Incorporated.

  10. E-Learning and Medical Residents, a Qualitative Perspective

    Science.gov (United States)

    Segerman, Jill; Crable, Elaine; Brodzinski, James

    2016-01-01

    Medical education helps ensure doctors acquire skills and knowledge needed to care for patients. However, resident duty hour restrictions have impacted the time residents have available for medical education, leaving resident educators searching for alternate options for effective medical education. Classroom situated e-learning, a blended…

  11. Exploration of preferred learning styles in medical education using VARK modal

    OpenAIRE

    Laxman Khanal; Sandip Shah; Sarun Koirala

    2014-01-01

    Learning styles is a term used to refer to the methods of gathering, processing, interpreting, organizing and thinking about information. Students have different learning styles, which is the reason for the diversity seen in classrooms in regards to how students acquire information. Claxton and Murrell had divided the learning styles into the following four categories: personality models, information-processing models, social-interaction models, and instructional preferences models. VARK (an ...

  12. How To Assess and Improve Quality of Medical Education: Lessons Learned from Faculty of Medicine in Sarajevo

    Directory of Open Access Journals (Sweden)

    Izet Mašić

    2008-02-01

    Full Text Available There is no such science as medicine where half life is 7 years, what means that in 3-4 years 50% of current knowledge will be wrong. If doctors use old techniques and methods then they will cure patients wrongly. Very fast and rapid increase of biomedical sciences and medical information in certain way force medical professionals to continuity learning in order to stay update. In this project a quantitative method of examination has been used. For the purposes of the research a survey questionnaires were created consisted of 28, 35 and 18 questions for all three groups of examinees. Beside general characteristics (sex, age, faculty, and year of studies the questionnaire included questions referring to the variables of structure, process and results in the system of education. Authors used Lickert five degree scale for the evaluation. Total of 521 students of the faculties of biomedical science in Sarajevo were surveyed; students of the Faculty of Medicine, Faculty of Dental Medicine (Stomatology, Faculty of Pharmacy, Nursing College, students of final year and postgraduate students from Faculty of Medicine, University of Sarajevo. On the basis of survey results authors concluded that the following should be done: The reform needs to be carried out in accordance with possibilities and needs, general faculty rules should include regulations that refer to insuring the quality of education, a continuous quality of studying needs to be insured - internal and external evaluation of the quality of work of respective education institution needs to be carried out, education standards need to be set, i.e. minimum knowledge and skills which a student needs to gain during studies is to be set, curriculums and programs need to be harmonized with countries in the region and Western Europe, Regular evaluation of lecturers needs to be done, Increase of size and content of the practical part of teaching needs to be encouraged

  13. How to assess and improve quality of medical education: lessons learned from Faculty of Medicine in Sarajevo.

    Science.gov (United States)

    Masić, Izet; Novo, Ahmed; Deljković, Sejla; Omerhodzić, Ibrahim; Piralić, Alisa

    2007-02-01

    There is no such science as medicine where half life is 7 years, what means that in 3-4 years 50% of current knowledge will be wrong. If doctors use old techniques and methods then they will cure patients wrongly. Very fast and rapid increase of biomedical sciences and medical information in certain way force medical professionals to continuity learning in order to stay update. In this project a quantitative method of examination has been used. For the purposes of the research a survey questionnaires were created consisted of 28, 35 and 18 questions for all three groups of examinees. Beside general characteristics (sex, age, faculty, and year of studies) the questionnaire included questions referring to the variables of structure, process and results in the system of education. Authors used Lickert five degree scale for the evaluation. Total of 521 students of the faculties of biomedical science in Sarajevo were surveyed; students of the Faculty of Medicine, Faculty of Dental Medicine (Stomatology), Faculty of Pharmacy, Nursing College, students of final year and postgraduate students from Faculty of Medicine, University of Sarajevo. On the basis of survey results authors concluded that the following should be done: The reform needs to be carried out in accordance with possibilities and needs, general faculty rules should include regulations that refer to insuring the quality of education, a continuous quality of studying needs to be insured - internal and external evaluation of the quality of work of respective education institution needs to be carried out, education standards need to be set, i.e. minimum knowledge and skills which a student needs to gain during studies is to be set, curriculums and programs need to be harmonized with countries in the region and Western Europe, Regular evaluation of lecturers needs to be done, Increase of size and content of the practical part of teaching needs to be encouraged as well as distance learning organized on Cathedra

  14. Undergraduate medical education.

    OpenAIRE

    Rees, L; Wass, J

    1993-01-01

    Pressures from students and teachers, from professional bodies, and from changes in the way health care is delivered are all forcing a rethink of how medical students should be taught. These pressures may be more intense in London but are not confined to it. The recommendation the Tomlinson report advocates that has been generally welcomed is for more investment in primary care in London. General practitioners have much to teach medical schools about effective ways of learning, but incentives...

  15. Medical education in Ecuador.

    Science.gov (United States)

    Joffre, Carrillo P; Delgado, Belgica; Kosik, Russell Olive; Huang, Lei; Zhao, Xudong; Su, Tung-Ping; Wang, Shuu-Jiun; Chen, Qi; Fan, Angela Pei-Chen

    2013-12-01

    Ecuador, the smallest of the Andean countries, is located in the northwest portion of South America. The nation's 14.5 million people have a tremendous need for high quality primary care. To describe the profound advances as well as the persistent needs in medical education in Ecuador that have occurred with globalization and with the modernization of the country. Through an extensive search of the literature; medical school data; reports from the Ecuador Ministry of Public Health and Ministry of Education; and information from the National Secretary of Higher Education, Science, and Innovation (SENESCYT), the medical education system in Ecuador has been thoroughly examined. The National System of Higher Education in Ecuador has experienced significant growth over the last 20 years. As of 2009 the system boasts 19 medical schools, all of which offer the required education needed to obtain the title of Physician, but only 12 of which offer postgraduate clinical training. Of these 19 universities, nine are public, five are private and self-financed, and five are private and co-financed. Post-graduate options for medical students include: (1) Clinical specialization, (2) Higher diploma, (3) Course specialization, (4) Master's degree, and (5) PhD degree. The rapid growth of Ecuador's system of medical education has led to inevitable gaps that threaten its ability to sustain itself. Chief among these is the lack of well-trained faculty to supply its medical schools. To ensure an adequate supply of faculty exists, the creation of sufficient postgraduate, sub-specialization, and PhD training positions must be created and maintained.

  16. Medical laboratory science and nursing students' perception of academic learning environment in a Philippine university using Dundee Ready Educational Environment Measure (DREEM).

    Science.gov (United States)

    Barcelo, Jonathan M

    2016-01-01

    This study aimed to compare the perception of the academic learning environment between medical laboratory science students and nursing students at Saint Louis University, Baguio City, Philippines. A cross-sectional survey research design was used to measure the perceptions of the participants. A total of 341 students from the Department of Medical Laboratory Science, School of Natural Sciences, and the School of Nursing answered the Dundee Ready Education Environment Measure (DREEM) instrument from April to May 2016. Responses were compared according to course of study, gender, and year level. The total mean DREEM scores of the medical laboratory science students and nursing students did not differ significantly when grouped according to course of study, gender, or year level. Medical laboratory science students had significantly lower mean scores in the sub-domains 'perception of learning' and 'perception of teaching.' Male medical laboratory science students had significantly lower mean scores in the sub-domain 'perception of learning' among second year students. Medical laboratory science students had significantly lower mean scores in the sub-domain 'perception of learning.' Nursing students identified 7 problem areas, most of which were related to their instructors. Medical laboratory science and nursing students viewed their academic learning environment as 'more positive than negative.' However, the relationship of the nursing instructors to their students needs improvement.

  17. Medical student use of digital learning resources.

    Science.gov (United States)

    Scott, Karen; Morris, Anne; Marais, Ben

    2018-02-01

    University students expect to use technology as part of their studies, yet health professional teachers can struggle with the change in student learning habits fuelled by technology. Our research aimed to document the learning habits of contemporary medical students during a clinical rotation by exploring the use of locally and externally developed digital and print self-directed learning resources, and study groups. We investigated the learning habits of final-stage medical students during their clinical paediatric rotation using mixed methods, involving learning analytics and a student questionnaire. Learning analytics tracked aggregate student usage statistics of locally produced e-learning resources on two learning management systems and mobile learning resources. The questionnaire recorded student-reported use of digital and print learning resources and study groups. The students made extensive use of digital self-directed learning resources, especially in the 2 weeks before the examination, which peaked the day before the written examination. All students used locally produced digital formative assessment, and most (74/98; 76%) also used digital resources developed by other institutions. Most reported finding locally produced e-learning resources beneficial for learning. In terms of traditional forms of self-directed learning, one-third (28/94; 30%) indicated that they never read the course textbook, and few students used face-to-face 39/98 (40%) or online 6/98 (6%) study groups. Learning analytics and student questionnaire data confirmed the extensive use of digital resources for self-directed learning. Through clarification of learning habits and experiences, we think teachers can help students to optimise effective learning strategies; however, the impact of contemporary learning habits on learning efficacy requires further evaluation. Health professional teachers can struggle with the change in student learning habits fuelled by technology. © 2017 John

  18. Simulation-based medical teaching and learning

    Directory of Open Access Journals (Sweden)

    Abdulmohsen H Al-Elq

    2010-01-01

    Full Text Available One of the most important steps in curriculum development is the introduction of simulation- based medical teaching and learning. Simulation is a generic term that refers to an artificial representation of a real world process to achieve educational goals through experiential learning. Simulation based medical education is defined as any educational activity that utilizes simulation aides to replicate clinical scenarios. Although medical simulation is relatively new, simulation has been used for a long time in other high risk professions such as aviation. Medical simulation allows the acquisition of clinical skills through deliberate practice rather than an apprentice style of learning. Simulation tools serve as an alternative to real patients. A trainee can make mistakes and learn from them without the fear of harming the patient. There are different types and classification of simulators and their cost vary according to the degree of their resemblance to the reality, or ′fidelity′. Simulation- based learning is expensive. However, it is cost-effective if utilized properly. Medical simulation has been found to enhance clinical competence at the undergraduate and postgraduate levels. It has also been found to have many advantages that can improve patient safety and reduce health care costs through the improvement of the medical provider′s competencies. The objective of this narrative review article is to highlight the importance of simulation as a new teaching method in undergraduate and postgraduate education.

  19. Teleconferencing in medical education: a useful tool.

    Science.gov (United States)

    Lamba, Pankaj

    2011-01-01

    Education and healthcare are basic needs for human development. Technological innovation has broadened the access to higher quality healthcare and education without regard to time, distance or geopolitical boundaries. Distance learning has gained popularity as a means of learning in recent years due to widely distributed learners, busy schedules and rising travel costs. Teleconferencing is also a very useful tool as a distance learning method.Teleconferencing is a real-time and live interactive programme in which one set of participants are at one or more locations and the other set of participants are at another. The teleconference allows for interaction, including audio and/or video, and possibly other modalities, between at least two sites. Various methods are available for setting up a teleconferencing unit. A detailed review of the trend in the use of teleconferencing in medical education was conducted using Medline and a literature search.Teleconferencing was found to be a very useful tool in continuing medical education (CME), postgraduate medical education, undergraduate medical education, telementoring and many other situations. The use of teleconferencing in medical education has many advantages including savings in terms of travel costs and time. It gives access to the best educational resources and experience without any limitations of boundaries of distance and time. It encourages two-way interactions and facilitates learning in adults. Despite having some pitfalls in its implementation it is now being seen as an important tool in facilitating learning in medicine and many medical schools and institutions are adapting this novel tool.

  20. Choice of outcomes and measurement instruments in randomised trials on eLearning in medical education: a systematic mapping review protocol.

    Science.gov (United States)

    Law, Gloria C; Apfelbacher, Christian; Posadzki, Pawel P; Kemp, Sandra; Tudor Car, Lorainne

    2018-05-17

    There will be a lack of 18 million healthcare workers by 2030. Multiplying the number of well-trained healthcare workers through innovative ways such as eLearning is highly recommended in solving this shortage. However, high heterogeneity of learning outcomes in eLearning systematic reviews reveals a lack of consistency and agreement on core learning outcomes in eLearning for medical education. In addition, there seems to be a lack of validity evidence for measurement instruments used in these trials. This undermines the credibility of these outcome measures and affects the ability to draw accurate and meaningful conclusions. The aim of this research is to address this issue by determining the choice of outcomes, measurement instruments and the prevalence of measurement instruments with validity evidence in randomised trials on eLearning for pre-registration medical education. We will conduct a systematic mapping and review to identify the types of outcomes, the kinds of measurement instruments and the prevalence of validity evidence among measurement instruments in eLearning randomised controlled trials (RCTs) in pre-registration medical education. The search period will be from January 1990 until August 2017. We will consider studies on eLearning for health professionals' education. Two reviewers will extract and manage data independently from the included studies. Data will be analysed and synthesised according to the aim of the review. Appropriate choice of outcomes and measurement tools is essential for ensuring high-quality research in the field of eLearning and eHealth. The results of this study could have positive implications for other eHealth interventions, including (1) improving quality and credibility of eLearning research, (2) enhancing the quality of digital medical education and (3) informing researchers, academics and curriculum developers about the types of outcomes and validity evidence for measurement instruments used in eLearning studies. The

  1. Use of 3D Printed Models in Medical Education: A Randomized Control Trial Comparing 3D Prints versus Cadaveric Materials for Learning External Cardiac Anatomy

    Science.gov (United States)

    Lim, Kah Heng Alexander; Loo, Zhou Yaw; Goldie, Stephen J.; Adams, Justin W.; McMenamin, Paul G.

    2016-01-01

    Three-dimensional (3D) printing is an emerging technology capable of readily producing accurate anatomical models, however, evidence for the use of 3D prints in medical education remains limited. A study was performed to assess their effectiveness against cadaveric materials for learning external cardiac anatomy. A double blind randomized…

  2. Clarifying the learning experiences of healthcare professionals with in situ and off-site simulation-based medical education: a qualitative study

    NARCIS (Netherlands)

    Sorensen, J.L.; Navne, L.E.; Martin, H.M.; Ottesen, B.; Albrecthsen, C.K.; Pedersen, B.W.; Kjaergaard, H.; Vleuten, C. van der

    2015-01-01

    OBJECTIVE: To examine how the setting in in situ simulation (ISS) and off-site simulation (OSS) in simulation-based medical education affects the perceptions and learning experience of healthcare professionals. DESIGN: Qualitative study using focus groups and content analysis. PARTICIPANTS:

  3. Tele-education as method of medical education.

    Science.gov (United States)

    Masic, Izet; Pandza, Haris; Kulasin, Igor; Masic, Zlatan; Valjevac, Salih

    2009-01-01

    Development of computer networks and introduction and application of new technologies in all aspects of human activity needs to be followed by universities in their transformation on how to approach scientific, research, and education teaching curricula. Development and increased use of distance learning (DL) over the past decade have clearly shown the potential and efficiency of information technology applied in education. Use of information technology in medical education is where medical informatics takes its place as important scientific discipline which ensures benefit from IT in teaching and learning process involved. Definition of telemedicine as "use of technologies based on health care delivered on distance" covers areas such as electronic health, tele-health (eHealth), telematics, but also tele-education. Web based medical education today is offered in different forms--from online lectures, online exams, web based continuous education programs, use of electronic libraries, online medical and scientific databases etc. Department of Medical Informatics of Medical Faculty of University of Sarajevo has taken many steps to introduce distance learning in medical curricula--from organising professional--scientific events (congresses, workshop etc), organizing first tele-exam at the faculty and among first at the university, to offering online lectures and online education material at the Department's website (www.unsa-medinfo.org). Distance learning in medical education, as well as telemedicine, significantly influence health care in general and are shaping the future model of medical practice. Basic computer and networks skills must be a part of all future medical curricula. The impact of technical equipment on patient-doctor relationship must be taken into account, and doctors have to be trained and prepared for diagnosing or consulting patients by use of IT. Telemedicine requires special approach in certain medical fields--tele-consultation, tele

  4. How self-determination theory can assist our understanding of the teaching and learning processes in medical education. AMEE guide No. 59.

    Science.gov (United States)

    Ten Cate, Th J; Kusurkar, Rashmi A; Williams, Geoffrey C

    2011-01-01

    Self-determination Theory (SDT), designed by Edward Deci and Richard Ryan, serves among the current major motivational theories in psychology. SDT research has been conducted in many areas, among which are education and health care, but its applications in medical education are rare. The potential of SDT to help understand processes in medical education justifies this Guide. SDT is explained in seven principles, one of which is the distinction of three innate psychological needs of human beings: for competence, for autonomy and for relatedness. Further, SDT elaborates how humans tend to internalise regulation of behaviour that initially has been external, in order to develop autonomous, self-determined behaviour. Implications of SDT for medical education are discussed with reference to preparation and selection, curriculum structure, classroom teaching, assessments and examinations, self-directed learning, clinical teaching, students as teachers and researchers, continuing professional development, faculty development and stress among trainees.

  5. The relationship between learning style preferences and gender, educational major and status in first year medical students: a survey study from iran.

    Science.gov (United States)

    Sarabi-Asiabar, Ali; Jafari, Mehdi; Sadeghifar, Jamil; Tofighi, Shahram; Zaboli, Rouhollah; Peyman, Hadi; Salimi, Mohammad; Shams, Lida

    2015-01-01

    Identifying and employing appropriate learning styles could play an important role in selecting teaching styles in order to improve education. This study aimed to determine the relationship between learning styles preferences and gender, educational major and status in first year students at Isfahan University of Medical Sciences. A cross-sectional study employing the visual-aural-read/write-kinesthetic (VARK) learning style's questionnaire was done on 184 first year students of medicine, pharmacy, dentistry, nursing and health services management at Isfahan University of Medical Sciences in 2012. The validity of the questionnaire was assessed through experts' views and reliability was calculated using Cronbach's alpha coefficients (α = 0.86). Data were analyzed using the SPSS ver.18 software and x(2) test. Out of 184 participants who responded to and returned the questionnaire, 122 (66.3%) were female; more than two-thirds (68.5%) of the enrolled students were at the professional doctorate level (medicine, pharmacy, dentistry) and 31.5% at the undergraduate level (nursing and health services management). Eighty-nine (48.4%) students preferred a single-modal learning style. In contrast, the remaining 95 students (51.6%) preferred multi-modal learning styles. A significant relationship between gender and single modal learning styles (P = 0.009) and between status and learning styles (P = 0.04) was observed. According to the results, male students preferred to use the kinesthetic learning style more than females, while, female students preferred the aural learning style. Knowledge about the learning styles of students at educational institutes is valuable and helps solve learning problems among students, and allows students to become better learners.

  6. Promissory Concept of medical education

    Directory of Open Access Journals (Sweden)

    Yuriy V. Voronenko

    2015-01-01

    Full Text Available Continuing medical education (CME is a dynamic system, where distance learning is an important component. In this article, we posit the Promissory Concept of distance learning. The central principle upon which this methodology is based is that the doctor can be located in any place where the information needed for his or her practice is easily available to the patient and where the doctor is able to monitor the development of his or her knowledge and practical skills, and is able to build his or her educational record of accomplishment. The Promissory Concept combines the availability of existing online opportunities with professional self-development which can be put to the test by an external supervisor (a professor or curator, who in turn will be able to identify existing advantages in knowledge, as well as those requiring further improvement, thus helping the learner's professional development. This approach was introduced to general practitioners and nephrologists practising in Ukraine in 2013. From 2014, the Promissory Concept has been associated with the Renal Eastern Europe Nephrology Academy's (REENA annual CME course, which has been accredited by ERA-EDTA (European Renal Association–European Dialysis and Transplant Association for the past 8 years. REENA is controlled by the state organisation of postgraduate education – Shupyk National Medical Academy of Postgraduate Education. The Promissory Concept is supported by printed educational material in the scientific medical Ukrainian journal Kidneys, which is registered in scientific databases (as a Google scholar, etc.. An important characteristic of the Promissory Concept is the active involvement of doctors, who give constructive feedback on the programme. This feedback contributes to the content of the CME learning activity, as well as enhancing compliance in participation. As a result, it helps create motivated adherence and improved professional development.

  7. The scholar role in the National Competence Based Catalogues of Learning Objectives for Undergraduate Medical Education (NKLM) compared to other international frameworks.

    Science.gov (United States)

    Hautz, Stefanie C; Hautz, Wolf E; Keller, Niklas; Feufel, Markus A; Spies, Claudia

    2015-01-01

    In Germany, a national competence based catalogue of learning objectives in medicine (NKLM) was developed by the Society for Medical Education and the Council of Medical Faculties. As many of its international counterparts the NKLM describes the qualifications of medical school graduates. The definition of such outcome frameworks indents to make medical education transparent to students, teachers and society. The NKLM aims to amend existing lists of medical topics for assessment with learnable competencies. All outcome frameworks are structured into chapters, domains or physician roles. The definition of the scholar-role poses a number of questions such as: What distinguishes necessary qualifications of a scientifically qualified physician from those of a medical scientist? 13 outcome frameworks were identified through a systematic three-step literature review and their content compared to the scholar role in the NKLM by means of a qualitative text analysis. The three steps consist of (1) search for outcome frameworks, (2) in- and exclusion, and (3) data extraction, categorization, and validation. The results were afterwards matched with the scholar role of the NKLM. Extracted contents of all frameworks may be summarized into the components Common Basics, Clinical Application, Research, Teaching and Education, and Lifelong Learning. Compared to the included frameworks the NKLM emphasises competencies necessary for research and teaching while clinical application is less prominently mentioned. The scholar role of the NKLM differs from other international outcome frameworks. Discussing these results shall increase propagation and understanding of the NKLM and thus contribute to the qualification of future medical graduates in Germany.

  8. Reusable Learning Objects for Medical Education: Evolving a Multi-institutional Collaboration

    NARCIS (Netherlands)

    D. Leeder; T. Davies; A. Hall

    2004-01-01

    textabstractIn early 2002 a number of UK HE institutions founded a collaborative project to produce a bank of high quality e-learning resources to support and enhance teaching in the traditionally difficult area of statistics, epidemiology and research skills. Creation of these resources is very

  9. The effect of educational games on medical students' learning outcomes: a systematic review: BEME Guide No 14.

    Science.gov (United States)

    Akl, Elie A; Pretorius, Richard W; Sackett, Kay; Erdley, W Scott; Bhoopathi, Paranthaman S; Alfarah, Ziad; Schünemann, Holger J

    2010-01-01

    An educational game is 'an instructional method requiring the learner to participate in a competitive activity with preset rules.' A number of studies have suggested beneficial effects of educational games in medical education. The objective of this study was to systematically review the effect of educational games on medical students' satisfaction, knowledge, skills, attitude, and behavior. We used the best evidence medical education (BEME) collaboration methods for conducting systematic reviews. We included randomized controlled trials (RCT), controlled clinical trials, and interrupted time series. Study participants were medical students. Interventions of interest were educational games. The title and abstract screening of the 1019 unique citations identified 26 as potentially eligible for this article. The full text screening identified five eligible papers, all reporting RCTs with low-to-moderate methodological quality. Findings in three of the five RCTs suggested but did not confirm a positive effect of the games on medical students' knowledge. The available evidence to date neither confirm nor refute the utility of educational games as an effective teaching strategy for medical students. There is a need for additional and better-designed studies to assess the effectiveness of these games and this article will inform this research.

  10. Rationing medical education.

    African Journals Online (AJOL)

    when the consumerist and individualist perspective is affecting all walks of life including medical education, voices such as these may become louder.10,11. There is also the more fundamental question – whose needs should be catered for? Is it the needs of individ- ual learners or the needs of patients and populations.

  11. Team-Based Learning Module for Undergraduate Medical Education: a Module Focused on the Human Papilloma Virus to Increase Willingness to Vaccinate.

    Science.gov (United States)

    Wiley, Rachel; Shelal, Zeena; Bernard, Carolyn; Urbauer, Diana; Toy, Eugene; Ramondetta, Lois

    2017-12-26

    Human papilloma virus (HPV) vaccination rates lag behind other vaccines, primarily because of weak provider recommendations, and are associated with nearly 30,000 new cancer diagnoses a year. Educating medical students about HPV using active, team-centered learning may increase assimilation of information and may increase vaccination rates. A team-based learning (TBL) module focused on HPV for first-year medical students about HPV will better increase knowledge and likeliness to vaccinate than traditional education methods. Baseline HPV knowledge in medical students across Texas was assessed by surveying all 4-year undergraduate medical schools. Students at one medical school then participated in a week-long TBL focused on basic and clinical concepts relating to HPV, and then were re-surveyed upon completion of the course module. At baseline assessment, first-year student at the intervention site performed at the same level as first-year medical students across the state of Texas on knowledge and satisfaction with their HPV-related medical school education. After the TBL implementation, students performed significantly better than similar-year students and equal to graduating seniors, on knowledge of HPV- and HPV-related cancers, and report significantly higher satisfaction with education measures. Students at the intervention site were significantly more likely to recommend the HPV vaccination in future practice. Short-term knowledge and willingness to recommend vaccination are improved with a targeted HPV TBL early in medical education, which may provide a basis of knowledge that could translate into improved vaccination rates.

  12. How educational innovations and attention to competencies in postgraduate medical education relate to preparedness for practice : The key role of the learning environment

    NARCIS (Netherlands)

    Dijkstra, Ids S.; Pols, Jan; Remmelts, Pine; Rietzschel, Eric; Cohen-Schotanus, Janke; Brand, Paul L.P.

    2015-01-01

    Introduction Many training programmes in postgraduate medical education (PGME) have introduced competency frameworks, but the effects of this change on preparedness for practice are unknown. Therefore, we explored how elements of competency-based programmes in PGME (educational innovations,

  13. Medical education: Changes and perspectives

    Science.gov (United States)

    Zhang, Qin; Lee, Liming; Gruppen, Larry D.; Ba, Denian

    2013-01-01

    As medical education undergoes significant internationalization, it is important for the medical education community to understand how different countries structure and provide medical education. This article highlights the current landscape of medical education in China, particularly the changes that have taken place in recent years. It also examines policies and offers suggestions about future strategies for medical education in China. Although many of these changes reflect international trends, Chinese medical education has seen unique transformations that reflect its particular culture and history. PMID:23631405

  14. Medical laboratory science and nursing students’ perception of academic learning environment in a Philippine university using Dundee Ready Educational Environment Measure (DREEM

    Directory of Open Access Journals (Sweden)

    Jonathan M. Barcelo

    2016-09-01

    Full Text Available Purpose This study aimed to compare the perception of the academic learning environment between medical laboratory science students and nursing students at Saint Louis University, Baguio City, Philippines. Methods A cross-sectional survey research design was used to measure the perceptions of the participants. A total of 341 students from the Department of Medical Laboratory Science, School of Natural Sciences, and the School of Nursing answered the Dundee Ready Education Environment Measure (DREEM instrument from April to May 2016. Responses were compared according to course of study, gender, and year level. Results The total mean DREEM scores of the medical laboratory science students and nursing students did not differ significantly when grouped according to course of study, gender, or year level. Medical laboratory science students had significantly lower mean scores in the sub-domains ‘perception of learning’ and ‘perception of teaching.’ Male medical laboratory science students had significantly lower mean scores in the sub-domain ‘perception of learning’ among second year students. Medical laboratory science students had significantly lower mean scores in the sub-domain ‘perception of learning.’ Nursing students identified 7 problem areas, most of which were related to their instructors. Conclusion Medical laboratory science and nursing students viewed their academic learning environment as ‘more positive than negative.’ However, the relationship of the nursing instructors to their students needs improvement.

  15. Medical Terminology: Prefixes. Health Occupations Education Module.

    Science.gov (United States)

    Temple Univ., Philadelphia, PA. Div. of Vocational Education.

    This module on medical terminology (prefixes) is one of 17 modules designed for individualized instruction in health occupations education programs at both the secondary and postsecondary levels. This module consists of an introduction to prefixes, a list of resources needed, and three learning experiences. Each learning experience contains an…

  16. Current issues in medical education | Al Shehri | West African ...

    African Journals Online (AJOL)

    This includes, development in computer assisted learning, virtual reality, the use of simulated subjects, e learning, and the new concept of Reusable Learning Objects (RLO's). Finally, it was realized, with the rapid development in medical education that medical education requires professional training. The assumption that ...

  17. Appreciative inquiry in medical education.

    Science.gov (United States)

    Sandars, John; Murdoch-Eaton, Deborah

    2017-02-01

    The practice of medicine, and also medical education, typically adopts a problem-solving approach to identify "what is going wrong" with a situation. However, an alternative is Appreciative Inquiry (AI), which adopts a positive and strengths-based approach to identify "what is going well" with a situation. The AI approach can be used for the development and enhancement of the potential of both individuals and organizations. An essential aspect of the AI approach is the generative process, in which a new situation is envisioned and both individual and collective strengths are mobilized to make changes to achieve the valued future situation. The AI approach has been widely used in the world of business and general education, but is has an exciting potential for medical education, including curriculum development, faculty development, supporting learners through academic advising and mentoring, but also for enhancing the teaching and learning of both individuals and groups. This AMEE Guide describes the core principles of AI and their practical application in medical education.

  18. eGender-from e-Learning to e-Research: a web-based interactive knowledge-sharing platform for sex- and gender-specific medical education.

    Science.gov (United States)

    Seeland, Ute; Nauman, Ahmad T; Cornelis, Alissa; Ludwig, Sabine; Dunkel, Mathias; Kararigas, Georgios; Regitz-Zagrosek, Vera

    2016-01-01

    Sex and Gender Medicine is a novel discipline that provides equitable medical care for society and improves outcomes for both male and female patients. The integration of sex- and gender-specific knowledge into medical curricula is limited due to adequate learning material, systematic teacher training and an innovative communication strategy. We aimed at initiating an e-learning and knowledge-sharing platform for Sex and Gender Medicine, the eGender platform (http://egender.charite.de), to ensure that future doctors and health professionals will have adequate knowledge and communication skills on sex and gender differences in order to make informed decisions for their patients. The web-based eGender knowledge-sharing platform was designed to support the blended learning pedagogical teaching concept and follows the didactic concept of constructivism. Learning materials developed by Sex and Gender Medicine experts of seven universities have been used as the basis for the new learning tools . The content of these tools is patient-centered and provides add-on information on gender-sensitive aspects of diseases. The structural part of eGender was designed and developed using the open source e-learning platform Moodle. The eGender platform comprises an English and a German version of e-learning modules: one focusing on basic knowledge and seven on specific medical disciplines. Each module consists of several courses corresponding to a disease or symptom complex. Self-organized learning has to be managed by using different learning tools, e.g., texts and audiovisual material, tools for online communication and collaborative work. More than 90 users from Europe registered for the eGender Medicine learning modules. The most frequently accessed module was "Gender Medicine-Basics" and the users favored discussion forums. These e-learning modules fulfill the quality criteria for higher education and are used within the elective Master Module "Gender Medicine

  19. Do reciprocal relationships between academic workload and self-regulated learning predict medical freshmen's achievement? A longitudinal study on the educational transition from secondary school to medical school.

    Science.gov (United States)

    Barbosa, Joselina; Silva, Álvaro; Ferreira, Maria Amélia; Severo, Milton

    2018-04-16

    One of the most important factors that makes the transition from secondary school to medical school challenging is the inability to put in the study time that a medical school curriculum demands. The implementation of regulated learning is essential for students to cope with medical course environment and succeed. This study aimed to investigate the reciprocal relationships between self-regulated learning skills (SRLS) and academic workload (AW) across secondary school to medical school transition. Freshmen enrolled in medical school (N = 102) completed questionnaires at the beginning and at the end of their academic year, assessing AW (measured as study time hours and perceived workload), SRLS (planning and strategies for learning assessment, motivation and action to learning and self-directedness) and academic achievement. An exploratory factor analysis (EFA) and a longitudinal path analysis were performed. According to the EFA, study time and perceived workload revealed two factors of AW: students who had a high perceived workload also demonstrated increased study time (tandem AW); and those who had a low perceived workload also demonstrated increased study time (inverse AW). Only a longitudinal relationship between SRLS and AW was found in the path analysis: prior self-directedness was related to later tandem AW. Moreover, success during the first year of medical school is dependent on exposure to motivation, self-directedness and high study time without overload during secondary school and medical school, and prior academic achievement. By better understanding these relationships, teachers can create conditions that support academic success during the first year medical school.

  20. Motivation, learning strategies, participation and medical school performance

    NARCIS (Netherlands)

    Stegers-Jager, Karen M.; Cohen-Schotanus, Janke; Themmen, Axel P. N.

    Medical Education 2012: 46:678688 Context Medical schools wish to better understand why some students excel academically and others have difficulty in passing medical courses. Components of self-regulated learning (SRL), such as motivational beliefs and learning strategies, as well as participation

  1. Social Learning: Medical Student Perceptions of Geriatric House Calls

    Science.gov (United States)

    Abbey, Linda; Willett, Rita; Selby-Penczak, Rachel; McKnight, Roberta

    2010-01-01

    Bandura's social learning theory provides a useful conceptual framework to understand medical students' perceptions of a house calls experience at Virginia Commonwealth University School of Medicine. Social learning and role modeling reflect Liaison Committee on Medical Education guidelines for "Medical schools (to) ensure that the learning…

  2. Clinical learning environment at Shiraz Medical School.

    Science.gov (United States)

    Rezaee, Rita; Ebrahimi, Sedigheh

    2013-01-01

    Clinical learning occurs in the context of a dynamic environment. Learning environment found to be one of the most important factors in determining the success of an effective teaching program. To investigate, from the attending and resident's perspective, factors that may affect student leaning in the educational hospital setting at Shiraz University of Medical Sciences (SUMS). This study combined qualitative and quantitative methods to determine factors affecting effective learning in clinical setting. Residents evaluated the perceived effectiveness of the university hospital learning environment. Fifty two faculty members and 132 residents participated in this study. Key determinants that contribute to an effective clinical teaching were autonomy, supervision, social support, workload, role clarity, learning opportunity, work diversity and physical facilities. In a good clinical setting, residents should be appreciated and given appropriate opportunities to study in order to meet their objectives. They require a supportive environment to consolidate their knowledge, skills and judgment. © 2013 Tehran University of Medical Sciences. All rights reserved.

  3. Machine Learning for Medical Imaging.

    Science.gov (United States)

    Erickson, Bradley J; Korfiatis, Panagiotis; Akkus, Zeynettin; Kline, Timothy L

    2017-01-01

    Machine learning is a technique for recognizing patterns that can be applied to medical images. Although it is a powerful tool that can help in rendering medical diagnoses, it can be misapplied. Machine learning typically begins with the machine learning algorithm system computing the image features that are believed to be of importance in making the prediction or diagnosis of interest. The machine learning algorithm system then identifies the best combination of these image features for classifying the image or computing some metric for the given image region. There are several methods that can be used, each with different strengths and weaknesses. There are open-source versions of most of these machine learning methods that make them easy to try and apply to images. Several metrics for measuring the performance of an algorithm exist; however, one must be aware of the possible associated pitfalls that can result in misleading metrics. More recently, deep learning has started to be used; this method has the benefit that it does not require image feature identification and calculation as a first step; rather, features are identified as part of the learning process. Machine learning has been used in medical imaging and will have a greater influence in the future. Those working in medical imaging must be aware of how machine learning works. © RSNA, 2017.

  4. Improvement of medical education using web-based lecture repetition and extension: e-learning experiences of the Department of Obstetrics and Gynecology, University of Tuebingen

    Directory of Open Access Journals (Sweden)

    Wallwiener, Markus

    2006-11-01

    Full Text Available In order to improve the education of its medical students, the Department of Obstetrics and Gynecology of the University of Tuebingen established e-learning in terms of web-based lecture repetition and extension. Subsequent to lectures, questions are provided online. The participation is voluntary, but requires registration. The results of the analysed period (winter term 2004/2005, summer term 2005 and winter term 2005/2006 including more than 380 e-learning users are encouraging. An average of 45% of the target group used the offered online questions. The students who completed at least 75% of all prepared question units achieved significantly better results than their traditional learning fellow students (p=0.002. Users got more frequent the marks "good" and "very good". Twice as much conventional learning students as e-learning users failed the examination. E-Learning and the technical implementation are repeatedly appreciated by the students. In the future, more medical courses will be supplemented with e-learning, according to the students request.

  5. Relationship between self-directed learning with learning styles and strategies in medical students

    OpenAIRE

    Márquez U, Carolina; Fasce H, Eduardo; Pérez V, Cristhian; Ortega B, Javiera; Parra P, Paula; Ortiz M, Liliana; Matus B, Olga; Ibáñez G, Pilar

    2014-01-01

    Background: Self-directed learning (SDL) skills are particularly important in medical education, considering that physicians should be able to regulate their own learning experiences. Aim: To evaluate the relationship between learning styles and strategies and self-directed learning in medical students. Material and Methods: One hundred ninety nine first year medical students (120 males) participated in the study. Preparation for Independent Learning (EPAI) scale was used to assess self-direc...

  6. Medical Content Searching, Retrieving, and Sharing Over the Internet: Lessons Learned From the mEducator Through a Scenario-Based Evaluation

    Science.gov (United States)

    Spachos, Dimitris; Mylläri, Jarkko; Giordano, Daniela; Dafli, Eleni; Mitsopoulou, Evangelia; Schizas, Christos N; Pattichis, Constantinos; Nikolaidou, Maria

    2015-01-01

    Background The mEducator Best Practice Network (BPN) implemented and extended standards and reference models in e-learning to develop innovative frameworks as well as solutions that enable specialized state-of-the-art medical educational content to be discovered, retrieved, shared, and re-purposed across European Institutions, targeting medical students, doctors, educators and health care professionals. Scenario-based evaluation for usability testing, complemented with data from online questionnaires and field notes of users’ performance, was designed and utilized for the evaluation of these solutions. Objective The objective of this work is twofold: (1) to describe one instantiation of the mEducator BPN solutions (mEducator3.0 - “MEdical Education LINnked Arena” MELINA+) with a focus on the metadata schema used, as well as on other aspects of the system that pertain to usability and acceptance, and (2) to present evaluation results on the suitability of the proposed metadata schema for searching, retrieving, and sharing of medical content and with respect to the overall usability and acceptance of the system from the target users. Methods A comprehensive evaluation methodology framework was developed and applied to four case studies, which were conducted in four different countries (ie, Greece, Cyprus, Bulgaria and Romania), with a total of 126 participants. In these case studies, scenarios referring to creating, sharing, and retrieving medical educational content using mEducator3.0 were used. The data were collected through two online questionnaires, consisting of 36 closed-ended questions and two open-ended questions that referred to mEducator 3.0 and through the use of field notes during scenario-based evaluations. Results The main findings of the study showed that even though the informational needs of the mEducator target groups were addressed to a satisfactory extent and the metadata schema supported content creation, sharing, and retrieval from an end

  7. Educating doctors in the clinical workplace: unraveling the process of teaching and learning in the medical resident as teacher.

    Science.gov (United States)

    Busari, J O; Arnold, Aer

    2009-01-01

    In recent years, higher medical education has witnessed major changes in the structure and content of postgraduate medical training. Seven professional competencies have been described that address the medical doctors' ability to effectively communicate and transfer medical information, interact effectively and professionally, and demonstrate a good grasp of clinical knowledge and skills. Proficiency in didactic skills, however, is an important competency that has not received prominent attention. In the clinical setting, attending-physicians and medical residents are responsible for teaching. Consequently, several medical institutions have proposed the need for teacher training programs to improve the teaching skills of attending doctors and medical residents. The supporters of these programs believe that through teaching, medical doctors improve their individual professional and clinical problem-solving abilities. Hence, it is logical to assume that didactic skills' training would contribute to the professional development of doctors. In this paper, we re-examine the underlying theory of the didactic proficiency, how it relates to the clinical setting, and why it may be beneficial for the professional training of medical residents.

  8. Educating doctors in the clinical workplace: Unraveling the process of teaching and learning in the medical resident as teacher

    Directory of Open Access Journals (Sweden)

    Busari J

    2009-01-01

    Full Text Available In recent years, higher medical education has witnessed major changes in the structure and content of postgraduate medical training. Seven professional competencies have been described that address the medical doctors′ ability to effectively communicate and transfer medical information, interact effectively and professionally, and demonstrate a good grasp of clinical knowledge and skills. Proficiency in didactic skills, however, is an important competency that has not received prominent attention. In the clinical setting, attending-physicians and medical residents are responsible for teaching. Consequently, several medical institutions have proposed the need for teacher training programs to improve the teaching skills of attending doctors and medical residents. The supporters of these programs believe that through teaching, medical doctors improve their individual professional and clinical problem-solving abilities. Hence, it is logical to assume that didactic skills′ training would contribute to the professional development of doctors. In this paper, we re-examine the underlying theory of the didactic proficiency, how it relates to the clinical setting, and why it may be beneficial for the professional training of medical residents.

  9. Pathology Competencies for Medical Education and Educational Cases

    Directory of Open Access Journals (Sweden)

    Barbara E. C. Knollmann-Ritschel MD

    2017-07-01

    Full Text Available Current medical school curricula predominantly facilitate early integration of basic science principles into clinical practice to strengthen diagnostic skills and the ability to make treatment decisions. In addition, they promote life-long learning and understanding of the principles of medical practice. The Pathology Competencies for Medical Education (PCME were developed in response to a call to action by pathology course directors nationwide to teach medical students pathology principles necessary for the practice of medicine. The PCME are divided into three competencies: 1 Disease Mechanisms and Processes, 2 Organ System Pathology, and 3 Diagnostic Medicine and Therapeutic Pathology. Each of these competencies is broad and contains multiple learning goals with more specific learning objectives. The original competencies were designed to be a living document, meaning that they will be revised and updated periodically, and have undergone their first revision with this publication. The development of teaching cases, which have a classic case-based design, for the learning objectives is the next step in providing educational content that is peer-reviewed and readily accessible for pathology course directors, medical educators, and medical students. Application of the PCME and cases promotes a minimum standard of exposure of the undifferentiated medical student to pathophysiologic principles. The publication of the PCME and the educational cases will create a current educational resource and repository published through Academic Pathology .

  10. Status of medical mycology education.

    Science.gov (United States)

    Steinbach, William J; Mitchell, Thomas G; Schell, Wiley A; Espinel-Ingroff, Ana; Coico, Richard F; Walsh, Thomas J; Perfect, John R

    2003-12-01

    The number of immunocompromised patients and subsequent invasive fungal infections continues to rise. However, the education of future medical mycologists to engage this growing problem is diminishing. While there are an increasing number of publications and grants awarded in mycology, the time and detail devoted to teaching medical mycology in United States medical schools are inadequate. Here we review the history in medical mycology education and the current educational opportunities. To accurately gauge contemporary teaching we also conducted a prospective survey of microbiology and immunology departmental chairpersons in United States medical schools to determine the amount and content of contemporary education in medical mycology.

  11. Control-value theory: using achievement emotions to improve understanding of motivation, learning, and performance in medical education: AMEE Guide No. 64.

    Science.gov (United States)

    Artino, Anthony R; Holmboe, Eric S; Durning, Steven J

    2012-01-01

    In this AMEE Guide, we consider the emergent theoretical and empirical work on human emotion and how this work can inform the theory, research, and practice of medical education. In the Guide, we define emotion, in general, and achievement emotions, more specifically. We describe one of the leading contemporary theories of achievement emotions, control-value theory (Pekrun 2006), and we distinguish between different types of achievement emotions, their proximal antecedents, and their consequences for motivation, learning, and performance. Next, we review the empirical support for control-value theory from non-medical fields and suggest several important implications for educational practice. In this section, we highlight the importance of designing learning environments that foster a high degree of control and value for students. Finally, we end with a discussion of the need for more research on achievement emotions in medical education, and we propose several key research questions we believe will facilitate our understanding of achievement emotions and their impact on important educational outcomes.

  12. Judicious Use of Simulation Technology in Continuing Medical Education

    Science.gov (United States)

    Curtis, Michael T.; DiazGranados, Deborah; Feldman, Moshe

    2012-01-01

    Use of simulation-based training is fast becoming a vital source of experiential learning in medical education. Although simulation is a common tool for undergraduate and graduate medical education curricula, the utilization of simulation in continuing medical education (CME) is still an area of growth. As more CME programs turn to simulation to…

  13. Medical education and social environment.

    Science.gov (United States)

    Rasool, Ahsan; Qayum, Iftikhar; Ahmad, Ashfaq; Farooq, Umer; Shah, Awais Ali; Waqas, Muhammad; Rasool, Maleeha; Hameed, Sania; Kanwal, Rana; Azmat, Muneeba; Marwat, Saleem; Afridit, Faheem

    2014-01-01

    A positive learning environment and quality of course content have an imperative role in academic achievement of students. This study aims to assess students' point of view about the quality of education and social environment of a public sector medical college in Pakistan. Relative scarcity of data from students' perspective merited this study. A cross-sectional survey was undertaken at Ayub Medical College, Abbottabad, Pakistan, including 300 medical students from all five years of the MBBS course. Systematic random sampling was used with a kth interval of 4 for each class. Self-administered questionnaire was used and contained items related to academics, learning environment, learning resources, teaching methodologies and student-friendly activities. The data were analysed using SPSS-16. There were 265 respondents (88.3%) to the questionnaire with males accounting for 58.9% (n=156). In general students showed satisfaction with quality of content being taught; however there was discontent towards various academic and non- academic facilities provided to the students. Only 44.10% and 31.50% students reported provision of academic related facilities and interactive sessions as up to mark respectively; 83% students reported that undergraduate medical research was in need of improvement; 55.5% and 60.2% reported that facilities in hostel and recreational facilities needed improvement respectively; and 52.8% students stated presence of a healthy, student friendly, encouraging environment was not up to mark. Although course content and teaching methodologies are generally satisfactory, a healthy, student friendly, encouraging environment is vet to be created to help students foster their abilities completely.

  14. The scholar role in the National Competence Based Catalogues of Learning Objectives for Undergraduate Medical Education (NKLM compared to other international frameworks

    Directory of Open Access Journals (Sweden)

    Hautz, Stefanie C.

    2015-11-01

    Full Text Available Background: In Germany, a national competence based catalogue of learning objectives in medicine (NKLM was developed by the Society for Medical Education and the Council of Medical Faculties. As many of its international counterparts the NKLM describes the qualifications of medical school graduates. The definition of such outcome frameworks indents to make medical education transparent to students, teachers and society. The NKLM aims to amend existing lists of medical topics for assessment with learnable competencies. All outcome frameworks are structured into chapters, domains or physician roles. The definition of the scholar-role poses a number of questions such as: What distinguishes necessary qualifications of a scientifically qualified physician from those of a medical scientist? Methods: 13 outcome frameworks were identified through a systematic three-step literature review and their content compared to the scholar role in the NKLM by means of a qualitative text analysis. The three steps consist of (1 search for outcome frameworks, (2 in- and exclusion, and (3 data extraction, categorization, and validation. The results were afterwards matched with the scholar role of the NKLM.Results: Extracted contents of all frameworks may be summarized into the components , and . Compared to the included frameworks the NKLM emphasises competencies necessary for research and teaching while clinical application is less prominently mentioned. Conclusion: The scholar role of the NKLM differs from other international outcome frameworks. Discussing these results shall increase propagation and understanding of the NKLM and thus contribute to the qualification of future medical graduates in Germany.

  15. Residents' views of the role of classroom-based learning in graduate medical education through the lens of academic half days.

    Science.gov (United States)

    Chen, Luke Y C; McDonald, Julie A; Pratt, Daniel D; Wisener, Katherine M; Jarvis-Selinger, Sandra

    2015-04-01

    To examine the role of classroom-based learning in graduate medical education through the lens of academic half days (AHDs) by exploring residents' perceptions of AHDs' purpose and relevance and the effectiveness of teaching and learning in AHDs. The authors invited a total of 186 residents in three programs (internal medicine, orthopedic surgery, and hematology) at the University of British Columbia Faculty of Medicine to participate in semistructured focus groups from October 2010 to February 2011. Verbatim transcripts of the interviews underwent inductive analysis. Twenty-seven residents across the three programs volunteered to participate. Two major findings emerged. Purpose and relevance of AHDs: Residents believed that AHDs are primarily for knowledge acquisition and should complement clinical learning. Classroom learning facilitated consolidation of clinical experiences with expert clinical reasoning. Social aspects of AHDs were highly valued as an important secondary purpose. Perceived effectiveness of teaching and learning: Case-based teaching engaged residents in critical thinking; active learning was valued. Knowledge retention was considered suboptimal. Perspectives on the concept of AHDs as "protected time" varied in the three programs. Findings suggest that (1) engagement in classroom learning occurs through participation in clinically oriented discussions that highlight expert reasoning processes; (2) formal classroom teaching, which focuses on knowledge acquisition, can enhance informal learning occurring during clinical activity; and (3) social aspects of AHDs, including their role in creating communities of practice in residency programs and in professional identity formation, are an important, underappreciated asset for residency programs.

  16. [Relationship between self-directed learning with learning styles and strategies in medical students].

    Science.gov (United States)

    Márquez U, Carolina; Fasce H, Eduardo; Pérez V, Cristhian; Ortega B, Javiera; Parra P, Paula; Ortiz M, Liliana; Matus B, Olga; Ibáñez G, Pilar

    2014-11-01

    Self-directed learning (SDL) skills are particularly important in medical education, considering that physicians should be able to regulate their own learning experiences. To evaluate the relationship between learning styles and strategies and self-directed learning in medical students. One hundred ninety nine first year medical students (120 males) participated in the study. Preparation for Independent Learning (EPAI) scale was used to assess self-direction. Schmeck learning strategies scale and Honey and Alonso (CHAEA) scales were used to evaluate learning styles and strategies. Theoretical learning style and deep processing learning strategy had positive correlations with self-direct learning. Medical students with theoretical styles and low retention of facts are those with greater ability to self-direct their learning. Further studies are required to determine the relationship between learning styles and strategies with SDL in medical students. The acquired knowledge will allow the adjustment of teaching strategies to encourage SDL.

  17. Aprendizaje basado en problemas: un nuevo enfoque de la educación médica Problem-based learning: a new approach to medical education

    Directory of Open Access Journals (Sweden)

    1998-01-01

    Full Text Available Se presentan los principios del Aprendizaje Basado en Problemas (ABP, un enfoque educativo que utiliza los problemas como principal estímulo para el aprendizaje; se apoya más en la necesidad que tiene el alumno de aprender que en la transmisión de conocimientos por parte del profesor y enfatiza más la adquisición de habilidades para resolver problemas y aprender en forma continua que la obtención y memorización de información. Se describe la estrategia de los grupos tutoriales como una de las mejores herramientas disponibles para implementar el enfoque ABP en la educación médica. Finalmente, se presentan los efectos observados tras ponerlo en práctica en escuelas de medicina de Europa y Norteamérica. This paper describes the main tenets of Problem-based Learning (PBL, an educational approach that emphasizes the utilization of real problems as a natural stimulus for learning; encourages identification of learning needs by students themselves more than dissertations on the part of teachers and promotes the development of problem-solving and learning skills more than the acquisition and recall of factual knowledge. The tutorial group as an useful tool for the implementation of PBL in medical education is also described. Information about observed effects of PBL in european and north american medical schools is included.

  18. Supporting medical students with learning disabilities in Asian medical schools

    Directory of Open Access Journals (Sweden)

    Md. Anwarul Azim Majumder

    2010-10-01

    Full Text Available Md. Anwarul Azim Majumder1, Sayeeda Rahman2, Urban JA D’Souza3, Gad Elbeheri4, Khalid Bin Abdulrahman5, M Muzaherul Huq61,2Department of Clinical Sciences, School of Life Sciences, University of Bradford, West Yorkshire, Bradford, UK; 3School of Medicine, University Malaysia Sabah, Kota Kinabalu, Sabah, Malaysia; 4Centre for Child Evaluation and Teaching, Kuwait; 5College of Medicine, Al-Imam University, Riyadh, Saudi Arabia; 6Centre for Medical Education (CME, Mohakhali, Dhaka, BangladeshAbstract: Learning disabilities (LDs represent the largest group of disabilities in higher education (HE institutes, including medical schools, and the numbers are continuing to rise. The worrying concern is that two-thirds to half of these students with LDs remain undiagnosed when they start their undergraduate education and may even graduate without having their disabilities diagnosed. These students struggle with their academic abilities, receive poor grades and, as a result, develop lower perceptions of their intellectual abilities than do those students without LDs. All these ultimately hamper their professional practice, employment, and career progression. Appropriate and adequate educational policies, provisions, and practices help students to progress satisfactorily. In Asian countries, public and professional awareness about LDs is low, supportive provisions are limited, legislations are inadequate, data are scarce, and equal-opportunity/widening-participation policies are not implemented effectively in the HE sector. This article discusses the issues related to LDs in medical education and draws policy, provision, and practice implications to identify, assess, and support students with LDs in medical schools, particularly in an Asian context.Keywords: medical education, learning disabilities, dyslexia, Asia

  19. [Information technology in medical education].

    Science.gov (United States)

    Ramić, A

    1999-01-01

    The role of information technology in educational models of under-graduate and post-graduate medical education is growing in 1980's influenced by PC's break-in in medical practice and creating relevant data basis, and, particularly, in 1990's by integration of information technology on international level, development of international network, Internet, Telemedicin, etc. The development of new educational information technology is evident, proving that information in transfer of medical knowledge, medical informatics and communication systems represent the base of medical practice, medical education and research in medical sciences. In relation to the traditional approaches in concept, contents and techniques of medical education, new models of education in training of health professionals, using new information technology, offer a number of benefits, such as: decentralization and access to relevant data sources, collecting and updating of data, multidisciplinary approach in solving problems and effective decision-making, and affirmation of team work within medical and non-medical disciplines. Without regard to the dynamics of change and progressive reform orientation within health sector, the development of modern medical education is inevitable for all systems a in which information technology and available data basis, as a base of effective and scientifically based medical education of health care providers, give guarantees for efficient health care and improvement of health of population.

  20. Globalization and the modernization of medical education.

    Science.gov (United States)

    Stevens, Fred C J; Simmonds Goulbourne, Jacqueline D

    2012-01-01

    Worldwide, there are essential differences underpinning what educators and students perceive to be effective medical education. Yet, the world looks on for a recipe or easy formula for the globalization of medical education. This article examines the assumptions, main beliefs, and impact of globalization on medical education as a carrier of modernity. The article explores the cultural and social structures for the successful utilization of learning approaches within medical education. Empirical examples are problem-based learning (PBL) at two medical schools in Jamaica and the Netherlands, respectively. Our analysis shows that people do not just naturally work well together. Deliberate efforts to build group culture for effective and efficient collaborative practice are required. Successful PBL is predicated on effective communication skills, which are culturally defined in that they require common points of understanding of reality. Commonality in cultural practices and expectations do not exist beforehand but must be clearly and deliberately created. The globalization of medical education is more than the import of instructional designs. It includes Western models of social organization requiring deep reflection and adaptation to ensure its success in different environments and among different groups.

  1. Clinical Learning Environment at Shiraz Medical School

    Directory of Open Access Journals (Sweden)

    Sedigheh Ebrahimi

    2013-01-01

    Full Text Available Clinical learning occurs in the context of a dynamic environment. Learning environment found to be one of the most important factors in determining the success of an effective teaching program. To investigate, from the attending and resident's perspective, factors that may affect student leaning in the educational hospital setting at Shiraz University of Medical Sciences (SUMS. This study combined qualitative and quantitative methods to determine factors affecting effective learning in clinical setting. Residents evaluated the perceived effectiveness of the university hospital learning environment. Fifty two faculty members and 132 residents participated in this study. Key determinants that contribute to an effective clinical teaching were autonomy, supervision, social support, workload, role clarity, learning opportunity, work diversity and physical facilities. In a good clinical setting, residents should be appreciated and given appropriate opportunities to study in order to meet their objectives. They require a supportive environment to consolidate their knowledge, skills and judgment.

  2. Team-Based Learning for Nursing and Medical Students: Focus Group Results From an Interprofessional Education Project.

    Science.gov (United States)

    Feather, Rebecca A; Carr, Doug E; Reising, Deanna L; Garletts, Derrick M

    2016-01-01

    Past research indicates that inadequacies in health care delivery create substantial preventable quality issues that can be addressed through improving relationships among clinicians to decrease the negative effects on patient outcomes. The purpose of this article is to describe the implementation of an interprofessional education project with senior nursing and third-year medical students working in teams in a clinical setting. Results include data from focus groups conducted at the conclusion of the project.

  3. Medical education... meet Michel Foucault.

    Science.gov (United States)

    Hodges, Brian D; Martimianakis, Maria A; McNaughton, Nancy; Whitehead, Cynthia

    2014-06-01

    There have been repeated calls for the greater use of conceptual frameworks and of theory in medical education. Although it is familiar to few medical educators, Michel Foucault's work is a helpful theoretical and methodological source. This article explores what it means to use a 'Foucauldian approach', presents a sample of Foucault's historical-genealogical studies that are relevant to medical education, and introduces the work of four researchers currently undertaking Foucauldian-inspired medical education research. Although they are not without controversy, Foucauldian approaches are employed by an increasing number of scholars and are helpful in shedding light on what it is possible to think, say and be in medical education. Our hope in sharing this Foucauldian work and perspective is that we might stimulate a dialogue that is forward-looking and optimistic about the possibilities for change in medical education. © 2014 John Wiley & Sons Ltd.

  4. Information Technologies (ITs) in Medical Education.

    Science.gov (United States)

    Masic, Izet; Pandza, Haris; Toromanovic, Selim; Masic, Fedja; Sivic, Suad; Zunic, Lejla; Masic, Zlatan

    2011-09-01

    Advances in medicine in recent decades are in significant correlation with the advances in the information technology. Modern information technologies (IT) have enabled faster, more reliable and comprehensive data collection. These technologies have started to create a large number of irrelevant information, which represents a limiting factor and a real growing gap, between the medical knowledge on one hand, and the ability of doctors to follow its growth on the other. Furthermore, in our environment, the term technology is generally reserved for its technical component. Education means, learning, teaching, or the process of acquiring skills or behavior modification through various exercises. Traditionally, medical education meant the oral, practical and more passive transferring of knowledge and skills from the educators to students and health professionals. For the clinical disciplines, of special importance are the principles, such as, "learning at bedside," aided by the medical literature. In doing so, these techniques enable students to contact with their teachers, and to refer to the appropriate literature. The disadvantage of these educational methods is in the fact, that teachers often do not have enough time. Additionally they are not very convenient to the horizontal and vertical integration of teaching, create weak or almost no self education, as well as, low skill levels and poor integration of education with a real social environment. In this paper authors describe application of modern IT in medical education - their advantages and disadvantages comparing with traditional ways of education.

  5. Medical Terminology: Suffixes. Health Occupations Education Module.

    Science.gov (United States)

    Temple Univ., Philadelphia, PA. Div. of Vocational Education.

    This module on medical terminology (suffixes) is one of 17 modules designed for individualized instruction in health occupations education programs at both the secondary and postsecondary levels. This module consists of an introduction to the module topic, a list of resources needed, and three learning experiences. The first two learning…

  6. Online Continuing Medical Education in Saudi Arabia

    Science.gov (United States)

    Alwadie, Adnan D.

    2013-01-01

    As the largest country in the Middle East, Saudi Arabia and its health care system are well positioned to embark on an online learning intervention so that health care providers in all areas of the country have the resources for updating their professional knowledge and skills. After a brief introduction, online continuing medical education is…

  7. Measuring Medical Students' Motivation to Learning Anatomy by Cadaveric Dissection

    Science.gov (United States)

    Abdel Meguid, Eiman M.; Khalil, Mohammed K.

    2017-01-01

    Motivation and learning are inter-related. It is well known that motivating learners is clearly a complex endeavor, which can be influenced by the educational program and the learning environment. Limited research has been conducted to examine students' motivation as a method to assess the effectiveness of dissection in medical education. This…

  8. Emphasizing humanities in medical education: Promoting the integration of medical scientific spirit and medical humanistic spirit.

    Science.gov (United States)

    Song, Peipei; Tang, Wei

    2017-05-23

    In the era of the biological-psychological-social medicine model, an ideal of modern medicine is to enhance the humanities in medical education, to foster medical talents with humanistic spirit, and to promote the integration of scientific spirit and humanistic spirit in medicine. Throughout the United States (US), United Kingdom (UK), other Western countries, and some Asian countries like Japan, many medical universities have already integrated the learning of medical humanities in their curricula and recognized their value. While in China, although medical education reform over the past decade has emphasized the topic of medical humanities to increase the professionalism of future physicians, the integration of medical humanity courses in medical universities has lagged behind the pace in Western countries. In addition, current courses in medical humanities were arbitrarily established due to a lack of organizational independence. For various reasons like a shortage of instructors, medical universities have failed to pay sufficient attention to medical humanities education given the urgent needs of society. The medical problems in contemporary Chinese society are not solely the purview of biomedical technology; what matters more is enhancing the humanities in medical education and fostering medical talents with humanistic spirit. Emphasizing the humanities in medical education and promoting the integration of medical scientific spirit and medical humanistic spirit have become one of the most pressing issues China must address. Greater attention should be paid to reasonable integration of humanities into the medical curriculum, creation of medical courses related to humanities and optimization of the curriculum, and actively allocating abundant teaching resources and exploring better methods of instruction.

  9. Simulation-based medical education: time for a pedagogical shift.

    Science.gov (United States)

    Kalaniti, Kaarthigeyan; Campbell, Douglas M

    2015-01-01

    The purpose of medical education at all levels is to prepare physicians with the knowledge and comprehensive skills, required to deliver safe and effective patient care. The traditional 'apprentice' learning model in medical education is undergoing a pedagogical shift to a 'simulation-based' learning model. Experiential learning, deliberate practice and the ability to provide immediate feedback are the primary advantages of simulation-based medical education. It is an effective way to develop new skills, identify knowledge gaps, reduce medical errors, and maintain infrequently used clinical skills even among experienced clinical teams, with the overall goal of improving patient care. Although simulation cannot replace clinical exposure as a form of experiential learning, it promotes learning without compromising patient safety. This new paradigm shift is revolutionizing medical education in the Western world. It is time that the developing countries embrace this new pedagogical shift.

  10. How to improve medical education website design.

    Science.gov (United States)

    Sisson, Stephen D; Hill-Briggs, Felicia; Levine, David

    2010-04-21

    The Internet provides a means of disseminating medical education curricula, allowing institutions to share educational resources. Much of what is published online is poorly planned, does not meet learners' needs, or is out of date. Applying principles of curriculum development, adult learning theory and educational website design may result in improved online educational resources. Key steps in developing and implementing an education website include: 1) Follow established principles of curriculum development; 2) Perform a needs assessment and repeat the needs assessment regularly after curriculum implementation; 3) Include in the needs assessment targeted learners, educators, institutions, and society; 4) Use principles of adult learning and behavioral theory when developing content and website function; 5) Design the website and curriculum to demonstrate educational effectiveness at an individual and programmatic level; 6) Include a mechanism for sustaining website operations and updating content over a long period of time. Interactive, online education programs are effective for medical training, but require planning, implementation, and maintenance that follow established principles of curriculum development, adult learning, and behavioral theory.

  11. Nursing education and learning

    DEFF Research Database (Denmark)

    Sangild Stølen, Karen Marie

    Background: Learning professional skills in the clinic is central to the acquisition of professional competences for future nurses. There are no clear vision of how learning takes place in the clinic and the question is how education in the clinic may lead to the professional skills that enable...... future nurses to take care for patients. Design and setting: The project Learning in Practice was accomplished from 2011 to early 2013, in collaboration between educations of nursing and educational theory educations at UCC North Zealand. The results in this paper is related to the examination...... of the nurse education only. The examination is based on four non-participating observations, four participating observations and three focus group interviews, respectively, four students, four clinical supervisors and four teachers . The clinical context was local hospitals. The data were analyzed...

  12. Social accountability of medical education

    DEFF Research Database (Denmark)

    Lindgren, Stefan; Karle, Hans

    2011-01-01

    accountability of medical education must be included in all accreditation processes at all levels. The global standards programme by World Federation for Medical Education (WFME) provides tools for national or regional accreditation but also guidance for reforms and quality improvement. The standards are used......Medical doctors constitute a profession which embraces trust from and accountability to society. This responsibility extends to all medical educational institutions. Social accountability of medical education means a willingness and ability to adjust to the needs of patients and health care systems...... both nationally and globally. But it also implies a responsibility to contribute to the development of medicine and society through fostering competence for research and improvement. Accreditation is a process by which a statutory body evaluates and recognises an educational institution and/or its...

  13. [Learning how to learn for specialist further education].

    Science.gov (United States)

    Breuer, G; Lütcke, B; St Pierre, M; Hüttl, S

    2017-02-01

    The world of medicine is becoming from year to year more complex. This necessitates efficient learning processes, which incorporate the principles of adult education but with unchanged periods of further education. The subject matter must be processed, organized, visualized, networked and comprehended. The learning process should be voluntary and self-driven with the aim of learning the profession and becoming an expert in a specialist field. Learning is an individual process. Despite this, the constantly cited learning styles are nowadays more controversial. An important factor is a healthy mixture of blended learning methods, which also use new technical possibilities. These include a multitude of e‑learning options and simulations, which partly enable situative learning in a "shielded" environment. An exemplary role model of the teacher and feedback for the person in training also remain core and sustainable aspects in medical further education.

  14. Medical humanities: a closer look at learning.

    Science.gov (United States)

    Patterson, A; Sharek, D; Hennessy, M; Phillips, M; Schofield, S

    2016-06-01

    The inclusion of medical humanities with medical curricula is a question that has been the focus of attention for many within the evolving field. This study addressed the question from a medical education perspective and aimed to investigate what students at Trinity College Dublin learned from participating in a short medical humanities student-selected module in their first year of an undergraduate medical programme. A total of 156 students provided a written reflection on a memorable event that occurred during their student-selected module. The reflections were analysed using the Reflection Evaluation for Learners' Enhanced Competencies Tool (REFLECT) and through qualitative thematic analysis of the written reflections. Evidence of learning from the REFLECT quantitative analysis showed that 50% of students displayed higher levels of reflection when describing their experience. The reflection content analysis supported the heterogeneous nature of learning outcome for students, with evidence to support the idea that the module provided opportunities for students to explore their beliefs, ideas and feelings regarding a range of areas outside their current experience or world view, to consider the views of others that they may have not previously been aware of, to reflect on their current views, and to consider their future professional practice. Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/

  15. Mobile Technology in E-Learning for Undergraduate Medical Education on Emergent Otorhinolaryngology-Head and Neck Surgery Disorders: Pilot Randomized Controlled Trial.

    Science.gov (United States)

    Lee, Li-Ang; Wang, Shu-Ling; Chao, Yi-Ping; Tsai, Ming-Shao; Hsin, Li-Jen; Kang, Chung-Jan; Fu, Chia-Hsiang; Chao, Wei-Chieh; Huang, Chung-Guei; Li, Hsueh-Yu; Chuang, Cheng-Keng

    2018-03-08

    The use of mobile technology in e-learning (M-TEL) can add new levels of experience and significantly increase the attractiveness of e-learning in medical education. Whether an innovative interactive e-learning multimedia (IM) module or a conventional PowerPoint show (PPS) module using M-TEL to teach emergent otorhinolaryngology-head and neck surgery (ORL-HNS) disorders is feasible and efficient in undergraduate medical students is unknown. The aim of this study was to compare the impact of a novel IM module with a conventional PPS module using M-TEL for emergent ORL-HNS disorders with regard to learning outcomes, satisfaction, and learning experience. This pilot study was conducted at an academic teaching hospital and included 24 undergraduate medical students who were novices in ORL-HNS. The cognitive style was determined using the Group Embedded Figures Test. The participants were randomly allocated (1:1) to one of the two groups matched by age, sex, and cognitive style: the IM group and the PPS group. During the 100-min learning period, the participants were unblinded to use the IM or PPS courseware on a 7-inch tablet. Pretests and posttests using multiple-choice questions to evaluate knowledge and multimedia situational tests to evaluate competence were administered. Participants evaluated their satisfaction and learning experience by the AttrakDiff2 questionnaire, and provided feedback about the modules. Overall, the participants had significant gains in knowledge (median of percentage change 71, 95% CI 1-100, Plearning. Although there was no significant difference in knowledge gain between the two groups (median of difference of percentage change 24, 95% CI -75 to 36; P=.55), competence gain was significantly lower in the IM group compared with the PPS group (median of difference of percentage change -41, 95% CI -67 to -20; P=.008). However, the IM group had significantly higher scores of satisfaction (difference 2, 95% CI 2-4; P=.01), pragmatic quality

  16. Teleconferencing in Medical Education: A Useful Tool

    Directory of Open Access Journals (Sweden)

    Lamba Pankaj

    2011-08-01

    Full Text Available Education and healthcare are basic needs for humandevelopment. Technological innovation has broadened theaccess to higher quality healthcare and education withoutregard to time, distance or geopolitical boundaries. Distancelearning has gained popularity as a means of learning inrecent years due to widely distributed learners, busyschedules and rising travel costs. Teleconferencing is also avery useful tool as a distance learning method.Teleconferencing is a real-time and live interactiveprogramme in which one set of participants are at one ormore locations and the other set of participants are atanother. The teleconference allows for interaction,including audio and/or video, and possibly other modalities,between at least two sites. Various methods are availablefor setting up a teleconferencing unit. A detailed review ofthe trend in the use of teleconferencing in medicaleducation was conducted using Medline and a literaturesearch.Teleconferencing was found to be a very useful tool incontinuing medical education (CME, postgraduate medicaleducation, undergraduate medical education,telementoring and many other situations. The use ofteleconferencing in medical education has many advantagesincluding savings in terms of travel costs and time. It givesaccess to the best educational resources and experiencewithout any limitations of boundaries of distance and time.It encourages two-way interactions and facilitates learningin adults. Despite having some pitfalls in its implementationit is now being seen as an important tool in facilitatinglearning in medicine and many medical schools andinstitutions are adapting this novel tool.

  17. E-learning in the field of medical physics

    International Nuclear Information System (INIS)

    Stoeva, M.; Velkova, K.

    2006-01-01

    Full text: E-learning is an all-encompassing term referring to computer/mobile technology-enhanced learning. It may include the use of web-based teaching materials and hypermedia in general, multimedia CD-ROMs, web sites, discussion boards, collaborative software, e-mail, blogs, wikis, computer aided assessment, educational animation, simulations, learning management software and more, with possibly a combination of different methods being used. The objective of this paper is to present an overview of the e-learning solutions and applications in the field of Medical Physics, covering the most popular international and local e-learning projects and interactive e-learning environments. Medical physics and engineering is one of the areas where e-learning is widely used due to the fact that medical physic professionals are quite closely linked to different types of e-environments. The implementation of such systems improves education quality, information delivery and expert knowledge availability

  18. Medical Education in Japan and Introduction of Medical Education at Tokyo Women’s Medical University

    Institute of Scientific and Technical Information of China (English)

    Yumiko Okubo

    2014-01-01

    Medical education in Japan changed rapidly in the last decade of the 20th century with the introduction of new education methods and implementation of the core curriculum and common achievement testing such as CBT and OSCE.Recently, there have been other movements in medical education in Japan that have introduced 'outcome(competency) based education(OBE)' and created a system for accreditation of medical education programs. This report provides an overview of current medical education in Japan. Moreover, it introduces medical education at Tokyo Women’s Medical University.

  19. Medical education and human trafficking: using simulation.

    Science.gov (United States)

    Stoklosa, Hanni; Lyman, Michelle; Bohnert, Carrie; Mittel, Olivia

    2017-01-01

    Healthcare providers have the potential to play a crucial role in human trafficking prevention, identification, and intervention. However, trafficked patients are often unidentified due to lack of education and preparation available to healthcare professionals at all levels of training and practice. To increase victim identification in healthcare settings, providers need to be educated about the issue of trafficking and its clinical presentations in an interactive format that maximizes learning and ultimately patient-centered outcomes. In 2014, University of Louisville School of Medicine created a simulation-based medical education (SBME) curriculum to prepare students to recognize victims and intervene on their behalf. The authors share the factors that influenced the session's development and incorporation into an already full third year medical curriculum and outline the development process. The process included a needs assessment for the education intervention, development of objectives and corresponding assessment, implementation of the curriculum, and finally the next steps of the module as it develops further. Additional alternatives are provided for other medical educators seeking to implement similar modules at their home institution. It is our hope that the description of this process will help others to create similar interactive educational programs and ultimately help trafficking survivors receive the care they need. HCP: Healthcare professional; M-SIGHT: Medical student instruction in global human trafficking; SBME: Simulation-based medical education; SP: Standardized patient; TIC: Trauma-informed care.

  20. Medical education and human trafficking: using simulation

    Science.gov (United States)

    Stoklosa, Hanni; Lyman, Michelle; Bohnert, Carrie; Mittel, Olivia

    2017-01-01

    ABSTRACT Healthcare providers have the potential to play a crucial role in human trafficking prevention, identification, and intervention. However, trafficked patients are often unidentified due to lack of education and preparation available to healthcare professionals at all levels of training and practice. To increase victim identification in healthcare settings, providers need to be educated about the issue of trafficking and its clinical presentations in an interactive format that maximizes learning and ultimately patient-centered outcomes. In 2014, University of Louisville School of Medicine created a simulation-based medical education (SBME) curriculum to prepare students to recognize victims and intervene on their behalf. The authors share the factors that influenced the session’s development and incorporation into an already full third year medical curriculum and outline the development process. The process included a needs assessment for the education intervention, development of objectives and corresponding assessment, implementation of the curriculum, and finally the next steps of the module as it develops further. Additional alternatives are provided for other medical educators seeking to implement similar modules at their home institution. It is our hope that the description of this process will help others to create similar interactive educational programs and ultimately help trafficking survivors receive the care they need. Abbreviations: HCP: Healthcare professional; M-SIGHT: Medical student instruction in global human trafficking; SBME: Simulation-based medical education; SP: Standardized patient; TIC: Trauma-informed care PMID:29228882

  1. Augmented reality in medical education?

    NARCIS (Netherlands)

    Kamphuis, Carolien; Barsom, Esther; Schijven, Marlies; Christoph, Noor

    2014-01-01

    Learning in the medical domain is to a large extent workplace learning and involves mastery of complex skills that require performance up to professional standards in the work environment. Since training in this real-life context is not always possible for reasons of safety, costs, or didactics,

  2. Perception of medical students for utility of mobile technology use in medical education

    OpenAIRE

    Sushama Subhash Thakre; Subhash Bapurao Thakre

    2015-01-01

    Introduction: Mobile technology is changing the way we live, and it is beginning to change the way we learn. Current literature reviews have shown that research on mobile technology in medical education primarily focused on efficacy, of mobile devices as an educational tool and resource, infrastructure to support m-learning, benefits, challenges, and appropriate use. Objectives: To assess the perception of medical student for the utility of mobile technology in their learning experience and t...

  3. Simulation-based medical education in pediatrics.

    Science.gov (United States)

    Lopreiato, Joseph O; Sawyer, Taylor

    2015-01-01

    The use of simulation-based medical education (SBME) in pediatrics has grown rapidly over the past 2 decades and is expected to continue to grow. Similar to other instructional formats used in medical education, SBME is an instructional methodology that facilitates learning. Successful use of SBME in pediatrics requires attention to basic educational principles, including the incorporation of clear learning objectives. To facilitate learning during simulation the psychological safety of the participants must be ensured, and when done correctly, SBME is a powerful tool to enhance patient safety in pediatrics. Here we provide an overview of SBME in pediatrics and review key topics in the field. We first review the tools of the trade and examine various types of simulators used in pediatric SBME, including human patient simulators, task trainers, standardized patients, and virtual reality simulation. Then we explore several uses of simulation that have been shown to lead to effective learning, including curriculum integration, feedback and debriefing, deliberate practice, mastery learning, and range of difficulty and clinical variation. Examples of how these practices have been successfully used in pediatrics are provided. Finally, we discuss the future of pediatric SBME. As a community, pediatric simulation educators and researchers have been a leading force in the advancement of simulation in medicine. As the use of SBME in pediatrics expands, we hope this perspective will serve as a guide for those interested in improving the state of pediatric SBME. Published by Elsevier Inc.

  4. [Virtual reality in medical education].

    Science.gov (United States)

    Edvardsen, O; Steensrud, T

    1998-02-28

    Virtual reality technology has found new applications in industry over the last few years. Medical literature has for several years predicted a break-through in this technology for medical education. Although there is a great potential for this technology in medical education, there seems to be a wide gap between expectations and actual possibilities at present. State of the technology was explored by participation at the conference "Medicine meets virtual reality V" (San Diego Jan. 22-25 1997) and a visit to one of the leading laboratories on virtual reality in medical education. In this paper we introduce some of the basic terminology and technology, review some of the topics covered by the conference, and describe projects running in one of the leading laboratories on virtual reality technology for medical education. With this information in mind, we discuss potential applications of the current technology in medical education. Current virtual reality systems are judged to be too costly and their usefulness in education too limited for routine use in medical education.

  5. Medical Education: Entrusting Faith in Bedside Teaching

    Directory of Open Access Journals (Sweden)

    Saurabh RamBihariLal Shrivastava

    2014-05-01

    Full Text Available Globally, patient safety and quality of health care services are the predominant challenges faced by the health care industry. To produce competent doctors it is essential to inculcate skills such as clinical reasoning, critical thinking, and self-directed learning among the medical students. Bedside teaching is a common teaching format in medical education where students are taught in an interactive manner with real patients in hospital wards which help them in acquiring the medical skills and interpersonal behavior necessary for their daily practice as doctors.

  6. Teaching teamwork in medical education.

    Science.gov (United States)

    Lerner, Susan; Magrane, Diane; Friedman, Erica

    2009-08-01

    Teamwork has become a major focus in healthcare. In part, this is the result of the Institute of Medicine report entitled To Err Is Human: Building a Safer Health System, which details the high rate of preventable medical errors, many of which are the result of dysfunctional or nonexistent teamwork. It has been proposed that a healthcare system that supports effective teamwork can improve the quality of patient care and reduce workload issues that cause burnout among healthcare professionals. Few clear guidelines exist to help guide the implementation of all these recommendations in healthcare settings. In general, training programs designed to improve team skills are a new concept for medicine, particularly for physicians who are trained largely to be self-sufficient and individually responsible for their actions. Outside of healthcare, research has shown that teams working together in high-risk and high-intensity work environments make fewer mistakes than individuals. This evidence originates from commercial aviation, the military, firefighting, and rapid-response police activities. Commercial aviation, an industry in which mistakes can result in unacceptable loss, has been at the forefront of risk reduction through teamwork training. The importance of teamwork has been recognized by some in the healthcare industry who have begun to develop their own specialty-driven programs. The purpose of this review is to discuss the current literature on teaching about teamwork in undergraduate medical education. We describe the science of teams, analyze the work in team training that has been done in other fields, and assess what work has been done in other fields about the importance of team training (ie, aviation, nonmedical education, and business). Additionally, it is vital to assess what work has already been done in medicine to advance the skills required for effective teamwork. Much of this work has been done in fields in which medical professionals deal with crisis

  7. Musculoskeletal pareidolia in medical education.

    Science.gov (United States)

    Foye, Patrick; Abdelshahed, Dena; Patel, Shounuck

    2014-07-01

    Medical educators use a variety of strategies to help medical students and resident doctors understand and remember complex topics. One teaching tool is matching up radiographic appearances with unrelated, common, non-medical images, in order to help students easily recognise clinical patterns. However, even among medical educators who use this approach, many are not aware of the neuropsychiatric phenomenon they are using, known as pareidolia. We will describe pareidolia (a form of patternicity) and give two examples of its use in the clinical teaching of musculoskeletal imaging abnormalities: the winking owl and the Scottie dog. © 2014 John Wiley & Sons Ltd.

  8. Mobile Technology in E-Learning for Undergraduate Medical Education on Emergent Otorhinolaryngology–Head and Neck Surgery Disorders: Pilot Randomized Controlled Trial

    Science.gov (United States)

    Lee, Li-Ang; Wang, Shu-Ling; Chao, Yi-Ping; Tsai, Ming-Shao; Hsin, Li-Jen; Kang, Chung-Jan; Fu, Chia-Hsiang; Chao, Wei-Chieh; Huang, Chung-Guei; Li, Hsueh-Yu

    2018-01-01

    Background The use of mobile technology in e-learning (M-TEL) can add new levels of experience and significantly increase the attractiveness of e-learning in medical education. Whether an innovative interactive e-learning multimedia (IM) module or a conventional PowerPoint show (PPS) module using M-TEL to teach emergent otorhinolaryngology–head and neck surgery (ORL-HNS) disorders is feasible and efficient in undergraduate medical students is unknown. Objective The aim of this study was to compare the impact of a novel IM module with a conventional PPS module using M-TEL for emergent ORL-HNS disorders with regard to learning outcomes, satisfaction, and learning experience. Methods This pilot study was conducted at an academic teaching hospital and included 24 undergraduate medical students who were novices in ORL-HNS. The cognitive style was determined using the Group Embedded Figures Test. The participants were randomly allocated (1:1) to one of the two groups matched by age, sex, and cognitive style: the IM group and the PPS group. During the 100-min learning period, the participants were unblinded to use the IM or PPS courseware on a 7-inch tablet. Pretests and posttests using multiple-choice questions to evaluate knowledge and multimedia situational tests to evaluate competence were administered. Participants evaluated their satisfaction and learning experience by the AttrakDiff2 questionnaire, and provided feedback about the modules. Results Overall, the participants had significant gains in knowledge (median of percentage change 71, 95% CI 1-100, P<.001) and competence (median of percentage change 25, 95% CI 0-33, P=.007) after 100 min of learning. Although there was no significant difference in knowledge gain between the two groups (median of difference of percentage change 24, 95% CI −75 to 36; P=.55), competence gain was significantly lower in the IM group compared with the PPS group (median of difference of percentage change −41, 95% CI −67 to

  9. [Simulation in medical education: a synopsis].

    Science.gov (United States)

    Corvetto, Marcia; Bravo, María Pía; Montaña, Rodrigo; Utili, Franco; Escudero, Eliana; Boza, Camilo; Varas, Julián; Dagnino, Jorge

    2013-01-01

    Clinical simulation is defined as a technique (not a technology) to replace or amplify real experiences with guided experiences that evoke or replicate substantial aspects of the real world in a fully interactive fashion. Over the past few years, there has been a significant growth in its use, both as a learning tool and as an assessment for accreditation. Example of this is the fact that simulation is an integral part of medical education curricula abroad. Some authors have cited it as an unavoidable necessity or as an ethical imperative. In Chile, its formal inclusion in Medical Schools' curricula has just begun. This review is an overview of this important educational tool, presenting the evidence about its usefulness in medical education and describing its current situation in Chile.

  10. Educational theory and medical education practice: a cautionary note for medical school faculty.

    Science.gov (United States)

    Colliver, Jerry A

    2002-12-01

    Educational theory is routinely cited as justification for practice in medical education, even though the justification for the theory itself is unclear. Problem-based learning (PBL), for example, is said to be based on powerful educational principles that should result in strong effects on learning and performance. But research over the past 20 years has produced little convincing evidence for the educational effectiveness of PBL, which naturally raises doubts about the underlying theory. This essay reflects on educational theory, in particular cognitive theory, and concludes that the theory is little more than metaphor, not rigorous, tested, confirmed scientific theory. This metaphor/theory may lead to ideas for basic and applied research, which in turn may facilitate the development of theory. In the meantime, however, the theory cannot be trusted to determine practice in medical education. Despite the intuitive appeal of educational theory, medical educators have a responsibility to set aside their enthusiasm and make it clear to medical school faculty and administrators that educational innovations and practice claims are, at best, founded on conjecture, not on evidence-based science.

  11. The Long-Term Career Outcome Study (LTCOS): what have we learned from 40 years of military medical education and where should we go?

    Science.gov (United States)

    Durning, Steven J; Artino, Anthony R; Dong, Ting; Cruess, David F; Gilliland, William R; DeZee, Kent J; Saguil, Aaron; Waechter, Donna M; McManigle, John E

    2012-09-01

    The work of the Long-Term Career Outcome Study (LTCOS), F. Edward Hébert School of Medicine, Uniformed Services University of the Health Sciences (USU) has been a multidisciplinary effort spanning more than 5 years. Borrowing from the established program evaluation and quality assurance literature, the LTCOS team has organized its evaluation and research efforts into three phases: before medical school, during medical school, and after medical school. The purpose of this commentary is to summarize the research articles presented in this special issue and to answer two fundamental questions: (1) what has been learned from LTCOS research conducted to date, and (2) where should the LTCOS team take its evaluation and research efforts in the future? Answers to these questions are relevant to USU, and they also can inform other medical education institutions and policy makers. What is more, answers to these questions will help to ensure USU meets its societal obligation to provide the highest quality health care to military members, their families, and society at large.

  12. Use of 3D printed models in medical education: A randomized control trial comparing 3D prints versus cadaveric materials for learning external cardiac anatomy.

    Science.gov (United States)

    Lim, Kah Heng Alexander; Loo, Zhou Yaw; Goldie, Stephen J; Adams, Justin W; McMenamin, Paul G

    2016-05-06

    Three-dimensional (3D) printing is an emerging technology capable of readily producing accurate anatomical models, however, evidence for the use of 3D prints in medical education remains limited. A study was performed to assess their effectiveness against cadaveric materials for learning external cardiac anatomy. A double blind randomized controlled trial was undertaken on undergraduate medical students without prior formal cardiac anatomy teaching. Following a pre-test examining baseline external cardiac anatomy knowledge, participants were randomly assigned to three groups who underwent self-directed learning sessions using either cadaveric materials, 3D prints, or a combination of cadaveric materials/3D prints (combined materials). Participants were then subjected to a post-test written by a third party. Fifty-two participants completed the trial; 18 using cadaveric materials, 16 using 3D models, and 18 using combined materials. Age and time since completion of high school were equally distributed between groups. Pre-test scores were not significantly different (P = 0.231), however, post-test scores were significantly higher for 3D prints group compared to the cadaveric materials or combined materials groups (mean of 60.83% vs. 44.81% and 44.62%, P = 0.010, adjusted P = 0.012). A significant improvement in test scores was detected for the 3D prints group (P = 0.003) but not for the other two groups. The finding of this pilot study suggests that use of 3D prints do not disadvantage students relative to cadaveric materials; maximally, results suggest that 3D may confer certain benefits to anatomy learning and supports their use and ongoing evaluation as supplements to cadaver-based curriculums. Anat Sci Educ 9: 213-221. © 2015 American Association of Anatomists. © 2015 American Association of Anatomists.

  13. Medical students' use of Facebook for educational purposes.

    Science.gov (United States)

    Ali, Anam

    2016-06-01

    Medical students use Facebook to interact with one another both socially and educationally. This study investigates how medical students in a UK medical school use Facebook to support their learning. In particular, it identifies the nature of their educational activities, and details their experiences of using an educational Facebook group. Twenty-four medical students who self-identified as being Facebook users were invited to focus groups to attain a general overview of Facebook use within an educational context. A textual analysis was then conducted on a small group of intercalating medical students who used a self-created Facebook group to supplement their learning. Five of these students participated in semi-structured interviews. Six common themes were generated. These included 'collaborative learning', 'strategic uses for the preparation for assessment', 'sharing experiences and providing support', 'creating and maintaining connections', 'personal planning and practical organization' and 'sharing and evaluating educational resources'. Evidence from this study shows that medical students are using Facebook informally to enhance their learning and undergraduate lives. Facebook has enabled students to create a supportive learning community amongst their peers. Medical educators wishing to capitalize on Facebook, as a platform for formal educational initiatives, should remain cautious of intruding on this peer online learning community.

  14. Changing Medical School IT to Support Medical Education Transformation.

    Science.gov (United States)

    Spickard, Anderson; Ahmed, Toufeeq; Lomis, Kimberly; Johnson, Kevin; Miller, Bonnie

    2016-01-01

    Many medical schools are modifying curricula to reflect the rapidly evolving health care environment, but schools struggle to provide the educational informatics technology (IT) support to make the necessary changes. Often a medical school's IT support for the education mission derives from isolated work units employing separate technologies that are not interoperable. We launched a redesigned, tightly integrated, and novel IT infrastructure to support a completely revamped curriculum at the Vanderbilt School of Medicine. This system uses coordinated and interoperable technologies to support new instructional methods, capture students' effort, and manage feedback, allowing the monitoring of students' progress toward specific competency goals across settings and programs. The new undergraduate medical education program at Vanderbilt, entitled Curriculum 2.0, is a competency-based curriculum in which the ultimate goal is medical student advancement based on performance outcomes and personal goals rather than a time-based sequence of courses. IT support was essential in the creation of Curriculum 2.0. In addition to typical learning and curriculum management functions, IT was needed to capture data in the learning workflow for analysis, as well as for informing individual and programmatic success. We aligned people, processes, and technology to provide the IT infrastructure for the organizational transformation. Educational IT personnel were successfully realigned to create the new IT system. The IT infrastructure enabled monitoring of student performance within each competency domain across settings and time via personal student electronic portfolios. Students use aggregated performance data, derived in real time from the portfolio, for mentor-guided performance assessment, and for creation of individual learning goals and plans. Poorly performing students were identified earlier through online communication systems that alert the appropriate instructor or coach of

  15. The current medical education system in the world.

    Science.gov (United States)

    Nara, Nobuo; Suzuki, Toshiya; Tohda, Shuji

    2011-07-04

    To contribute to the innovation of the medical education system in Japan, we visited 35 medical schools and 5 institutes in 12 countries of North America, Europe, Australia and Asia in 2008-2010 and observed the education system. We met the deans, medical education committee and administration affairs and discussed about the desirable education system. We also observed the facilities of medical schools.Medical education system shows marked diversity in the world. There are three types of education course; non-graduate-entry program(non-GEP), graduate-entry program(GEP) and mixed program of non-GEP and GEP. Even in the same country, several types of medical schools coexist. Although the education methods are also various among medical schools, most of the medical schools have introduced tutorial system based on PBL or TBL and simulation-based learning to create excellent medical physicians. The medical education system is variable among countries depending on the social environment. Although the change in education program may not be necessary in Japan, we have to innovate education methods; clinical training by clinical clerkship must be made more developed to foster the training of the excellent clinical physicians, and tutorial education by PBL or TBL and simulation-based learning should be introduced more actively.

  16. Practical trials in medical education

    DEFF Research Database (Denmark)

    Tolsgaard, Martin G; Kulasegaram, Kulamakan M; Ringsted, Charlotte

    2017-01-01

    participants across several settings and (iii) multiple outcome measures with long-term follow-up to evaluate both benefits and risks. Questions posed by practical trials may be proactive in applying theory in the development of educational innovations or reactive to educational reforms and innovations. Non......CONTEXT: Concerns have been raised over the gap between education theory and practice and how research can contribute to inform decision makers on their choices and priorities. Little is known about how educational theories and research outcomes produced under optimal conditions in highly...... controlled settings generalise to the real-life education context. One way of bridging this gap is applying the concept of practical trials in medical education. In this paper we elaborate on characteristics of practical trials and based on examples from medical education we discuss the challenges...

  17. Are medical educators following General Medical Council guidelines on obesity education: if not why not?

    Science.gov (United States)

    2013-01-01

    Background Although the United Kingdom’s (UK’s) General Medical Council (GMC) recommends that graduating medical students are competent to discuss obesity and behaviour change with patients, it is difficult to integrate this education into existing curricula, and clinicians report being unprepared to support patients needing obesity management in practice. We therefore aimed to identify factors influencing the integration of obesity management education within medical schools. Methods Twenty-seven UK and Irish medical school educators participated in semi-structured interviews. Grounded theory principles informed data collection and analysis. Themes emerging directly from the dataset illustrated key challenges for educators and informed several suggested solutions. Results Factors influencing obesity management education included: 1) Diverse and opportunistic learning and teaching, 2) Variable support for including obesity education within undergraduate medical programmes, and 3) Student engagement in obesity management education. Findings suggest several practical solutions to identified challenges including clarifying recommended educational agendas; improving access to content-specific guidelines; and implementing student engagement strategies. Conclusions Students’ educational experiences differ due to diverse interpretations of GMC guidelines, educators’ perceptions of available support for, and student interest in obesity management education. Findings inform the development of potential solutions to these challenges which may be tested further empirically. PMID:23578257

  18. Weighing the cost of educational inflation in undergraduate medical education.

    Science.gov (United States)

    Cusano, Ronald; Busche, Kevin; Coderre, Sylvain; Woloschuk, Wayne; Chadbolt, Karen; McLaughlin, Kevin

    2017-08-01

    Despite the fact that the length of medical school training has remained stable for many years, the expectations of graduating medical students (and the schools that train them) continue to increase. In this Reflection, the authors discuss motives for educational inflation and suggest that these are likely innocent, well-intentioned, and subconscious-and include both a propensity to increase expectations of ourselves and others over time, and a reluctance to reduce training content and expectations. They then discuss potential risks of educational inflation, including reduced emphasis on core knowledge and clinical skills, and adverse effects on the emotional, psychological, and financial wellbeing of students. While acknowledging the need to change curricula to improve learning and clinical outcomes, the authors proffer that it is naïve to assume that we can inflate educational expectations at no additional cost. They suggest that before implementing and/or mandating change, we should consider of all the costs that medical schools and students might incur, including opportunity costs and the impact on the emotional and financial wellbeing of students. They propose a cost-effectiveness framework for medical education and advocate prioritization of interventions that improve learning outcomes with no additional costs or are cost-saving without adversely impacting learning outcomes. When there is an additional cost for improved learning outcomes or a decline in learning outcomes as a result of cost saving interventions, they suggest careful consideration and justification of this trade-off. And when there are neither improved learning outcomes nor cost savings they recommend resisting the urge to change.

  19. Students' Emotions in Simulation-Based Medical Education

    Science.gov (United States)

    Keskitalo, Tuulikki; Ruokamo, Heli

    2017-01-01

    Medical education is emotionally charged for many reasons, especially the fact that simulation-based learning is designed to generate emotional experiences. However, there are very few studies that concentrate on learning and emotions, despite widespread interest in the topic, especially within healthcare education. The aim of this research is to…

  20. Data analysis in medical education research : a multilevel perspective

    NARCIS (Netherlands)

    Leppink, Jimmie

    A substantial part of medical education research focuses on learning in teams (e.g., departments, problem-based learning groups) or centres (e.g., clinics, institutions) that are followed over time. Individual students or employees sharing the same team or centre tend to be more similar in learning

  1. [Internet-based continuing medical education: as effective as live continuing medical education].

    Science.gov (United States)

    Maisonneuve, Hervé; Chabot, Olivier

    2009-10-01

    E-learning consists in using new multimedia and Internet technologies to improve the quality of learning activities by facilitating access to resources and services, as well as exchanges and remote collaboration. The Internet is used for adult education in most professional domains, but its use for continuing medical education is less developed. Advantages are observed for teachers (e.g., permanent updating, interactive links, illustrations, archiving, and collective intelligence) and for the learners (e.g., accessibility, autonomy, flexibility, and adaptable pace). Research and meta-analyses have shown that e-CME is as effective as live events for immediate and retained learning. English-language educational medical websites that grant CME credits are numerous; few such French-language sites can currently grant credits. Accreditation of websites for CME, in its infancy in Europe, is common in North America.

  2. Cultural competence in medical education

    DEFF Research Database (Denmark)

    Sørensen, Janne; Jervelund, Signe Smith; Nørredam, Marie Louise

    2017-01-01

    the survey, and 199 responded. The response rate is 14%. Data were analysed through descriptive calculations, and answers to open-ended questions were coded using content analysis. Results: Results showed that 82.4% of the informants agreed or strongly agreed that the medical education programme should...... in receiving training on cultural competence. Conclusions: Generally, there is interest in and acknowledgement of the importance of cultural competence in Danish medical education among teachers at the University of Copenhagen. This creates an opportunity to implement cultural competence in the medical...

  3. Peer chart audits: A tool to meet Accreditation Council on Graduate Medical Education (ACGME competency in practice-based learning and improvement

    Directory of Open Access Journals (Sweden)

    Patel Sangnya

    2007-07-01

    Full Text Available Abstract Background The Accreditation Council on Graduate Medical Education (ACGME supports chart audit as a method to track competency in Practice-Based Learning and Improvement. We examined whether peer chart audits performed by internal medicine residents were associated with improved documentation of foot care in patients with diabetes mellitus. Methods A retrospective electronic chart review was performed on 347 patients with diabetes mellitus cared for by internal medicine residents in a university-based continuity clinic from May 2003 to September 2004. Residents abstracted information pertaining to documentation of foot examinations (neurological, vascular, and skin from the charts of patients followed by their physician peers. No formal feedback or education was provided. Results Significant improvement in the documentation of foot exams was observed over the course of the study. The percentage of patients receiving neurological, vascular, and skin exams increased by 20% (from 13% to 33% (p = 0.001, 26% (from 45% to 71% (p Conclusion Peer chart audits performed by residents in the absence of formal feedback were associated with improved documentation of the foot exam in patients with diabetes mellitus. Although this study suggests that peer chart audits may be an effective tool to improve practice-based learning and documentation of foot care in diabetic patients, evaluating the actual performance of clinical care was beyond the scope of this study and would be better addressed by a randomized controlled trial.

  4. Formación Continuada: El proceso cognitivo y el aprendizaje profesional Continuning Medical Education: The cognitive process and professional learning

    Directory of Open Access Journals (Sweden)

    María Nolla Domenjó

    2006-03-01

    Full Text Available La investigación en educación médica realizada durante las últimas décadas ha contribuido a poder comprender mejor el proceso de aprendizaje.Los docentes deberían conocer los resultados de estos estudios para poder adecuar los programas de formación a la evidencia disponible.En este artículo se pretende hacer un repaso del estado de la cuestión referente al desarrollo profesional de los médicos. Se considera que el proceso de aprendizaje es un proceso constructivista, autodirigido, colaborativo y contextual. Además de los principios del aprendizaje, se trata el proceso de razonamiento clínico y la importancia de la práctica reflexiva durante toda la vida profesional.Research in medical education undertaken during the past decades has contributed to better understand the learning process. Teachers should know the results of these studies in order to adequate the training programs to the available evidence. This article reviews the state of the art of professional development of physicians. Current trends consider learning as a constructive, self-directed, collaborative and contextual process. Further the learning principles, this issue deals with the clinical reasoning process and the relevance of reflexive practice along the professional life.

  5. Benefits and Limitations of Text Messages to Stimulate Higher Learning Among Community Providers: Participants' Views of an mHealth Intervention to Support Continuing Medical Education in Vietnam.

    Science.gov (United States)

    Sabin, Lora L; Larson Williams, Anna; Le, Bao Ngoc; Herman, Augusta R; Viet Nguyen, Ha; Albanese, Rebecca R; Xiong, Wenjun; Shobiye, Hezekiah Oa; Halim, Nafisa; Tran, Lien Thi Ngoc; McNabb, Marion; Hoang, Hai; Falconer, Ariel; Nguyen, Tam Thi Thanh; Gill, Christopher J

    2017-06-27

    A randomized controlled trial was conducted in 2015 to evaluate a mobile continuing medical education (mCME) intervention that provided daily text messages to community-based physicians' assistants (CBPAs) in Thai Nguyen Province, Vietnam. Although the intervention failed to improve medical knowledge over a 6-month period, a companion qualitative study provided insights on the views and experiences of intervention participants. We conducted focus group discussions (FGDs) and in-depth interviews (IDIs) among participants randomized to receive text messages containing either simple medical facts or quiz questions. Trained interviewers collected data immediately following the conclusion of the trial in December 2015. Using semi-structured question guides, respondents were queried on their views of the intervention, positive and negative, and perceived impacts of the intervention. During analysis, after learning that the intervention had failed to increase knowledge among participants, we also examined reasons for lack of improvement in medical knowledge. All analyses were performed in NVivo using a thematic approach. A total of 70 CBPAs engaged in one of 8 FGDs or an IDI. One-half were men; average age among all respondents was 40 years. Most (81%) practiced in rural settings and most (51%) focused on general medicine. The mean length of work experience was 3 years. All respondents made positive comments about the intervention; convenience, relevance, and quick feedback (quiz format) were praised. Downsides encompassed lack of depth of information, weak interaction, technology challenges, and challenging/irrelevant messages. Respondents described perceived impacts encompassing increased motivation, knowledge, collegial discussions, Internet use to search for more information, and clinical skills. Overall, they expressed a desire for the intervention to continue and recommended expansion to other medical professionals. Overreliance on the text messages, lack of

  6. Learning Styles of Medical and Midwifery Students in Mashhad University of Medical Sciences

    Directory of Open Access Journals (Sweden)

    A Zeraati

    2009-11-01

    Full Text Available Background: Students have individual learning style preferences including visual (V; learning from graphs, charts, and flow diagrams, auditory (A; learning from speech, read-write(R; learning from reading and writing, and kinesthetic (K; learning from touch, hearing, smell, taste, and sight.These preferences can be assessed using the VARK questionnaire.Purpose: We aimed to assess different learning styles of medical students in our collage.Methods: This study was conducted to describe learning styles of 214 Medical and Midwifery students in Mashhad University of medical sciences. By using the English version of the VARK questionnaire, we measured the difference in learning styles of medical students and midwifery students and compared with 57336 global general students who completed the test in VARK website up to Sep 2007.Results: The dominant learning preference of our students was Aural preference (30.8% followed by Read/Write (20.6%, while (7.5% were in Kinesthetic and (5.6% were Visual learners; still most of the students (35.5% represented a multimodal learning preference. No significant difference was found between males and females. The general pattern between medical student and Midwifery student is the same. There was a significant relation between Internship Entrance Exam score and thelearning styles of medical student and who were more Read/Write got higher scores.Conclusion: Knowing that our students have different preferred learning modes will help medical instructors in our faculty develop appropriate learning approaches and explore opportunities so that they will be able to make the educational experience more productive.Key words: MEDICAL EDUCATION, LEARNING MODELS VARK, VISUAL, AUDITORY, READ-WRITE, KINESTHETIC, SSTUDENTS.

  7. Tracking Active Learning in the Medical School Curriculum: A Learning-Centered Approach

    Science.gov (United States)

    McCoy, Lise; Pettit, Robin K; Kellar, Charlyn; Morgan, Christine

    2018-01-01

    Background: Medical education is moving toward active learning during large group lecture sessions. This study investigated the saturation and breadth of active learning techniques implemented in first year medical school large group sessions. Methods: Data collection involved retrospective curriculum review and semistructured interviews with 20 faculty. The authors piloted a taxonomy of active learning techniques and mapped learning techniques to attributes of learning-centered instruction. Results: Faculty implemented 25 different active learning techniques over the course of 9 first year courses. Of 646 hours of large group instruction, 476 (74%) involved at least 1 active learning component. Conclusions: The frequency and variety of active learning components integrated throughout the year 1 curriculum reflect faculty familiarity with active learning methods and their support of an active learning culture. This project has sparked reflection on teaching practices and facilitated an evolution from teacher-centered to learning-centered instruction. PMID:29707649

  8. Tracking Active Learning in the Medical School Curriculum: A Learning-Centered Approach.

    Science.gov (United States)

    McCoy, Lise; Pettit, Robin K; Kellar, Charlyn; Morgan, Christine

    2018-01-01

    Medical education is moving toward active learning during large group lecture sessions. This study investigated the saturation and breadth of active learning techniques implemented in first year medical school large group sessions. Data collection involved retrospective curriculum review and semistructured interviews with 20 faculty. The authors piloted a taxonomy of active learning techniques and mapped learning techniques to attributes of learning-centered instruction. Faculty implemented 25 different active learning techniques over the course of 9 first year courses. Of 646 hours of large group instruction, 476 (74%) involved at least 1 active learning component. The frequency and variety of active learning components integrated throughout the year 1 curriculum reflect faculty familiarity with active learning methods and their support of an active learning culture. This project has sparked reflection on teaching practices and facilitated an evolution from teacher-centered to learning-centered instruction.

  9. Medical Students’ and Interns’ Attitudes toward Medical Ethics Education in a Thai Medical School

    Directory of Open Access Journals (Sweden)

    Sakda Sathirareuangchai

    2016-03-01

    Full Text Available Background: Medical ethics has been accepted as part of every accredited medical curriculum for the past 40 years. Medical students’ attitudes have an important role for development and improvement of the curriculum. Faculty of Medicine Siriraj Hospital is the oldest and largest medical school in Thailand, and has been teaching medical ethics since 1907. Objective: To determine attitudes among medical students and interns toward medical ethics education and understand the factors influencing their attitudes. Methods: Mixed quantitative and qualitative research was conducted with early 6th year medical students and interns. A questionnaire was adapted from previous studies and included some original items. Results: Of the 550 questionnaires distributed, 386 were returned (70.2% response rate. Males (n=180 made up 46.63 % of the sample. Interns (n=219, 56.74 % tended to have more positive attitudes toward ethics learning than did medical students (n = 167, 43.26 %. Male participants tended to agree more with negative statements about ethics learning than did females. There was no statistically significant effect of hometown (Bangkok versus elsewhere or grade point average on attitudes. The main problem cited with medical ethics education was lack of engaging methods. Conclusion: Because clinical experience has an effect on learners’ attitudes towards ethics education, medical ethics should be taught at the appropriate time and with proper techniques, such as drawing explicit ties between ethical principles and real-life situations. Attention to the more detailed aspects of these data should also facilitate improvements to curriculum content, thereby ensuring better educational outcomes.

  10. Continuing Medical Education

    African Journals Online (AJOL)

    A review article willintroduce readers to the educational subject matter, along with one-page summarises (in print) of additional articles that may be accessed in full online. We will continue to offer topical and up-to-date CME material. Readers are encouraged to register with samj.org.za to receive future notifications of new ...

  11. [Two-and-a-half year follow-up study of strategy factors in successful learning to predict academic achievements in medical education].

    Science.gov (United States)

    Lee, Soon Ok; Lee, Sang Yeoup; Baek, Sunyong; Woo, Jae Seok; Im, Sun Ju; Yune, So Jung; Lee, Sun Hee; Kam, Beesung

    2015-06-01

    We performed a two-and-a-half year follow-up study of strategy factors in successful learning to predict academic achievements in medical education. Strategy factors in successful learning were identified using a content analysis of open-ended responses from 30 medical students who were ranked in the top 10 of their class. Core words were selected among their responses in each category and the frequency of the words were counted. Then, a factors survey was conducted among year 2 students, before the second semester. Finally, we performed an analysis to assess the association between the factors score and academic achievement for the same students 2.5 years later. The core words were "planning and execution," "daily reviews" in the study schedule category; "focusing in class" and "taking notes" among class-related category; and "lecture notes," "previous exams or papers," and "textbooks" in the primary self-learning resources category. There were associations between the factors scores for study planning and execution, focusing in class, and taking notes and academic achievement, representing the second year second semester credit score, third year written exam scores and fourth year written and skill exam scores. Study planning was only one independent variable to predict fourth year summative written exam scores. In a two-and-a-half year follow-up study, associations were founded between academic achievement and the factors scores for study planning and execution, focusing in class, and taking notes. Study planning as only one independent variable is useful for predicting fourth year summative written exam score.

  12. Technology-assisted education in graduate medical education: a review of the literature

    OpenAIRE

    Jwayyed, Sharhabeel; Stiffler, Kirk A; Wilber, Scott T; Southern, Alison; Weigand, John; Bare, Rudd; Gerson, Lowell W

    2011-01-01

    Studies on computer-aided instruction and web-based learning have left many questions unanswered about the most effective use of technology-assisted education in graduate medical education. Objective We conducted a review of the current medical literature to report the techniques, methods, frequency and effectiveness of technology-assisted education in graduate medical education. Methods A structured review of MEDLINE articles dealing with "Computer-Assisted Instruction," "Internet or World W...

  13. Mobile technologies in medical education: AMEE Guide No. 105.

    Science.gov (United States)

    Masters, Ken; Ellaway, Rachel H; Topps, David; Archibald, Douglas; Hogue, Rebecca J

    2016-06-01

    Mobile technologies (including handheld and wearable devices) have the potential to enhance learning activities from basic medical undergraduate education through residency and beyond. In order to use these technologies successfully, medical educators need to be aware of the underpinning socio-theoretical concepts that influence their usage, the pre-clinical and clinical educational environment in which the educational activities occur, and the practical possibilities and limitations of their usage. This Guide builds upon the previous AMEE Guide to e-Learning in medical education by providing medical teachers with conceptual frameworks and practical examples of using mobile technologies in medical education. The goal is to help medical teachers to use these concepts and technologies at all levels of medical education to improve the education of medical and healthcare personnel, and ultimately contribute to improved patient healthcare. This Guide begins by reviewing some of the technological changes that have occurred in recent years, and then examines the theoretical basis (both social and educational) for understanding mobile technology usage. From there, the Guide progresses through a hierarchy of institutional, teacher and learner needs, identifying issues, problems and solutions for the effective use of mobile technology in medical education. This Guide ends with a brief look to the future.

  14. Medical education and information and communication technology.

    Science.gov (United States)

    Houshyari, Asefeh Badiey; Bahadorani, Mahnaz; Tootoonchi, Mina; Gardiner, John Jacob Zucker; Peña, Roberto A; Adibi, Peyman

    2012-01-01

    Information and communication technology (ICT) has brought many changes in medical education and practice in the last couple of decades. Teaching and learning medicine particularly has gone under profound changes due to computer technologies, and medical schools around the world have invested heavily either in new computer technologies or in the process of adapting to this technological revolution. In order to catch up with the rest of the world, developing countries need to research their options in adapting to new computer technologies. This descriptive survey study was designed to assess medical students' computer and Internet skills and their attitude toward ICT. Research findings showed that the mean score of self-perceived computer knowledge for male students in general was greater than for female students. Also, students who had participated in various prior computer workshops, had access to computer, Internet, and e-mail, and frequently checked their e-mail had higher mean of self-perceived knowledge and skill score. Finally, students with positive attitude toward ICT scored their computer knowledge higher than those who had no opinion. The results have confirmed that the medical schools, particularly in developing countries, need to bring fundamental changes such as curriculum modification in order to integrate ICT into medical education, creating essential infrastructure for ICT use in medical education and practice, and structured computer training for faculty and students.

  15. Undergraduate medical education in Germany

    Directory of Open Access Journals (Sweden)

    Chenot, Jean-François

    2009-04-01

    Full Text Available The purpose of this article is to give international readers an overview of the organisation, structure and curriculum, together with important advances and problems, of undergraduate medical education in Germany. Interest in medical education in Germany has been relatively low but has gained momentum with the new "Regulation of the Licensing of Doctors" which came into effect in 2003. Medical education had required substantial reform, particularly with respect to improving the links between theoretical and clinical teaching and the extension of interdisciplinary and topic-related instruction. It takes six years and three months to complete the curriculum and training is divided into three sections: basic science (2 years, clinical science (3 years and final clinical year. While the reorganisation of graduate medical education required by the new "Regulation of the Licensing of Doctors" has stimulated multiple excellent teaching projects, there is evidence that some of the stipulated changes have not been implemented. Indeed, whether the medical schools have complied with this regulation and its overall success remains to be assessed systematically. Mandatory external accreditation and periodic reaccreditation of medical faculties need to be established in Germany.

  16. Usage of 3D models of tetralogy of Fallot for medical education: impact on learning congenital heart disease.

    Science.gov (United States)

    Loke, Yue-Hin; Harahsheh, Ashraf S; Krieger, Axel; Olivieri, Laura J

    2017-03-11

    Congenital heart disease (CHD) is the most common human birth defect, and clinicians need to understand the anatomy to effectively care for patients with CHD. However, standard two-dimensional (2D) display methods do not adequately carry the critical spatial information to reflect CHD anatomy. Three-dimensional (3D) models may be useful in improving the understanding of CHD, without requiring a mastery of cardiac imaging. The study aimed to evaluate the impact of 3D models on how pediatric residents understand and learn about tetralogy of Fallot following a teaching session. Pediatric residents rotating through an inpatient Cardiology rotation were recruited. The sessions were randomized into using either conventional 2D drawings of tetralogy of Fallot or physical 3D models printed from 3D cardiac imaging data sets (cardiac MR, CT, and 3D echocardiogram). Knowledge acquisition was measured by comparing pre-session and post-session knowledge test scores. Learner satisfaction and self-efficacy ratings were measured with questionnaires filled out by the residents after the teaching sessions. Comparisons between the test scores, learner satisfaction and self-efficacy questionnaires for the two groups were assessed with paired t-test. Thirty-five pediatric residents enrolled into the study, with no significant differences in background characteristics, including previous clinical exposure to tetralogy of Fallot. The 2D image group (n = 17) and 3D model group (n = 18) demonstrated similar knowledge acquisition in post-test scores. Residents who were taught with 3D models gave a higher composite learner satisfaction scores (P = 0.03). The 3D model group also had higher self-efficacy aggregate scores, but the difference was not statistically significant (P = 0.39). Physical 3D models enhance resident education around the topic of tetralogy of Fallot by improving learner satisfaction. Future studies should examine the impact of models on teaching CHD that

  17. Machine Learning in Medical Imaging.

    Science.gov (United States)

    Giger, Maryellen L

    2018-03-01

    Advances in both imaging and computers have synergistically led to a rapid rise in the potential use of artificial intelligence in various radiological imaging tasks, such as risk assessment, detection, diagnosis, prognosis, and therapy response, as well as in multi-omics disease discovery. A brief overview of the field is given here, allowing the reader to recognize the terminology, the various subfields, and components of machine learning, as well as the clinical potential. Radiomics, an expansion of computer-aided diagnosis, has been defined as the conversion of images to minable data. The ultimate benefit of quantitative radiomics is to (1) yield predictive image-based phenotypes of disease for precision medicine or (2) yield quantitative image-based phenotypes for data mining with other -omics for discovery (ie, imaging genomics). For deep learning in radiology to succeed, note that well-annotated large data sets are needed since deep networks are complex, computer software and hardware are evolving constantly, and subtle differences in disease states are more difficult to perceive than differences in everyday objects. In the future, machine learning in radiology is expected to have a substantial clinical impact with imaging examinations being routinely obtained in clinical practice, providing an opportunity to improve decision support in medical image interpretation. The term of note is decision support, indicating that computers will augment human decision making, making it more effective and efficient. The clinical impact of having computers in the routine clinical practice may allow radiologists to further integrate their knowledge with their clinical colleagues in other medical specialties and allow for precision medicine. Copyright © 2018. Published by Elsevier Inc.

  18. Learning mechanisms to limit medication administration errors.

    Science.gov (United States)

    Drach-Zahavy, Anat; Pud, Dorit

    2010-04-01

    This paper is a report of a study conducted to identify and test the effectiveness of learning mechanisms applied by the nursing staff of hospital wards as a means of limiting medication administration errors. Since the influential report ;To Err Is Human', research has emphasized the role of team learning in reducing medication administration errors. Nevertheless, little is known about the mechanisms underlying team learning. Thirty-two hospital wards were randomly recruited. Data were collected during 2006 in Israel by a multi-method (observations, interviews and administrative data), multi-source (head nurses, bedside nurses) approach. Medication administration error was defined as any deviation from procedures, policies and/or best practices for medication administration, and was identified using semi-structured observations of nurses administering medication. Organizational learning was measured using semi-structured interviews with head nurses, and the previous year's reported medication administration errors were assessed using administrative data. The interview data revealed four learning mechanism patterns employed in an attempt to learn from medication administration errors: integrated, non-integrated, supervisory and patchy learning. Regression analysis results demonstrated that whereas the integrated pattern of learning mechanisms was associated with decreased errors, the non-integrated pattern was associated with increased errors. Supervisory and patchy learning mechanisms were not associated with errors. Superior learning mechanisms are those that represent the whole cycle of team learning, are enacted by nurses who administer medications to patients, and emphasize a system approach to data analysis instead of analysis of individual cases.

  19. Current trends in medical ethics education in Japanese medical schools.

    Science.gov (United States)

    Kurosu, Mitsuyasu

    2012-09-01

    The Japanese medical education program has radically improved during the last 10 years. In 1999, the Task Force Committee on Innovation of Medical Education for the 21st Century proposed a tutorial education system, a core curriculum, and a medical student evaluation system for clinical clerkship. In 2001, the Model Core Curriculum of medical education was instituted, in which medical ethics became part of the core material. Since 2005, a nationwide medical student evaluation system has been applied for entrance to clinical clerkship. Within the Japan Society for Medical Education, the Working Group of Medical Ethics proposed a medical ethics education curriculum in 2001. In line with this, the Japanese Association for Philosophical and Ethical Research in Medicine has begun to address the standardization of the curriculum of medical ethics. A medical philosophy curriculum should also be included in considering illness, health, life, death, the body, and human welfare.

  20. To the point: medical education, technology, and the millennial learner.

    Science.gov (United States)

    Hopkins, Laura; Hampton, Brittany S; Abbott, Jodi F; Buery-Joyner, Samantha D; Craig, LaTasha B; Dalrymple, John L; Forstein, David A; Graziano, Scott C; McKenzie, Margaret L; Pradham, Archana; Wolf, Abigail; Page-Ramsey, Sarah M

    2018-02-01

    This article, from the "To The Point" series that was prepared by the Association of Professors of Gynecology and Obstetrics Undergraduate Medical Education Committee, provides an overview of the characteristics of millennials and describes how medical educators can customize and reframe their curricula and teaching methods to maximize millennial learning. A literature search was performed to identify articles on generational learning. We summarize the importance of understanding the attitudes, ideas, and priorities of millennials to tailor educational methods to stimulate and enhance learning. Where relevant, a special focus on the obstetrics and gynecology curriculum is highlighted. Copyright © 2017 Elsevier Inc. All rights reserved.

  1. Clarifying the learning experiences of healthcare professionals with in situ and off-site simulation-based medical education: a qualitative study.

    Science.gov (United States)

    Sørensen, Jette Led; Navne, Laura Emdal; Martin, Helle Max; Ottesen, Bent; Albrecthsen, Charlotte Krebs; Pedersen, Berit Woetmann; Kjærgaard, Hanne; van der Vleuten, Cees

    2015-10-06

    To examine how the setting in in situ simulation (ISS) and off-site simulation (OSS) in simulation-based medical education affects the perceptions and learning experience of healthcare professionals. Qualitative study using focus groups and content analysis. Twenty-five healthcare professionals (obstetricians, midwives, auxiliary nurses, anaesthesiologists, a nurse anaesthetist and operating theatre nurse) participated in four focus groups and were recruited due to their exposure to either ISS or OSS in multidisciplinary obstetric emergencies in a randomised trial. Departments of obstetrics and anaesthesia, Rigshospitalet, Copenhagen, Denmark. Initially participants preferred ISS, but this changed after the training when the simulation site became of less importance. There was a strong preference for simulation in authentic roles. These perceptions were independent of the ISS or OSS setting. Several positive and negative factors in simulation were identified, but these had no relation to the simulation setting. Participants from ISS and OSS generated a better understanding of and collaboration with the various health professionals. They also provided individual and team reflections on learning. ISS participants described more experiences that would involve organisational changes than the OSS participants did. Many psychological and sociological aspects related to the authenticity of the learning experience are important in simulation, but the physical setting of the simulation as an ISS and OSS is the least important. Based on these focus groups OSS can be used provided that all other authenticity elements are taken into consideration and respected. The only difference was that ISS had an organisational impact and ISS participants talked more about issues that would involve practical organisational changes. ISS and OSS participants did, however, go through similar individual and team learning experiences. Published by the BMJ Publishing Group Limited. For

  2. [The beginning of western medical education].

    Science.gov (United States)

    Kee, C D

    1992-01-01

    Our country had quite an advanced system of medical education during the era of the Koryo Kingdom, and during the Choson Dynasty, the Kyong Guk Dae Jon, in which a systematized medical education was clearly described, was compiled in the era of King Sejong. However, the educational system was not for Western medicine. Western medicine was first introduced to our country in the 9th year of King Injo (1631) when Chong Du Won, Yi Yong Jun, etc. returned from Yon Gyong (Beiuin) with Chik Bang Oe Gi. Knowledge of Western medicine was disseminated by Shil Hak (practical learning) scholars who read a translation in Chinese characters, of Chik Bang Oe Gi. Yi Ik (Song Ho), Yi Gyu Gyong (O ju), Choe Han Gi (Hye Gang), Chong Yak Yong (Ta San), etc., read books of Western medicine and introduced in writing the excellent theory of Western medicine. In addition, Yu Hyong Won (Pan Gye), Pak Ji Won (Yon Am), Pak Je Ga (Cho Jong), etc., showed much interest in Western medicine, but no writings by them about western medicine can be found. With the establishment of a treaty of amity with Japan in the 13th year of King Kojong (1876), followed by the succession of amity treaties with Western powers, foreigners including medical doctors were permitted to flow into this country. At that time, doctors Horace N. Allen, W. B. Scranton, John W. Heron, Rosetta Sherwood (Rosetta S. Hall), etc., came to Korea and inaugurated hospitals, where they taught Western medicine to Korean students. Dr. Horace N. Allen, with the permission of king Kojong, established Che Jung Won in April 1885, and in March 1886, he began at the hospital to provide education of Western medicine to Korean students who were recrutied by the Korean Government. However, the education was not conduted on a regular basis, only training them for work as assistants. This is considered to be the pioneer case of Western medical education in this country. Before that time, Japanese medical doctors came to Korea, but there are no

  3. [Competence based medical education].

    Science.gov (United States)

    Bernabó, Jorge G; Buraschi, Jorge; Olcese, Juan; Buraschi, María; Duro, Eduardo

    2007-01-01

    The strategy of curriculum planning in the majority of the Schools of Medicine has shifted, in the past years, from curriculum models based in contents to outcome oriented curricula. Coincidently the interest in defining and evaluating the clinical competences that a graduate must have has grown. In our country, and particularly in the Associated Hospitals belonging to the Unidad Regional de Enseñanza IV of the UBA School of Medicine, evidence has been gathered showing that the acquisition of clinical competences during the grade is in general insufficient. The foundations and characteristics of PREM (Programa de Requisitos Esenciales Mínimos) are described. PREM is a tool to promote the apprenticeship of abilities and necessary skills for the practice of medicine. The objective of the program is to promote the apprenticeship of a well defined list of core competences considered indispensable for a general practitioner. An outcome oriented curriculum with a clear definition of the expected knowledge, skills and attitudes of a graduate of the programme, the promotion of learning experiences centered in the practice and evaluation tools based in direct observation of the student's performance should contribute to close the gap between what the Medicine Schools traditionally teach and evaluate, and what the doctor needs to know and needs to do to perform correctly its profession.

  4. Forty years of medical education through the eyes of Medical Teacher: From chrysalis to butterfly.

    Science.gov (United States)

    Harden, Ronald M; Lilley, Pat; McLaughlin, Jake

    2018-04-01

    To mark the 40th Anniversary of Medical Teacher, issues this year will document changes in medical education that have taken place over the past 40 years in undergraduate, postgraduate and continuing education with regard to curriculum themes and approaches, teaching and learning methods, assessment techniques and management issues. Trends such as adaptive learning will be highlighted and one issue will look at the medical school of the future. An analysis of papers published in the journal has identified four general trends in medical education - increased collaboration, greater international interest, student engagement with the education process and a move to a more evidence-informed approach to medical education. These changes over the years have been dramatic.

  5. Transitioning From Medical Educator to Scholarship in Medical Education.

    Science.gov (United States)

    Darden, Alix G; DeLeon, Stephanie D

    2017-02-01

    Clinician educators spend most of their time in clinical practice, educating trainees in all types of care settings. Many are involved in formal teaching, curriculum development and learner assessment while holding educational leadership roles as well. Finding time to engage in scholarly work that can be presented and published is an academic expectation, but also a test of efficiency. Just as clinical research originates from problems related to patients, so should educational research originate from issues related to educating the next generation of doctors. Accrediting bodies challenge medical educators to be innovative while faculty already make the best use of the limited time available. One obvious solution is to turn the already existing education work into scholarly work. With forethought, planning, explicit expectations and use of the framework laid out in this article, clinical educators should be able to turn their everyday work and education challenges into scholarly work. Copyright © 2017 Southern Society for Clinical Investigation. Published by Elsevier Inc. All rights reserved.

  6. Evaluation Apprehension and Impression Management in Clinical Medical Education.

    Science.gov (United States)

    McGaghie, William C

    2018-05-01

    Historically, clinical medical education has relied on subjective evaluations of students and residents to judge their clinical competence. The uncertainty associated with these subjective clinical evaluations has produced evaluation apprehension among learners and attempts to manage one's professional persona (impression management) among peers and supervisors. Such behavior has been documented from antiquity through the Middle Ages to the present, including in two new qualitative studies in this issue of Academic Medicine on the social psychology of clinical medical education. New approaches to medical education, including competency-based education, mastery learning, and assessment methods that unite evaluation and education, are slowly changing the culture of clinical medical education. The author of this Invited Commentary argues that this shift will bring greater transparency and accountability to clinical medical education and gradually reduce evaluation apprehension and the impression management motives it produces.

  7. Mobile technology use in medical education.

    Science.gov (United States)

    Luanrattana, Rattiporn; Win, Khin Than; Fulcher, John; Iverson, Don

    2012-02-01

    This study was undertaken to determine the PDA functionalities for a problem-based learning (PBL) medical curriculum at the Graduate School of Medicine (GSM), the University of Wollongong (UOW). The study determines the factors/aspects of incorporating PDAs, and the attitudes of stakeholders regarding the use of PDAs in such a PBL-based medical curriculum. In-depth interviews were designed and conducted with medical faculty, the medical education technology team and honorary medical academics. Four major PDA functionalities were identified, these being: clinical-log, reference, communication, and general functions. Two major aspects for the incorporation of PDAs into the PBL-medical curriculum at the UOW were determined from the interviews, these being technical and practical aspects. There is a potential for PDAs to be incorporated into the PBL-medical curricula at the UOW. However, a clear strategy needs to be defined as to how best to incorporate PDAs into PBL-medical curricula with minimal impact on students, as well as financial and resource implications for the GSM.

  8. Which Form of Medical Training is the Best in Improving Interns' knowledge Related to Advanced Cardiac Life Support Drugs Pharmacology? An Educational Analytical Intervention Study Between Electronic Learning and Lecture-Based Education.

    Science.gov (United States)

    Khoshbaten, Manouchehr; Soleimanpour, Hassan; Ala, Alireza; Shams Vahdati, Samad; Ebrahimian, Kimia; Safari, Saeid; Golzari, Samad Ej; Salek Ranjbarzadeh, Fariba; Mehdizadeh Esfanjani, Robab

    2014-02-01

    Conventional educational systems seem to be improper throughout the cardiopulmonary resuscitation (CPR) teaching process. The most common causes of failed resuscitation are unfamiliarity with cardiopulmonary resuscitation algorithms, poor performance of leader of the CPR team and lack of skilled personnel, coordination among members during resuscitation, and responsibility of staff. Electronic learning, as a new educational method is controversial issue in medical education for improving physicians' practical knowledge and it is inevitable that further research on its effectiveness should be done. The present study is a prospective, pre- and post-educational, cross-sectional research, in which 84 interns were randomly divided into two groups. pre- and post- educational interventions that took place in the Department of Emergency Medicine, interns were evaluated by 21 multiple choice questions related to American Heart Association guidelineson cardiopulmonary resuscitation drugs. Questions were assessed in terms of routes for CPR drugs administration, CPR drug dosage forms, clinical judgment and appropriate CPR drug administration, and the alternative drugs in emergency situations. Data were analyzed by generalized estimating equations regression models and P methods revealed that the mean answering score for 21 questions before education was 7.5 ± 2.6 and no significant difference was observed in groups (P = 0.55). However, after education, the average scores significantly increased to 11.0 ± 3.9 (P method was not associated with considerable increase in the knowledge of interns in this group compared with the lecture-based group (P = 0.49). No significant differences were observed between electronic learning and lecture-based education in improving interns' knowledge of CPR drugs.

  9. Undergraduate medical education in emergency medical care: a nationwide survey at German medical schools.

    Science.gov (United States)

    Beckers, Stefan K; Timmermann, Arnd; Müller, Michael P; Angstwurm, Matthias; Walcher, Felix

    2009-05-12

    Since June 2002, revised regulations in Germany have required "Emergency Medical Care" as an interdisciplinary subject, and state that emergency treatment should be of increasing importance within the curriculum. A survey of the current status of undergraduate medical education in emergency medical care establishes the basis for further committee work. Using a standardized questionnaire, all medical faculties in Germany were asked to answer questions concerning the structure of their curriculum, representation of disciplines, instructors' qualifications, teaching and assessment methods, as well as evaluation procedures. Data from 35 of the 38 medical schools in Germany were analysed. In 32 of 35 medical faculties, the local Department of Anaesthesiology is responsible for the teaching of emergency medical care; in two faculties, emergency medicine is taught mainly by the Department of Surgery and in another by Internal Medicine. Lectures, seminars and practical training units are scheduled in varying composition at 97% of the locations. Simulation technology is integrated at 60% (n = 21); problem-based learning at 29% (n = 10), e-learning at 3% (n = 1), and internship in ambulance service is mandatory at 11% (n = 4). In terms of assessment methods, multiple-choice exams (15 to 70 questions) are favoured (89%, n = 31), partially supplemented by open questions (31%, n = 11). Some faculties also perform single practical tests (43%, n = 15), objective structured clinical examination (OSCE; 29%, n = 10) or oral examinations (17%, n = 6). Emergency Medical Care in undergraduate medical education in Germany has a practical orientation, but is very inconsistently structured. The innovative options of simulation technology or state-of-the-art assessment methods are not consistently utilized. Therefore, an exchange of experiences and concepts between faculties and disciplines should be promoted to guarantee a standard level of education in emergency medical care.

  10. Undergraduate medical education in emergency medical care: A nationwide survey at German medical schools

    Directory of Open Access Journals (Sweden)

    Timmermann Arnd

    2009-05-01

    Full Text Available Abstract Background Since June 2002, revised regulations in Germany have required "Emergency Medical Care" as an interdisciplinary subject, and state that emergency treatment should be of increasing importance within the curriculum. A survey of the current status of undergraduate medical education in emergency medical care establishes the basis for further committee work. Methods Using a standardized questionnaire, all medical faculties in Germany were asked to answer questions concerning the structure of their curriculum, representation of disciplines, instructors' qualifications, teaching and assessment methods, as well as evaluation procedures. Results Data from 35 of the 38 medical schools in Germany were analysed. In 32 of 35 medical faculties, the local Department of Anaesthesiology is responsible for the teaching of emergency medical care; in two faculties, emergency medicine is taught mainly by the Department of Surgery and in another by Internal Medicine. Lectures, seminars and practical training units are scheduled in varying composition at 97% of the locations. Simulation technology is integrated at 60% (n = 21; problem-based learning at 29% (n = 10, e-learning at 3% (n = 1, and internship in ambulance service is mandatory at 11% (n = 4. In terms of assessment methods, multiple-choice exams (15 to 70 questions are favoured (89%, n = 31, partially supplemented by open questions (31%, n = 11. Some faculties also perform single practical tests (43%, n = 15, objective structured clinical examination (OSCE; 29%, n = 10 or oral examinations (17%, n = 6. Conclusion Emergency Medical Care in undergraduate medical education in Germany has a practical orientation, but is very inconsistently structured. The innovative options of simulation technology or state-of-the-art assessment methods are not consistently utilized. Therefore, an exchange of experiences and concepts between faculties and disciplines should be promoted to guarantee a standard

  11. Learning styles of postgraduate and undergraduate medical students.

    Science.gov (United States)

    Shukr, Irfan; Zainab, Roop; Rana, Mowadat H

    2013-01-01

    To compare learning styles of undergraduate and postgraduate medical students. Observational, comparative study. Department of Medical Education, Army Medical College, NUST, Rawalpindi, Pakistan, during February and March 2012. A total of 170 students were divided into two equal groups of undergraduate students of Army Medical College, and postgraduate students of Armed Forces Post Graduate Medical Institute, Rawalpindi. Learning Style Questionnaire (LSQ) was used to assess and categorize the participants into Honey and Mumford classification of learning styles. The responses of each student ranging from 'very strong,' 'strong', 'moderate', and 'low' preference towards activist, theorist, reflector and pragmatist learning styles were compiled. The two groups were compared using SPSS version 17, using Fisher's exact test and the chi-square test. A p-value of $lt; 0.05 was considered significant. Preferences for all four learning styles were present in both groups. The results reveal an overall statistically significant difference in the 'very strong' preference in learning styles between the two study groups (p=0.002). Among the undergraduate students, 45% had a very strong preference for being an activist, whereas in postgraduate students, 38% had very strong preference for reflector, and 35% for theorist. This was statistically significant for activist, and reflector, and attained a p-value of learning style was pragmatist in both undergraduate and postgraduate students. Diversity of learning styles at undergraduate and postgraduate level of medical education calls for multiplicity of instructional and assessment modalities to match them. The learning styles amongst the undergraduate medical students are different from the postgraduates. The postgraduates commonly have the reflector learning style while the undergraduates are predominantly activists and theorists.

  12. Education for a Learning Society.

    Science.gov (United States)

    Tempero, Howard E., Ed.

    The essays contained in this booklet are 1) "Education for a 'Learning Society': The Challenge" by Ernest Bayles in which he calls for focus on learning to live, developing skills of reflection and judgment applicable to vital issues, and reflective teaching; 2) "Teacher Education in a Learning Society" in which David Turney demands teacher…

  13. Gamification and Multimedia for Medical Education: A Landscape Review.

    Science.gov (United States)

    McCoy, Lise; Lewis, Joy H; Dalton, David

    2016-01-01

    Medical education is rapidly evolving. Students enter medical school with a high level of technological literacy and an expectation for instructional variety in the curriculum. In response, many medical schools now incorporate technology-enhanced active learning and multimedia education applications. Education games, medical mobile applications, and virtual patient simulations are together termed gamified training platforms. To review available literature for the benefits of using gamified training platforms for medical education (both preclinical and clinical) and training. Also, to identify platforms suitable for these purposes with links to multimedia content. Peer-reviewed literature, commercially published media, and grey literature were searched to compile an archive of recently published scientific evaluations of gamified training platforms for medical education. Specific educational games, mobile applications, and virtual simulations useful for preclinical and clinical training were identified and categorized. Available evidence was summarized as it related to potential educational advantages of the identified platforms for medical education. Overall, improved learning outcomes have been demonstrated with virtual patient simulations. Games have the potential to promote learning, increase engagement, allow for real-word application, and enhance collaboration. They can also provide opportunities for risk-free clinical decision making, distance training, learning analytics, and swift feedback. A total of 5 electronic games and 4 mobile applications were identified for preclinical training, and 5 electronic games, 10 mobile applications, and 12 virtual patient simulation tools were identified for clinical training. Nine additional gamified, virtual environment training tools not commercially available were also identified. Many published studies suggest possible benefits from using gamified media in medical curriculum. This is a rapidly growing field. More

  14. Collaborative learning in radiologic science education.

    Science.gov (United States)

    Yates, Jennifer L

    2006-01-01

    Radiologic science is a complex health profession, requiring the competent use of technology as well as the ability to function as part of a team, think critically, exercise independent judgment, solve problems creatively and communicate effectively. This article presents a review of literature in support of the relevance of collaborative learning to radiologic science education. In addition, strategies for effective design, facilitation and authentic assessment of activities are provided for educators wishing to incorporate collaborative techniques into their program curriculum. The connection between the benefits of collaborative learning and necessary workplace skills, particularly in the areas of critical thinking, creative problem solving and communication skills, suggests that collaborative learning techniques may be particularly useful in the education of future radiologic technologists. This article summarizes research identifying the benefits of collaborative learning for adult education and identifying the link between these benefits and the necessary characteristics of medical imaging technologists.

  15. Educational psychology in medical learning: a randomised controlled trial of two aide memoires for the recall of causes of electromechanical dissociation.

    Science.gov (United States)

    Dyson, E; Voisey, S; Hughes, S; Higgins, B; McQuillan, P J

    2004-07-01

    Although mnemonics are commonly used in medical education there are few data on their effectiveness. A RCT was undertaken to test the hypothesis that a new aide memoire, "EMD-aide", would be superior to the conventional "4Hs+4Ts" mnemonic in facilitating recall of causes of electromechanical dissociation (EMD) among house officers. "EMD-aide", organises causes of EMD by frequency of occurrence and ease of reversibility: four groups organised by shape, colour, position, numbering, clockwise sequence, and use of arrows. Eight hospitals were randomised in a controlled trial and 149 house officers were then recruited by telephone. Baseline ability to recall causes of EMD was recorded at one minute and overall. House officers were then sent a copy of either "4Hs+4Ts" or "EMD-aide" according to randomisation group. Recall ability was retested at one month. 68 of 80 and 51 of 69 house officers completed the study in the "4Hs+4Ts" and "EMD-aide" groups respectively (NS) with similar baseline recall. After intervention median number of recalled causes was greater in the "EMD-aide" group, eight compared with seven at one minute (p = 0.034) and eight compared with seven overall, p = 0.067. Recall of all eight causes was more common in "EMD-aide" group, 54% compared with 35%, p = 0.054, and these house officers spent longer examining their aide memoire, pEducational psychology of medical learning and the use of aide memoires in general are worthy of further study.

  16. [Realization of the modern educational concept for the organization of the teaching and learning activities at the Department of Forensic Medicine of I.M. Sechenov First Moscow State Medical University, Ministry of Health of the Russian Federation].

    Science.gov (United States)

    Pigolkin, Yu I; Lomakin, Yu V; Leonova, E N

    The modern educational concept for the organization of the teaching and learning activities (continuous, free, and open education) implies the necessity for its implementation the development and introduction of the new approaches to the work with the students. This problem should be addressed based on the use of the up-to-date technologies for education of the adult subjects. Such technologies find the increasingly wider application at the Department of Forensic Medicine of the I.M. Sechenov First Moscow State Medical University. It markedly contributes to the improvement of the quality of education.

  17. Autonomy support for autonomous motivation in medical education.

    Science.gov (United States)

    Kusurkar, Rashmi A; Croiset, Gerda

    2015-01-01

    Medical students often study only to fare well in their examinations or pursue a specific specialty, or study only those topics that they perceive to be useful in medical practice. The motivation for study in these cases comes from external or internal pressures or from the desire to obtain rewards. Self-determination theory (SDT) classifies this type of motivation as controlled motivation and the type of motivation that comes from genuine interest or personal value as autonomous motivation. Autonomous motivation, in comparison with controlled motivation, has been associated with better learning, academic success, and less exhaustion. SDT endorses autonomous motivation and suggests that autonomy support is important for autonomous motivation. The meaning of autonomy is misinterpreted by many. This article tries to focus on how to be autonomy-supportive in medical education. Autonomy support refers to the perception of choice in learning. Some of the ways of supporting autonomy in medical education are small group teaching, problem-based learning, and gradual increase in responsibility of patients. Autonomy-supportive teaching behavior is not a trait and can be learned. Autonomy support in medical education is not limited to bringing in changes in the medical curriculum for students; it is about an overall change in the way of thinking and working in medical schools that foster autonomy among those involved in education. Research into autonomy in medical education is limited. Some topics that need to be investigated are the ideas and perceptions of students and teachers about autonomy in learning. Autonomy support in medical education can enhance autonomous motivation of students for medical study and practice and make them autonomy-supportive in their future medical practice and teaching.

  18. Autonomy support for autonomous motivation in medical education

    Directory of Open Access Journals (Sweden)

    Rashmi A. Kusurkar

    2015-05-01

    Full Text Available Background: Medical students often study only to fare well in their examinations or pursue a specific specialty, or study only those topics that they perceive to be useful in medical practice. The motivation for study in these cases comes from external or internal pressures or from the desire to obtain rewards. Self-determination theory (SDT classifies this type of motivation as controlled motivation and the type of motivation that comes from genuine interest or personal value as autonomous motivation. Autonomous motivation, in comparison with controlled motivation, has been associated with better learning, academic success, and less exhaustion. SDT endorses autonomous motivation and suggests that autonomy support is important for autonomous motivation. The meaning of autonomy is misinterpreted by many. This article tries to focus on how to be autonomy-supportive in medical education. Discussion: Autonomy support refers to the perception of choice in learning. Some of the ways of supporting autonomy in medical education are small group teaching, problem-based learning, and gradual increase in responsibility of patients. Autonomy-supportive teaching behavior is not a trait and can be learned. Autonomy support in medical education is not limited to bringing in changes in the medical curriculum for students; it is about an overall change in the way of thinking and working in medical schools that foster autonomy among those involved in education. Research into autonomy in medical education is limited. Some topics that need to be investigated are the ideas and perceptions of students and teachers about autonomy in learning. Conclusion: Autonomy support in medical education can enhance autonomous motivation of students for medical study and practice and make them autonomy-supportive in their future medical practice and teaching.

  19. Medicine as a Community of Practice: Implications for Medical Education.

    Science.gov (United States)

    Cruess, Richard L; Cruess, Sylvia R; Steinert, Yvonne

    2018-02-01

    The presence of a variety of independent learning theories makes it difficult for medical educators to construct a comprehensive theoretical framework for medical education, resulting in numerous and often unrelated curricular, instructional, and assessment practices. Linked with an understanding of identity formation, the concept of communities of practice could provide such a framework, emphasizing the social nature of learning. Individuals wish to join the community, moving from legitimate peripheral to full participation, acquiring the identity of community members and accepting the community's norms.Having communities of practice as the theoretical basis of medical education does not diminish the value of other learning theories. Communities of practice can serve as the foundational theory, and other theories can provide a theoretical basis for the multiple educational activities that take place within the community, thus helping create an integrated theoretical approach.Communities of practice can guide the development of interventions to make medical education more effective and can help both learners and educators better cope with medical education's complexity. An initial step is to acknowledge the potential of communities of practice as the foundational theory. Educational initiatives that could result from this approach include adding communities of practice to the cognitive base; actively engaging students in joining the community; creating a welcoming community; expanding the emphasis on explicitly addressing role modeling, mentoring, experiential learning, and reflection; providing faculty development to support the program; and recognizing the necessity to chart progress toward membership in the community.

  20. Validity aspects of the patient feedback questionnaire on consultation skills (PFC), a promising learning instrument in medical education

    NARCIS (Netherlands)

    Reinders, M.E.; Blankenstein, A.H.; Knol, D.L.; Vet, de H.C.W.; Marwijk, van H.W.J.

    2009-01-01

    OBJECTIVE: A focus on the communicator competency is considered to be an important requirement to help physicians to acquire consultation skills. A feedback questionnaire, in which patients assess consultation skills might be a useful learning tool. An existing questionnaire on patient perception of

  1. Learning Cultures in Further Education

    Science.gov (United States)

    Hodkinson, Phil; Anderson, Graham; Colley, Helen; Davies, Jenny; Diment, Kim; Scaife, Tony; Tedder, Mike; Wahlberg, Madeleine; Wheeler, Eunice

    2007-01-01

    This paper examines the nature of learning cultures in English Further Education (FE), as revealed in the Transforming Learning Cultures in FE (TLC) research project. In it, we describe four characteristics of a generic FE learning culture: the significance of learning cultures in every site; the significance of the tutor in influencing site…

  2. Medical education in paradise: another facet of Hawaii.

    Science.gov (United States)

    Jacobs, Joshua L; Kasuya, Richard; Sakai, Damon; Haning, William; Izutsu, Satoru

    2008-06-01

    Hawaii is synonymous with paradise in the minds of many. Few know that it is also an environment where high quality medical education is thriving. This paper outlines medical education initiatives beginning with native Hawaiian healers of centuries ago, and continuing to present-day efforts to support top-notch multicultural United States medical education across the continuum of training. The undergraduate medical education program has as its core community-based problem-based learning. The community basis of training is continued in graduate medical education, with resident doctors in the various programs rotating through different clinical experiences at various hospitals and clinics. Continuing medical education is provided by nationally accredited entities, within the local context. Educational outreach activities extend into primary and secondary schools, homeless shelters, neighbouring islands, and to countries throughout the Pacific. Challenges facing the medical education community in Hawaii are similar to those faced elsewhere and include incorporating more technology to improve efficiency, strengthening the vertical integration of the training continuum, better meeting the needs of the state, and paying for it all. Readers are invited to join in addressing these challenges to further the realisation of medical education in paradise as a paradise of medical education.

  3. Medical education for social justice: Paulo Freire revisited.

    Science.gov (United States)

    DasGupta, Sayantani; Fornari, Alice; Geer, Kamini; Hahn, Louisa; Kumar, Vanita; Lee, Hyun Joon; Rubin, Susan; Gold, Marji

    2006-01-01

    Although social justice is an integral component of medical professionalism, there is little discussion in medical education about how to teach it to future physicians. Using adult learning theory and the work of Brazilian educator Paulo Freire, medical educators can teach a socially-conscious professionalism through educational content and teaching strategies. Such teaching can model non-hierarchical relationships to learners, which can translate to their clinical interactions with patients. Freirian teaching can additionally foster professionalism in both teachers and learners by ensuring that they are involved citizens in their local, national and international communities.

  4. Machine learning approaches in medical image analysis

    DEFF Research Database (Denmark)

    de Bruijne, Marleen

    2016-01-01

    Machine learning approaches are increasingly successful in image-based diagnosis, disease prognosis, and risk assessment. This paper highlights new research directions and discusses three main challenges related to machine learning in medical imaging: coping with variation in imaging protocols......, learning from weak labels, and interpretation and evaluation of results....

  5. Medical Student Perspectives of Active Learning: A Focus Group Study.

    Science.gov (United States)

    Walling, Anne; Istas, Kathryn; Bonaminio, Giulia A; Paolo, Anthony M; Fontes, Joseph D; Davis, Nancy; Berardo, Benito A

    2017-01-01

    Phenomenon: Medical student perspectives were sought about active learning, including concerns, challenges, perceived advantages and disadvantages, and appropriate role in the educational process. Focus groups were conducted with students from all years and campuses of a large U.S. state medical school. Students had considerable experience with active learning prior to medical school and conveyed accurate understanding of the concept and its major strategies. They appreciated the potential of active learning to deepen and broaden learning and its value for long-term professional development but had significant concerns about the efficiency of the process, the clarity of expectations provided, and the importance of receiving preparatory materials. Most significantly, active learning experiences were perceived as disconnected from grading and even as impeding preparation for school and national examinations. Insights: Medical students understand the concepts of active learning and have considerable experience in several formats prior to medical school. They are generally supportive of active learning concepts but frustrated by perceived inefficiencies and lack of contribution to the urgencies of achieving optimal grades and passing United States Medical Licensing Examinations, especially Step 1.

  6. Self-Access Learning in Medical English (ME

    Directory of Open Access Journals (Sweden)

    Pop Anişoara

    2017-12-01

    Full Text Available Individual learning is a pre-requisite of formal ME credit allocation in higher education (HE, albeit this may be hard to document and quantify. Edmodo-enhanced self-access learning can be customized to accommodate different learning styles, form basic learning skills and field-specific subskills, extend and expand the students’ medical language use, while also meeting the desiderata of independent curriculum-stipulated learning that can thus be exploited and demonstrated. The paper will reflect on the design of ME multimedia assignments as well as the quantitative and qualitative results, motivation and attitude of a group of medical students working on Edmodo self-access ME learning as part of a class research project for two years.

  7. Use of Social Media to Promote Continuous Learning: A Phased Strategy for Graduate Medical Education Fellowship Implementation

    OpenAIRE

    Jaswant Singh Basraon; Deborah Simpson; Anjan Gupta

    2015-01-01

    Purpose: Clinical developments continue to grow at an accelerated rate, challenging the existing paradigm of information access, dissemination and learning by trainees. The aim of this study was to deliver relevant, concise and newly emerging information on cardiovascular disease using Twitter, and assess its impact. Methods: A Twitter account for our institution’s cardiovascular disease fellowship program was established. All fellows and faculty were encouraged to follow tweets for clini...

  8. Mobile Medical Education (MoMEd - how mobile information resources contribute to learning for undergraduate clinical students - a mixed methods study

    Directory of Open Access Journals (Sweden)

    Davies Bethany S

    2012-01-01

    Full Text Available Abstract Background Mobile technology is increasingly being used by clinicians to access up-to-date information for patient care. These offer learning opportunities in the clinical setting for medical students but the underlying pedagogic theories are not clear. A conceptual framework is needed to understand these further. Our initial questions were how the medical students used the technology, how it enabled them to learn and what theoretical underpinning supported the learning. Methods 387 medical students were provided with a personal digital assistant (PDA loaded with medical resources for the duration of their clinical studies. Outcomes were assessed by a mixed-methods triangulation approach using qualitative and quantitative analysis of surveys, focus groups and usage tracking data. Results Learning occurred in context with timely access to key facts and through consolidation of knowledge via repetition. The PDA was an important addition to the learning ecology rather than a replacement. Contextual factors impacted on use both positively and negatively. Barriers included concerns of interrupting the clinical interaction and of negative responses from teachers and patients. Students preferred a future involving smartphone platforms. Conclusions This is the first study to describe the learning ecology and pedagogic basis behind the use of mobile learning technologies in a large cohort of undergraduate medical students in the clinical environment. We have developed a model for mobile learning in the clinical setting that shows how different theories contribute to its use taking into account positive and negative contextual factors. The lessons from this study are transferable internationally, to other health care professions and to the development of similar initiatives with newer technology such as smartphones or tablet computers.

  9. Mobile Medical Education (MoMEd) - how mobile information resources contribute to learning for undergraduate clinical students - a mixed methods study.

    Science.gov (United States)

    Davies, Bethany S; Rafique, Jethin; Vincent, Tim R; Fairclough, Jil; Packer, Mark H; Vincent, Richard; Haq, Inam

    2012-01-12

    Mobile technology is increasingly being used by clinicians to access up-to-date information for patient care. These offer learning opportunities in the clinical setting for medical students but the underlying pedagogic theories are not clear. A conceptual framework is needed to understand these further. Our initial questions were how the medical students used the technology, how it enabled them to learn and what theoretical underpinning supported the learning. 387 medical students were provided with a personal digital assistant (PDA) loaded with medical resources for the duration of their clinical studies. Outcomes were assessed by a mixed-methods triangulation approach using qualitative and quantitative analysis of surveys, focus groups and usage tracking data. Learning occurred in context with timely access to key facts and through consolidation of knowledge via repetition. The PDA was an important addition to the learning ecology rather than a replacement. Contextual factors impacted on use both positively and negatively. Barriers included concerns of interrupting the clinical interaction and of negative responses from teachers and patients. Students preferred a future involving smartphone platforms. This is the first study to describe the learning ecology and pedagogic basis behind the use of mobile learning technologies in a large cohort of undergraduate medical students in the clinical environment. We have developed a model for mobile learning in the clinical setting that shows how different theories contribute to its use taking into account positive and negative contextual factors.The lessons from this study are transferable internationally, to other health care professions and to the development of similar initiatives with newer technology such as smartphones or tablet computers.

  10. Teaching in Medical Education | Center for Cancer Research

    Science.gov (United States)

    Many postdoctoral fellows are considering an academic career at a medical school. In addition to conducting research, new faculty members must learn effective teaching methodologies. This course will focus on good teaching practices, including basic strategies for developing and organizing a course. The purpose of the "Teaching in Medical Education (TIME)" course is to

  11. Innovations in higher medical education

    Directory of Open Access Journals (Sweden)

    Popkov V.M.

    2014-03-01

    Full Text Available The article is devoted to the innovations in the higher medical education. Particular attention in this sphere is paid to the detailed analysis of the subject as a mechanism of cognition and psycho-emotional aspect. It should be noticed that the development of the university education demands the integration of functional systems to study the general medicine and the art of healing. In conclusion it has been found out that the new methodological approach is necessary to bring the teacher closer to the subject particularly to integrate the relation of the opposites.

  12. Developing and Testing a Self-Regulated Learning Assessment Methodology Combined with Virtual-Patient Simulation in Medical Education

    Science.gov (United States)

    2015-04-09

    Educational Psychologist, 40, 199-209. Bandura , A. (1986). Social foundations of thought and action: A social cognitive theory . Englewood Cliffs, NJ...Hemmer, & Artino, 2013 for an overview), we focus primarily on social -cognitive theoretical principles and frameworks ( Bandura , 1986; Zimmerman, 2000...On a general level, social -cognitive theory emphasizes a proactive, agentic perspective of human functioning whereby individuals seek out

  13. Indirect Medical Education and Disproportionate Share Adj...

    Data.gov (United States)

    U.S. Department of Health & Human Services — Indirect Medical Education and Disproportionate Share Adjustments to Medicare Inpatient Payment Rates The indirect medical education (IME) and disproportionate share...

  14. Ecological theories of systems and contextual change in medical education.

    Science.gov (United States)

    Ellaway, Rachel H; Bates, Joanna; Teunissen, Pim W

    2017-12-01

    Contemporary medical practice is subject to many kinds of change, to which both individuals and systems have to respond and adapt. Many medical education programmes have their learners rotating through different training contexts, which means that they too must learn to adapt to contextual change. Contextual change presents many challenges to medical education scholars and practitioners, not least because of a somewhat fractured and contested theoretical basis for responding to these challenges. There is a need for robust concepts to articulate and connect the various debates on contextual change in medical education. Ecological theories of systems encompass a range of concepts of how and why systems change and how and why they respond to change. The use of these concepts has the potential to help medical education scholars explore the nature of change and understand the role it plays in affording as well as limiting teaching and learning. This paper, aimed at health professional education scholars and policy makers, explores a number of key concepts from ecological theories of systems to present a comprehensive model of contextual change in medical education to inform theory and practice in all areas of medical education. The paper considers a range of concepts drawn from ecological theories of systems, including biotic and abiotic factors, panarchy, attractors and repellers, basins of attraction, homeostasis, resilience, adaptability, transformability and hysteresis. Each concept is grounded in practical examples from medical education. Ecological theories of systems consider change and response in terms of adaptive cycles functioning at different scales and speeds. This can afford opportunities for systematic consideration of responses to contextual change in medical education, which in turn can inform the design of education programmes, activities, evaluations, assessments and research that accommodates the dynamics and consequences of contextual change.

  15. Cross-cultural undergraduate medical education in North America: theoretical concepts and educational approaches.

    Science.gov (United States)

    Reitmanova, Sylvia

    2011-04-01

    Cross-cultural undergraduate medical education in North America lacks conceptual clarity. Consequently, school curricula are unsystematic, nonuniform, and fragmented. This article provides a literature review about available conceptual models of cross-cultural medical education. The clarification of these models may inform the development of effective educational programs to enable students to provide better quality care to patients from diverse sociocultural backgrounds. The approaches to cross-cultural health education can be organized under the rubric of two specific conceptual models: cultural competence and critical culturalism. The variation in the conception of culture adopted in these two models results in differences in all curricular components: learning outcomes, content, educational strategies, teaching methods, student assessment, and program evaluation. Medical schools could benefit from more theoretical guidance on the learning outcomes, content, and educational strategies provided to them by governing and licensing bodies. More student assessments and program evaluations are needed in order to appraise the effectiveness of cross-cultural undergraduate medical education.

  16. Making the Most of Continuing Medical Education: Evidence of Transformative Learning During a Course in Evidence-Based Medicine and Decision Making.

    Science.gov (United States)

    Sokol, Randi G; Shaughnessy, Allen F

    2018-01-01

    Continuing medical information courses have been criticized for not promoting behavior change among their participants. For behavior change to occur, participants often need to consciously reject previous ideas and transform their way of thinking. Transformational learning is a process that cultivates deep emotional responses and can lead to cognitive and behavioral change in learners, potentially facilitating rich learning experiences and expediting knowledge translation. We explored participants' experiences at a 2-day conference designed to support transformative learning as they encounter new concepts within Information Mastery, which challenge their previous frameworks around the topic of medical decision making. Using the lens of transformative learning theory, we asked: how does Information Mastery qualitatively promote perspective transformation and hence behavior change? We used a hermeneutic phenomenologic approach to capture the lived experience of 12 current and nine previous attendees of the "Information Mastery" course through individual interviews, focus groups, and observation. Data were thematically analyzed. Both prevoius and current conference attendees described how the delivery of new concepts about medical decision making evoked strong emotional responses, facilitated personal transformation, and propelled expedited behavior change around epistemological, moral, and information management themes, resulting in a newfound sense of self-efficacy, confidence, and ownership in their ability to make medical decisions. When the topic area holds the potential to foster a qualitative reframing of learners' guiding paradigms and worldviews, attention should be paid to supporting learners' personalized meaning-making process through transformative learning opportunities to promote translation into practice.

  17. Gamification in Action: Theoretical and Practical Considerations for Medical Educators.

    Science.gov (United States)

    Rutledge, Chrystal; Walsh, Catharine M; Swinger, Nathan; Auerbach, Marc; Castro, Danny; Dewan, Maya; Khattab, Mona; Rake, Alyssa; Harwayne-Gidansky, Ilana; Raymond, Tia T; Maa, Tensing; Chang, Todd P

    2018-02-20

    Gamification involves the application of game design elements to traditionally non-game contexts. It is increasingly being used as an adjunct to traditional teaching strategies in medical education to engage the millennial learner and enhance adult learning. The extant literature has focused on determining whether the implementation of gamification results in better learning outcomes, leading to a dearth of research examining its theoretical underpinnings within the medical education context. The authors define gamification, explore how gamification works within the medical education context using self-determination theory as an explanatory mechanism for enhanced engagement and motivation, and discuss common roadblocks and challenges to implementing gamification.While previous gamification research has largely focused on determining whether implementation of gamification in medical education leads to better learning outcomes, the authors recommend that future research should explore how and under what conditions gamification is likely to be effective. Selective, purposeful gamification that aligns with learning goals has the potential to increase learner motivation and engagement and, ultimately, learning. In line with self-determination theory, game design elements can be used to enhance learners' feelings of relatedness, autonomy, and competence to foster learners' intrinsic motivation. Poorly applied game design elements, however, may undermine these basic psychological needs by the overjustification effect or through negative effects of competition. Educators must, therefore, clearly understand the benefits and pitfalls of gamification in curricular design, take a thoughtful approach when integrating game design elements, and consider the types of learners and overarching learning objectives.

  18. Can first-year medical students acquire quality improvement knowledge prior to substantial clinical exposure? A mixed-methods evaluation of a pre-clerkship curriculum that uses education as the context for learning.

    Science.gov (United States)

    Brown, Allison; Nidumolu, Aditya; Stanhope, Alexandra; Koh, Justin; Greenway, Matthew; Grierson, Lawrence

    2018-03-19

    Quality Improvement (QI) training for health professionals is essential to strengthen health systems. However, QI training during medical school is constrained by students' lack of contextual understanding of the health system and an already saturated medical curriculum. The Program for Improvement in Medical Education (PRIME), an extracurricular offered at the Michael G. DeGroote School of Medicineat McMaster University (Hamilton, Canada), addresses these obstacles by having first-year medical students engage in QI by identifying opportunities for improvement within their own education. A sequential explanatory mixed-methods approach, which combines insights derived from quantitative instruments and qualitative interview methods, was used to examine the impact of PRIME on first-year medical students and the use of QI in the context of education. The study reveals that participation in PRIME increases both knowledge of, and comfort with, fundamental QI concepts, even when applied to clinical scenarios. Participants felt that education provided a meaningful context to learn QI at this stage of their training, and were motivated to participate in future QI projects to drive real-world improvements in the health system. Early exposure to QI principles that uses medical education as the context may be an effective intervention to foster QI competencies at an early stage and ultimately promote engagement in clinical QI. Moreover, PRIME also provides a mechanism to drive improvements in medical education. Future research is warranted to better understand the impact of education as a context for later engagement in clinical QI applications as well as the potential for QI methods to be translated directly into education. © Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2018. All rights reserved. No commercial use is permitted unless otherwise expressly granted.

  19. Research on cultivating medical students' self-learning ability using teaching system integrated with learning analysis technology.

    Science.gov (United States)

    Luo, Hong; Wu, Cheng; He, Qian; Wang, Shi-Yong; Ma, Xiu-Qiang; Wang, Ri; Li, Bing; He, Jia

    2015-01-01

    Along with the advancement of information technology and the era of big data education, using learning process data to provide strategic decision-making in cultivating and improving medical students' self-learning ability has become a trend in educational research. Educator Abuwen Toffler said once, the illiterates in the future may not be the people not able to read and write, but not capable to know how to learn. Serving as educational institutions cultivating medical students' learning ability, colleges and universities should not only instruct specific professional knowledge and skills, but also develop medical students' self-learning ability. In this research, we built a teaching system which can help to restore medical students' self-learning processes and analyze their learning outcomes and behaviors. To evaluate the effectiveness of the system in supporting medical students' self-learning, an experiment was conducted in 116 medical students from two grades. The results indicated that problems in self-learning process through this system was consistent with problems raised from traditional classroom teaching. Moreover, the experimental group (using this system) acted better than control group (using traditional classroom teaching) to some extent. Thus, this system can not only help medical students to develop their self-learning ability, but also enhances the ability of teachers to target medical students' questions quickly, improving the efficiency of answering questions in class.

  20. Learning from mistakes. Factors that influence how students and residents learn from medical errors.

    Science.gov (United States)

    Fischer, Melissa A; Mazor, Kathleen M; Baril, Joann; Alper, Eric; DeMarco, Deborah; Pugnaire, Michele

    2006-05-01

    Trainees are exposed to medical errors throughout medical school and residency. Little is known about what facilitates and limits learning from these experiences. To identify major factors and areas of tension in trainees' learning from medical errors. Structured telephone interviews with 59 trainees (medical students and residents) from 1 academic medical center. Five authors reviewed transcripts of audiotaped interviews using content analysis. Trainees were aware that medical errors occur from early in medical school. Many had an intense emotional response to the idea of committing errors in patient care. Students and residents noted variation and conflict in institutional recommendations and individual actions. Many expressed role confusion regarding whether and how to initiate discussion after errors occurred. Some noted the conflict between reporting errors to seniors who were responsible for their evaluation. Learners requested more open discussion of actual errors and faculty disclosure. No students or residents felt that they learned better from near misses than from actual errors, and many believed that they learned the most when harm was caused. Trainees are aware of medical errors, but remaining tensions may limit learning. Institutions can immediately address variability in faculty response and local culture by disseminating clear, accessible algorithms to guide behavior when errors occur. Educators should develop longitudinal curricula that integrate actual cases and faculty disclosure. Future multi-institutional work should focus on identified themes such as teaching and learning in emotionally charged situations, learning from errors and near misses and balance between individual and systems responsibility.

  1. ELearning acceptance in hospitals: continuing medical education of healthcare professionals

    OpenAIRE

    Bachmann, Larissa; Cantoni, Lorenzo

    2009-01-01

    ELearning provides healthcare professionals an interesting alternative of participating to Continuing Medical Education (CME) activities. It offers the possibility to attend courses at a distance, and it allows creating personal learning schedules without needing to leave the job or the family. Hospitals can choose to organize CME activities for their employees and therefore may also opt to offer eLearning activities. The research studies eLearning acceptance in the CME of healthcare p...

  2. Assessing the learning potential of an interactive digital game versus an interactive-style didactic lecture: the continued importance of didactic teaching in medical student education.

    Science.gov (United States)

    Courtier, Jesse; Webb, Emily M; Phelps, Andrew S; Naeger, David M

    2016-12-01

    Games with educational intent offer a possible advantage of being more interactive and increasing learner satisfaction. We conducted a two-armed experiment to evaluate student satisfaction and content mastery for an introductory pediatric radiology topic, taught by either an interactive digital game or with a traditional didactic lecture. Medical students participating in a fourth-year radiology elective were invited to participate. Student cohorts were alternatively given a faculty-supervised 1h session playing a simple interactive digital Tic-tac-toe quiz module on pediatric gastrointestinal radiology or a 1h didactic introductory lecture on the same topic. Survey questions assessed the learners' perceived ability to recall the material as well as their satisfaction with the educational experience. Results of an end-of-rotation exam were reviewed to evaluate a quantitative measure of learning between groups. Survey responses were analyzed with a chi-squared test. Exam results for both groups were analyzed with a paired Student's t-test. Students in the lecture group had higher test scores compared to students in the game group (4.0/5 versus 3.6/5, P = 0.045). Students in the lecture group reported greater understanding and recall of the material than students in the game group (P digital interactive materials reported by students in the game group (P = 0.146). Our experience supported the use of a traditional lecture over a digital game module. While these results might be affected by the specific lecture and digital content in any given comparison, a digital module is not always the superior option.

  3. Hello World Deep Learning in Medical Imaging.

    Science.gov (United States)

    Lakhani, Paras; Gray, Daniel L; Pett, Carl R; Nagy, Paul; Shih, George

    2018-05-03

    There is recent popularity in applying machine learning to medical imaging, notably deep learning, which has achieved state-of-the-art performance in image analysis and processing. The rapid adoption of deep learning may be attributed to the availability of machine learning frameworks and libraries to simplify their use. In this tutorial, we provide a high-level overview of how to build a deep neural network for medical image classification, and provide code that can help those new to the field begin their informatics projects.

  4. Overview of deep learning in medical imaging.

    Science.gov (United States)

    Suzuki, Kenji

    2017-09-01

    The use of machine learning (ML) has been increasing rapidly in the medical imaging field, including computer-aided diagnosis (CAD), radiomics, and medical image analysis. Recently, an ML area called deep learning emerged in the computer vision field and became very popular in many fields. It started from an event in late 2012, when a deep-learning approach based on a convolutional neural network (CNN) won an overwhelming victory in the best-known worldwide computer vision competition, ImageNet Classification. Since then, researchers in virtually all fields, including medical imaging, have started actively participating in the explosively growing field of deep learning. In this paper, the area of deep learning in medical imaging is overviewed, including (1) what was changed in machine learning before and after the introduction of deep learning, (2) what is the source of the power of deep learning, (3) two major deep-learning models: a massive-training artificial neural network (MTANN) and a convolutional neural network (CNN), (4) similarities and differences between the two models, and (5) their applications to medical imaging. This review shows that ML with feature input (or feature-based ML) was dominant before the introduction of deep learning, and that the major and essential difference between ML before and after deep learning is the learning of image data directly without object segmentation or feature extraction; thus, it is the source of the power of deep learning, although the depth of the model is an important attribute. The class of ML with image input (or image-based ML) including deep learning has a long history, but recently gained popularity due to the use of the new terminology, deep learning. There are two major models in this class of ML in medical imaging, MTANN and CNN, which have similarities as well as several differences. In our experience, MTANNs were substantially more efficient in their development, had a higher performance, and required a

  5. Social learning: medical student perceptions of geriatric house calls.

    Science.gov (United States)

    Abbey, Linda; Willett, Rita; Selby-Penczak, Rachel; McKnight, Roberta

    2010-01-01

    Bandura's social learning theory provides a useful conceptual framework to understand medical students' perceptions of a house calls experience at Virginia Commonwealth University School of Medicine. Social learning and role modeling reflect Liaison Committee on Medical Education guidelines for "Medical schools (to) ensure that the learning environment for medical students promotes the development of explicit and appropriate professional attributes (attitudes, behaviors, and identity) in their medical students." This qualitative study reports findings from open-ended survey questions from 123 medical students who observed a preceptor during house calls to elderly homebound patients. Their comments included reflections on the medical treatment as well as interactions with family and professional care providers. Student insights about the social learning process they experienced during house calls to geriatric patients characterized physician role models as dedicated, compassionate, and communicative. They also described patient care in the home environment as comprehensive, personalized, more relaxed, and comfortable. Student perceptions reflect an appreciation of the richness and complexity of details learned from home visits and social interaction with patients, families, and caregivers.

  6. Crowdsourced Curriculum Development for Online Medical Education.

    Science.gov (United States)

    Shappell, Eric; Chan, Teresa M; Thoma, Brent; Trueger, N Seth; Stuntz, Bob; Cooney, Robert; Ahn, James

    2017-12-08

    In recent years online educational content, efforts at quality appraisal, and integration of online material into institutional teaching initiatives have increased. However, medical education has yet to develop large-scale online learning centers. Crowd-sourced curriculum development may expedite the realization of this potential while providing opportunities for innovation and scholarship. This article describes the current landscape, best practices, and future directions for crowdsourced curriculum development using Kern's framework for curriculum development and the example topic of core content in emergency medicine. A scoping review of online educational content was performed by a panel of subject area experts for each step in Kern's framework. Best practices and recommendations for future development for each step were established by the same panel using a modified nominal group consensus process. The most prevalent curriculum design steps were (1) educational content and (2) needs assessments. Identified areas of potential innovation within these steps included targeting gaps in specific content areas and developing underrepresented instructional methods. Steps in curriculum development without significant representation included (1) articulation of goals and objectives and (2) tools for curricular evaluation. By leveraging the power of the community, crowd-sourced curriculum development offers a mechanism to diffuse the burden associated with creating comprehensive online learning centers. There is fertile ground for innovation and scholarship in each step along the continuum of curriculum development. Realization of this paradigm's full potential will require individual developers to strongly consider how their contributions will align with the work of others.

  7. Use of Social Media to Promote Continuous Learning: A Phased Strategy for Graduate Medical Education Fellowship Implementation

    Directory of Open Access Journals (Sweden)

    Jaswant Singh Basraon

    2015-04-01

    Full Text Available Purpose: Clinical developments continue to grow at an accelerated rate, challenging the existing paradigm of information access, dissemination and learning by trainees. The aim of this study was to deliver relevant, concise and newly emerging information on cardiovascular disease using Twitter, and assess its impact. Methods: A Twitter account for our institution’s cardiovascular disease fellowship program was established. All fellows and faculty were encouraged to follow tweets for clinical developments. To assess Twitter use, participation rates and the number of tweets by topics and followers were tracked longitudinally. Impact on fellows was assessed through a brief evaluation survey and an emailed clinical vignette quiz that required the application of evidence to clinical questions. Results: Since project onset in September 2013, there have been 458 tweets, including 21 Health Insurance Portability and Accountability Act (HIPAA-compliant photos and videos, available to 48 followers, including 7 faculty and 20 current or former fellows. More than 60% of fellows achieved perfect quiz performance scores. Evaluations were completed by 94% of fellows (15/16, 25% of whom report checking for information at least every other day, 50% once a week and 25% once a month. Trainees report more frequent literature-based deliberations with faculty since Twitter inception. Conclusions: Twitter can deliver relevant, concise and newly emerging clinical information to trainees, impacting their ability to apply evidence to clinical problems. Trainee and faculty engagement with Twitter increases over time.

  8. Virtual reality in medical education and assessment

    Science.gov (United States)

    Sprague, Laurie A.; Bell, Brad; Sullivan, Tim; Voss, Mark; Payer, Andrew F.; Goza, Stewart Michael

    1994-01-01

    The NASA Johnson Space Center (JSC)/LinCom Corporation, the University of Texas Medical Branch at Galveston (UTMB), and the Galveston Independent School District (GISD) have teamed up to develop a virtual visual environment display (VIVED) that provides a unique educational experience using virtual reality (VR) technologies. The VIVED end product will be a self-contained educational experience allowing students a new method of learning as they interact with the subject matter through VR. This type of interface is intuitive and utilizes spatial and psychomotor abilities which are now constrained or reduced by the current two dimensional terminals and keyboards. The perpetual challenge to educators remains the identification and development of methodologies which conform the learners abilities and preferences. The unique aspects of VR provide an opportunity to explore a new educational experience. Endowing medical students with an understanding of the human body poses some difficulty challenges. One of the most difficult is to convey the three dimensional nature of anatomical structures. The ideal environment for addressing this problem would be one that allows students to become small enough to enter the body and travel through it - much like a person walks through a building. By using VR technology, this effect can be achieved; when VR is combined with multimedia technologies, the effect can be spectacular.

  9. Playful Learning and Montessori Education

    Science.gov (United States)

    Lillard, Angeline S.

    2013-01-01

    Although Montessori education is often considered a form of playful learning, Maria Montessori herself spoke negatively about a major component of playful learning--pretend play, or fantasy--for young children. In this essay, the author discusses this apparent contradiction: how and why Montessori education includes elements of playful learning…

  10. Adult Learning in Educational Tourism

    Science.gov (United States)

    Pitman, Tim; Broomhall, Sue; McEwan, Joanne; Majocha, Elzbieta

    2010-01-01

    This article explores notions of learning in the niche market sector of educational tourism, with a focus on organised recreational tours that promote a structured learning experience as a key feature. It analyses the qualitative findings of surveys and interviews with a cross-section of educational tourism providers in Australia, their…

  11. Innovation Learning in Comprehensive Education?

    Science.gov (United States)

    Lindfors, Eila; Hilmola, Antti

    2016-01-01

    The goal of this article is to clarify the concept of innovation and by presenting a research on the basic education outcome assessment data from an innovation learning perspective, answer to a question: Do students learn innovation in comprehensive education? The empirical information in this research is based on data collected in the national…

  12. A needs assessment for mobile technology use in medical education

    OpenAIRE

    Shahrzad Vafa; Diane E. Chico

    2013-01-01

    Objectives: This study investigated how medical students perceived mobile technology as a component of their learning experience and identified barriers to the use of mobile technology in education. Methods: An anonymous survey developed by EDUCAUSE was distributed to 1000 first year medical students (M1s) at two separate medical schools during three consecutive academic years, 2010 to 2013. The 25-item questionnaire assessed student use of mobile devices, student interest in mobile technolog...

  13. Deep Learning in Medical Image Analysis.

    Science.gov (United States)

    Shen, Dinggang; Wu, Guorong; Suk, Heung-Il

    2017-06-21

    This review covers computer-assisted analysis of images in the field of medical imaging. Recent advances in machine learning, especially with regard to deep learning, are helping to identify, classify, and quantify patterns in medical images. At the core of these advances is the ability to exploit hierarchical feature representations learned solely from data, instead of features designed by hand according to domain-specific knowledge. Deep learning is rapidly becoming the state of the art, leading to enhanced performance in various medical applications. We introduce the fundamentals of deep learning methods and review their successes in image registration, detection of anatomical and cellular structures, tissue segmentation, computer-aided disease diagnosis and prognosis, and so on. We conclude by discussing research issues and suggesting future directions for further improvement.

  14. The medical elective: A unique educational opportunity

    African Journals Online (AJOL)

    including the core values of service learning. The community ... parent medical school requires a year's clinical tuition in another country, including ... 'Medical tourism' has been criticised, as the net gain favours the trainee participant and ...

  15. An Analysis of Research Trends in Articles on Video Usage in Medical Education

    Science.gov (United States)

    Taslibeyaz, Elif; Aydemir, Melike; Karaman, Selcuk

    2017-01-01

    Using technology in medical education has drawn the attention of researchers in the last several years. Especially, videos have been found to promote effective learning in medical education. This study aims to examine general trends and results of articles investigating video usage in medical education and published in SSCI and ERIC journals from…

  16. First year medical students' learning style preferences and their correlation with performance in different subjects within the medical course.

    Science.gov (United States)

    Hernández-Torrano, Daniel; Ali, Syed; Chan, Chee-Kai

    2017-08-08

    Students commencing their medical training arrive with different educational backgrounds and a diverse range of learning experiences. Consequently, students would have developed preferred approaches to acquiring and processing information or learning style preferences. Understanding first-year students' learning style preferences is important to success in learning. However, little is understood about how learning styles impact learning and performance across different subjects within the medical curriculum. Greater understanding of the relationship between students' learning style preferences and academic performance in specific medical subjects would be valuable. This cross-sectional study examined the learning style preferences of first-year medical students and how they differ across gender. This research also analyzed the effect of learning styles on academic performance across different subjects within a medical education program in a Central Asian university. A total of 52 students (57.7% females) from two batches of first-year medical school completed the Index of Learning Styles Questionnaire, which measures four dimensions of learning styles: sensing-intuitive; visual-verbal; active-reflective; sequential-global. First-year medical students reported preferences for visual (80.8%) and sequential (60.5%) learning styles, suggesting that these students preferred to learn through demonstrations and diagrams and in a linear and sequential way. Our results indicate that male medical students have higher preference for visual learning style over verbal, while females seemed to have a higher preference for sequential learning style over global. Significant associations were found between sensing-intuitive learning styles and performance in Genetics [β = -0.46, B = -0.44, p styles and performance in Genetics [β = 0.36, B = 0.43, p learning techniques. Instructors can also benefit by modifying and adapting more appropriate teaching approaches in these

  17. Physician Self-directed Learning and Education

    Directory of Open Access Journals (Sweden)

    Masami Tagawa

    2008-07-01

    Full Text Available Physicians are expected to be life-long learners because updated and effective patient care should be provided while medical and clinical knowledge and skills and social requirements for patient care are rapidly changing. Also, qualified clinical competence needs long periods of training and each physician has to continually learn as long as he/she works as a professional. Self-directed learning is an important factor in adult learning. Medical students' readiness for self-directed learning is not high, and should be improved by medical school and postgraduate training curricula. Garrison proposed a comprehensive model of self-directed learning, and it has dimensions of motivation (entering and task, self-monitoring (responsibility, and self-management (responsibility. To teach individual self-directed learning competencies, the following are important: (1 situate learners to experience “real” problems; (2 encourage learners to reflect on their own performance; (3 create an educational atmosphere in clinical training situations. In 2005, a 2-year mandatory residency program was implemented in Japan, and fewer medical school graduates took residency programs in medical school hospitals and advanced specialty programs provided by medical school departments. Medical school departments provide traditional, but life-long clinical training opportunities. Under the new residency program, an additional postgraduate and continuing medical training system has to be built up to maintain and confirm a physician's competencies. If physicians do clinical work using a scholarly way of thinking with critical analysis of their own competencies and improvement by reflection, they will become an excellent life-long learner.

  18. Vertical integration of medical education: Riverland experience, South Australia.

    Science.gov (United States)

    Rosenthal, D R; Worley, P S; Mugford, B; Stagg, P

    2004-01-01

    Vertical integration of medical education is currently a prominent international topic, resulting from recent strategic initiatives to improve medical education and service delivery in areas of poorly met medical need. In this article, vertical integration of medical education is defined as 'a grouping of curricular content and delivery mechanisms, traversing the traditional boundaries of undergraduate, postgraduate and continuing medical education, with the intent of enhancing the transfer of knowledge and skills between those involved in the learning-teaching process'. Educators closely involved with vertically integrated teaching in the Riverland of South Australia present an analytical description of the educational dynamics of this system. From this analysis, five elements are identified which underpin the process of successful vertical integration: (1) raised educational stakes; (2) local ownership; (3) broad university role; (4) longer attachments; and (5) shared workforce vision. Given the benefits to the Riverland medical education programs described in this paper, it is not surprising that vertical integration of medical education is a popular goal in many rural regions throughout the world. Although different contexts will result in different functional arrangements, it could be argued that the five principles outlined in this article can be applied in any region.

  19. Vocational Education and Learning in Higher Education

    Science.gov (United States)

    de Carvalho, Cynthia Paes

    2012-01-01

    This article discusses the relationship of students with learning and the university in the context of current challenges to vocational education and economic development. Inspired by the research of Pierre Bourdieu, this case study focuses on the relationship of students to learning and the university in Brazil. The survey gathered elements that…

  20. Judicious use of simulation technology in continuing medical education.

    Science.gov (United States)

    Curtis, Michael T; DiazGranados, Deborah; Feldman, Moshe

    2012-01-01

    Use of simulation-based training is fast becoming a vital source of experiential learning in medical education. Although simulation is a common tool for undergraduate and graduate medical education curricula, the utilization of simulation in continuing medical education (CME) is still an area of growth. As more CME programs turn to simulation to address their training needs, it is important to highlight concepts of simulation technology that can help to optimize learning outcomes. This article discusses the role of fidelity in medical simulation. It provides support from a cross section of simulation training domains for determining the appropriate levels of fidelity, and it offers guidelines for creating an optimal balance of skill practice and realism for efficient training outcomes. After defining fidelity, 3 dimensions of fidelity, drawn from the human factors literature, are discussed in terms of their relevance to medical simulation. From this, research-based guidelines are provided to inform CME providers regarding the use of simulation in CME training. Copyright © 2012 The Alliance for Continuing Education in the Health Professions, the Society for Academic Continuing Medical Education, and the Council on CME, Association for Hospital Medical Education.

  1. Reasons for Suboptimal Learning in Medical Microbiology

    Science.gov (United States)

    Struwig, Magdalena C.; Beylefeld, Adriana A.; Joubert, Georgina

    2016-01-01

    Medical microbiology presents a challenge to undergraduate students, mostly due to its extensive content and complexity of unfamiliar terminology. In addition to a narrative review of the literature, we report findings on students' motivation for and approach to learning in the Infections module of an undergraduate medical curriculum, and their…

  2. Review of online educational resources for medical physicists.

    Science.gov (United States)

    Prisciandaro, Joann I

    2013-11-04

    Medical physicists are often involved in the didactic training of graduate students, residents (both physics and physicians), and technologists. As part of continuing medical education, we are also involved in maintenance of certification projects to assist in the education of our peers. As such, it is imperative that we remain current concerning available educational resources. Medical physics journals offer book reviews, allowing us an opportunity to learn about newly published books in the field. A similar means of communication is not currently available for online educational resources. This information is conveyed through informal means. This review presents a summary of online resources available to the medical physics community that may be useful for educational purposes.

  3. Nutrition education in medical school: a time of opportunity.

    Science.gov (United States)

    Kushner, Robert F; Van Horn, Linda; Rock, Cheryl L; Edwards, Marilyn S; Bales, Connie W; Kohlmeier, Martin; Akabas, Sharon R

    2014-05-01

    Undergraduate medical education has undergone significant changes in development of new curricula, new pedagogies, and new forms of assessment since the Nutrition Academic Award was launched more than a decade ago. With an emphasis on a competency-based curriculum, integrated learning, longitudinal clinical experiences, and implementation of new technology, nutrition educators have an opportunity to introduce nutrition and diet behavior-related learning experiences across the continuum of medical education. Innovative learning opportunities include bridging personal health and nutrition to community, public, and global health concerns; integrating nutrition into lifestyle medicine training; and using nutrition as a model for teaching the continuum of care and promoting interprofessional team-based care. Faculty development and identification of leaders to serve as champions for nutrition education continue to be a challenge.

  4. Nutrition education in medical school: a time of opportunity1234

    Science.gov (United States)

    Van Horn, Linda; Rock, Cheryl L; Edwards, Marilyn S; Bales, Connie W; Kohlmeier, Martin; Akabas, Sharon R

    2014-01-01

    Undergraduate medical education has undergone significant changes in development of new curricula, new pedagogies, and new forms of assessment since the Nutrition Academic Award was launched more than a decade ago. With an emphasis on a competency-based curriculum, integrated learning, longitudinal clinical experiences, and implementation of new technology, nutrition educators have an opportunity to introduce nutrition and diet behavior–related learning experiences across the continuum of medical education. Innovative learning opportunities include bridging personal health and nutrition to community, public, and global health concerns; integrating nutrition into lifestyle medicine training; and using nutrition as a model for teaching the continuum of care and promoting interprofessional team-based care. Faculty development and identification of leaders to serve as champions for nutrition education continue to be a challenge. PMID:24646826

  5. How medical education can contribute towards the reduction of maternal mortality in Angola: the teaching/learning process of Gynecology and Obstetrics.

    Science.gov (United States)

    Mendes, M; Barbosa, J; Loureiro, E; Ferreira, M A

    2014-03-01

    In Angola the maternal mortality ratio is among the highest in the world. Medical students are an important target for intervention. To evaluate how students perceive the curricular unit of Gynecology and Obstetrics (G&O) in a public institution of reference in Angola. The study involved a sample of 147 students of the faculty of Medicine of the University Agostinho Neto, Luanda, Angola, attending the curricular unit of G&O in the 5th and 6th years of the medical course. Data were obtained through surveys of opinion. The information of the scales was summarized through the construction of scores from the original items using the Principal Components Analysis. Students evaluated positively the curricular unit although emphasizing the lack of human and physical resources. The 5th year scored with higher values Teacher Performance and 6th year Students' Performance. Both years considered to have insufficient skills to meet the learning objectives. Constraints were identified in the outcomes of the teaching/learning program. Several points emerged as crucial from this study: widespread the areas of teaching/learning, increase the number and quality of teaching staff, improve the monitoring of students and provide adequate infrastructures and medical equipment to support the teaching/learning program.

  6. Online Lectures in Undergraduate Medical Education: Scoping Review.

    Science.gov (United States)

    Tang, Brandon; Coret, Alon; Qureshi, Aatif; Barron, Henry; Ayala, Ana Patricia; Law, Marcus

    2018-04-10

    The adoption of the flipped classroom in undergraduate medical education calls on students to learn from various self-paced tools-including online lectures-before attending in-class sessions. Hence, the design of online lectures merits special attention, given that applying multimedia design principles has been shown to enhance learning outcomes. The aim of this study was to understand how online lectures have been integrated into medical school curricula, and whether published literature employs well-accepted principles of multimedia design. This scoping review followed the methodology outlined by Arksey and O'Malley (2005). Databases, including MEDLINE, PsycINFO, Education Source, FRANCIS, ERIC, and ProQuest, were searched to find articles from 2006 to 2016 related to online lecture use in undergraduate medical education. In total, 45 articles met our inclusion criteria. Online lectures were used in preclinical and clinical years, covering basic sciences, clinical medicine, and clinical skills. The use of multimedia design principles was seldom reported. Almost all studies described high student satisfaction and improvement on knowledge tests following online lecture use. Integration of online lectures into undergraduate medical education is well-received by students and appears to improve learning outcomes. Future studies should apply established multimedia design principles to the development of online lectures to maximize their educational potential. ©Brandon Tang, Alon Coret, Aatif Qureshi, Henry Barron, Ana Patricia Ayala, Marcus Law. Originally published in JMIR Medical Education (http://mededu.jmir.org), 10.04.2018.

  7. E-learning program for medical students in dermatology

    Science.gov (United States)

    Silva, Cristiana Silveira; Souza, Murilo Barreto; Filho, Roberto Silveira Silva; de Medeiros, Luciana Molina; Criado, Paulo Ricardo

    2011-01-01

    INTRODUCTION: Dermatological disorders are common in medical practice. In medical school, however, the time devoted to teaching dermatology is usually very limited. Therefore, online educational systems have increasingly been used in medical education settings to enhance exposure to dermatology. OBJECTIVE: The present study was designed to develop an e-learning program for medical students in dermatology and evaluate the impact of this program on learning. METHODS: This prospective study included second year medical students at the University of Technology and Science, Salvador, Brazil. All students attended discussion seminars and practical activities, and half of the students had adjunct online seminars (blended learning). Tests were given to all students before and after the courses, and test scores were evaluated. RESULTS: Students who participated in online discussions associated with face-to-face activities (blended learning) had significantly higher posttest scores (9.0±0.8) than those who only participated in classes (7.75±1.8, p dermatology. PMID:21655756

  8. Thinking the post-colonial in medical education.

    Science.gov (United States)

    Bleakley, Alan; Brice, Julie; Bligh, John

    2008-03-01

    Western medicine and medical techniques are being exported to all corners of the world at an increasing rate. In a parallel wave of globalisation, Western medical education is also making inroads into medical schools, hospitals and clinics across the world. Despite this rapidly expanding field of activity, there is no body of literature discussing the relationship between post-colonial theory and medical education. Although the potential benefits of international partnerships and collaborations in education are incontrovertible, many medical educators are sometimes too unreflecting about what they are doing when they advocate the export of Western curricula, educational approaches and teaching technologies. The Western medical curriculum is steeped in a particular set of cultural attitudes that are rarely questioned. We argue that, from a critical theoretical perspective, the unconsidered enterprise of globalising the medical curriculum risks coming to represent a 'new wave' of imperialism. Using examples from Japan, India and Southeast Asia, we show how medical schools in non-Western countries struggle with the ingrained cultural assumptions of some curricular innovations such as the objective structured clinical examination, problem-based learning and the teaching of clinical skills. We need to develop greater understanding of the relationship between post-colonial studies and medical education if we are to prevent a new wave of imperialism through the unreflecting dissemination of conceptual frameworks and practices which assume that 'metropolitan West is best'.

  9. Appreciation of learning environment and development of higher-order learning skills in a problem-based learning medical curriculum.

    Science.gov (United States)

    Mala-Maung; Abdullah, Azman; Abas, Zoraini W

    2011-12-01

    This cross-sectional study determined the appreciation of the learning environment and development of higher-order learning skills among students attending the Medical Curriculum at the International Medical University, Malaysia which provides traditional and e-learning resources with an emphasis on problem based learning (PBL) and self-directed learning. Of the 708 participants, the majority preferred traditional to e-resources. Students who highly appreciated PBL demonstrated a higher appreciation of e-resources. Appreciation of PBL is positively and significantly correlated with higher-order learning skills, reflecting the inculcation of self-directed learning traits. Implementers must be sensitive to the progress of learners adapting to the higher education environment and innovations, and to address limitations as relevant.

  10. Professional identity in medical students: pedagogical challenges to medical education.

    Science.gov (United States)

    Wilson, Ian; Cowin, Leanne S; Johnson, Maree; Young, Helen

    2013-01-01

    Professional identity, or how a doctor thinks of himself or herself as a doctor, is considered to be as critical to medical education as the acquisition of skills and knowledge relevant to patient care. This article examines contemporary literature on the development of professional identity within medicine. Relevant theories of identity construction are explored and their application to medical education and pedagogical approaches to enhancing students' professional identity are proposed. The influence of communities of practice, role models, and narrative reflection within curricula are examined. Medical education needs to be responsive to changes in professional identity being generated from factors within medical student experiences and within contemporary society.

  11. Medical students call for national standards in anatomical education.

    Science.gov (United States)

    Farey, John E; Sandeford, Jonathan C; Evans-McKendry, Greg D

    2014-11-01

    The diminishing number of hours dedicated to formal instruction in anatomy has led to a debate within medical education as to the level required for safe clinical practice. We provide a review of the current state of anatomical education in Australian medical schools and state the case for national standards. In light of the review presented, council members of the Australian Medical Students' Association voted to affirm that consideration should be given to developing undergraduate learning goals for anatomy, providing a codified medical student position on the teaching of anatomy in Australian medical schools. Crucially, the position states that time-intensive methods of instruction such as dissection should be a rite of passage for medical students in the absence of evidence demonstrating the superiority of modern teaching methods. We believe the bodies with a vested interest in the quality of medical graduates, namely the Australian Medical Council, Medical Deans Australia & New Zealand, and the postgraduate colleges should collaborate and develop clear guidelines that make explicit the core knowledge of anatomy expected of medical graduates at each stage of their career with a view to safe clinical practice. In addition, Australian universities have a role to play in conducting further research into contemporary learning styles and the most efficacious methods of delivering anatomical education. © 2014 Royal Australasian College of Surgeons.

  12. Medical Robotic and Telesurgical Simulation and Education Research

    Science.gov (United States)

    2012-09-01

    an expert - Gladwell “There is no excuse for the surgeon to learn on the patient.” – William Mayo, 1927 32 Outliers l"n r: · oRY or l l E s MALCOLM ...10,000 hours to become an expert - Gladwell “There is no excuse for the surgeon to learn on the patient.” – William Mayo, 1927 100 Outliers l"n r...oRY or l l E s MALCOLM GLADW Medical Education – Explosion of Information • Medical procedures are becoming more numerous and more complex – medical

  13. E-learning and education in radiology

    International Nuclear Information System (INIS)

    Pinto, Antonio; Brunese, Luca; Pinto, Fabio; Acampora, Ciro; Romano, Luigia

    2011-01-01

    Purpose: To evaluate current applications of e-learning in radiology. Material and methods: A Medline search was performed using PubMed (National Library of Medicine, Bethesda, MD) for publications discussing the applications of e-learning in radiology. The search strategy employed a single combination of the following terms: (1) e-learning, and (2) education and (3) radiology. This review was limited to human studies and to English-language literature. We reviewed all the titles and subsequent the abstract of 29 articles that appeared pertinent. Additional articles were identified by reviewing the reference lists of relevant papers. Finally, the full text of 38 selected articles was reviewed. Results: Literature data shows that with the constant development of technology and global spread of computer networks, in particular of the Internet, the integration of multimedia and interactivity introduced into electronic publishing has allowed the creation of multimedia applications that provide valuable support for medical teaching and continuing medical education, specifically for radiology. Such technologies are valuable tools for collaboration, interactivity, simulation, and self-testing. However, not everything on the World Wide Web is useful, accurate, or beneficial: the quality and veracity of medical information on the World Wide Web is variable and much time can be wasted as many websites do not meet basic publication standards. Conclusion: E-learning will become an important source of education in radiology.

  14. E-learning and education in radiology.

    Science.gov (United States)

    Pinto, Antonio; Brunese, Luca; Pinto, Fabio; Acampora, Ciro; Romano, Luigia

    2011-06-01

    To evaluate current applications of e-learning in radiology. A Medline search was performed using PubMed (National Library of Medicine, Bethesda, MD) for publications discussing the applications of e-learning in radiology. The search strategy employed a single combination of the following terms: (1) e-learning, and (2) education and (3) radiology. This review was limited to human studies and to English-language literature. We reviewed all the titles and subsequent the abstract of 29 articles that appeared pertinent. Additional articles were identified by reviewing the reference lists of relevant papers. Finally, the full text of 38 selected articles was reviewed. Literature data shows that with the constant development of technology and global spread of computer networks, in particular of the Internet, the integration of multimedia and interactivity introduced into electronic publishing has allowed the creation of multimedia applications that provide valuable support for medical teaching and continuing medical education, specifically for radiology. Such technologies are valuable tools for collaboration, interactivity, simulation, and self-testing. However, not everything on the World Wide Web is useful, accurate, or beneficial: the quality and veracity of medical information on the World Wide Web is variable and much time can be wasted as many websites do not meet basic publication standards. E-learning will become an important source of education in radiology. Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.

  15. E-learning and education in radiology

    Energy Technology Data Exchange (ETDEWEB)

    Pinto, Antonio, E-mail: antopin1968@libero.it [Department of Diagnostic Imaging, A. Cardarelli Hospital, I-80131 Naples (Italy); Brunese, Luca, E-mail: lucabrunese@libero.it [Department of Health Science, Faculty of Medicine and Surgery, University of Molise, I-86100 Campobasso (Italy); Pinto, Fabio, E-mail: fpinto1966@libero.it [Department of Diagnostic Imaging, A. Cardarelli Hospital, I-80131 Naples (Italy); Acampora, Ciro, E-mail: itrasente@libero.it [Department of Diagnostic Imaging, A. Cardarelli Hospital, I-80131 Naples (Italy); Romano, Luigia, E-mail: luigia.romano@fastwebnet.it [Department of Diagnostic Imaging, A. Cardarelli Hospital, I-80131 Naples (Italy)

    2011-06-15

    Purpose: To evaluate current applications of e-learning in radiology. Material and methods: A Medline search was performed using PubMed (National Library of Medicine, Bethesda, MD) for publications discussing the applications of e-learning in radiology. The search strategy employed a single combination of the following terms: (1) e-learning, and (2) education and (3) radiology. This review was limited to human studies and to English-language literature. We reviewed all the titles and subsequent the abstract of 29 articles that appeared pertinent. Additional articles were identified by reviewing the reference lists of relevant papers. Finally, the full text of 38 selected articles was reviewed. Results: Literature data shows that with the constant development of technology and global spread of computer networks, in particular of the Internet, the integration of multimedia and interactivity introduced into electronic publishing has allowed the creation of multimedia applications that provide valuable support for medical teaching and continuing medical education, specifically for radiology. Such technologies are valuable tools for collaboration, interactivity, simulation, and self-testing. However, not everything on the World Wide Web is useful, accurate, or beneficial: the quality and veracity of medical information on the World Wide Web is variable and much time can be wasted as many websites do not meet basic publication standards. Conclusion: E-learning will become an important source of education in radiology.

  16. Global health education in Swedish medical schools.

    Science.gov (United States)

    Ehn, S; Agardh, A; Holmer, H; Krantz, G; Hagander, L

    2015-11-01

    Global health education is increasingly acknowledged as an opportunity for medical schools to prepare future practitioners for the broad health challenges of our time. The purpose of this study was to describe the evolution of global health education in Swedish medical schools and to assess students' perceived needs for such education. Data on global health education were collected from all medical faculties in Sweden for the years 2000-2013. In addition, 76% (439/577) of all Swedish medical students in their final semester answered a structured questionnaire. Global health education is offered at four of Sweden's seven medical schools, and most medical students have had no global health education. Medical students in their final semester consider themselves to lack knowledge and skills in areas such as the global burden of disease (51%), social determinants of health (52%), culture and health (60%), climate and health (62%), health promotion and disease prevention (66%), strategies for equal access to health care (69%) and global health care systems (72%). A significant association was found between self-assessed competence and the amount of global health education received (pcurriculum. Most Swedish medical students have had no global health education as part of their medical school curriculum. Expanded education in global health is sought after by medical students and could strengthen the professional development of future medical doctors in a wide range of topics important for practitioners in the global world of the twenty-first century. © 2015 the Nordic Societies of Public Health.

  17. Veterinary medical education in Iraq.

    Science.gov (United States)

    Khamas, Wael A; Nour, Abdelfattah

    2004-01-01

    Iraq is an agricultural country with a large population of animals: sheep, goats, cattle, water buffaloes, horses, donkeys, mules, and camels. In the 1980s, the successful poultry industry managed to produce enough table eggs and meat to satisfy the needs of the entire population; at one time, the thriving fish industry produced different types of fish for Iraqis' yearly fish consumption. There are four veterinary colleges in Iraq, which have been destroyed along with the veterinary services infrastructure. Understandably, improvements to the quality of veterinary education and services in Iraq will be reflected in a healthy and productive animal industry, better food quality and quantity, fewer zoonotic diseases, and more income-generating activities in rural areas. Thus, if undergraduate, graduate, and continuing education programs are improved, the veterinary medical profession will attract more competent students. This will satisfy the country's increased demand for competent veterinarians in both public and private sectors. Although Iraq has an estimated 5,000-7,000 veterinarians, there is a need for quality veterinary services and for more veterinarians. In addition, there is a need for the improvement of veterinary diagnostic facilities, as zoonotic diseases are always highly probable in this region. This article provides insight into the status of veterinary medical education and veterinary services in Iraq before and after the 1991 Gulf War and gives suggestions for improvement and implementation of new programs. Suggestions are also offered for improving veterinary diagnostic facilities and the quality of veterinary services. Improving diagnostic facilities and the quality of veterinary services will enhance animal health and production in Iraq and will also decrease the likelihood of disease transmission to and from Iraq. Threats of disease transmission and introduction into the country have been observed and reported by several international

  18. Renewed roles for librarians in problem-based learning in the medical curriculum.

    Science.gov (United States)

    Mi, Misa

    2011-01-01

    Problem-based learning (PBL) is a teaching-learning process or method of instruction that is widely used in medical education curricula. Librarians play important roles as facilitators for PBL as well as guides for information resources. Involvement in PBL activities presents unique opportunities to incorporate library resources and instruction into the medical curriculum. This article reviews the problem-based learning method within the conceptual framework of the learning theory of constructivism. It describes how a medical librarian at a U.S. medical school used emerging technologies to facilitate PBL small group case discussions, guide students to quality information resources, and enhance the learning environment for the PBL process.

  19. Medical Readers' Theater: Relevance to Geriatrics Medical Education

    Science.gov (United States)

    Shapiro, Johanna; Cho, Beverly

    2011-01-01

    Medical Readers' Theater (MRT) is an innovative and simple way of helping medical students to reflect on difficult-to-discuss topics in geriatrics medical education, such as aging stereotypes, disability and loss of independence, sexuality, assisted living, relationships with adult children, and end-of-life issues. The authors describe a required…

  20. From cases to projects in problem-based medical education

    Directory of Open Access Journals (Sweden)

    Diana Stentoft

    2014-06-01

    Full Text Available Problem-based learning (PBL based on patient cases has become a well-established worldwide educational approach in medical education. Recent studies indicate that case-based PBL when used throughout an entire curriculum may develop into a counter-productive routine for students as well as teachers. Consequently, there is a need to develop PBL approaches further allowing students to work with more ill-defined problems and alternative learning structures. In this paper, we argue that this can be realised by introducing project-PBL into the medical curriculum, as in the medical education at Aalborg University, Denmark. We outline organisations of case- and project- PBL in the medical curriculum and present an explorative study of 116 first and second year students’ experiences working in the two settings of PBL. Results reveal that students generally rate their PBL experiences positively however, project-PBL is rated more positively than case-PBL on all parameters studied. These results invite further consideration of the differences in working with cases and projects. Two central differences are discussed; the nature of the problem as the trigger of learning and students' possibilities for directing their own learning processes. The study demonstrates that introducing project-PBL may contribute significantly in problem-based medical education. However, the need for extensive research into advantages and limitations of the combined use of case- and project-PBL is also emphasised.

  1. A Historical Perspective of Medical Education

    Science.gov (United States)

    Balcioglu, Huseyin; Bilge, Ugur; Unluoglu, Ilhami

    2015-01-01

    Even though there are significant developments in recent years in medical education, physicians are still needed reform and innovation in order to prepare the information society. The spots in the forefront of medical education in recent years; holistic approach in all processes, including health education, evidence-based medicine and…

  2. Rationing medical education | Walsh | African Health Sciences

    African Journals Online (AJOL)

    Even though some stakeholders in medical education might be taken aback at the prospect of rationing, the truth is that rationing has always occurred in one form or another in medical education and in healthcare more broadly. Different types of rationing exist in healthcare professional education. For example rationing may ...

  3. Curriculum Trends in Medical Education in Mauritius

    Directory of Open Access Journals (Sweden)

    Aprajita Panwar

    2017-08-01

    Full Text Available Medical education began in Mauritius with the establishment of Sir Seewoosagur Ramgoolam (SSR Medical college in 1999 followed by a breakthrough in field of medicine with opening of Anna Medical College and Research Center (AMCRC in 2010 and Padhamshree DY PatilMedical College in 2013.Though it was an appreciable beginning of medical education in Mauritius, medical schools are currently experiencing hardships in delivering right medical exposure to health care professionals.Mauritian medical schools now need to review their current teaching methodology and present curriculum to keep pace with global standards. Integrated curriculum which is now gaining popularity world-wide is to be introduced and strongly implemented in medical schools in Mauritius. This curriculum would breach barriers and improve integration between pre-clinical and clinical sciences thus facilitating long-term retention of knowledge in medical schools and develop a professionally soundapproach towards management of health care. Horizontal curriculum can be replaced by vertical and spiral integration. For this major change, faculty engaged in medical profession are to be acquainted about innovative strategies and emerging trends in medical education. Thus this article aims to highlight the current scenario of medical education in Mauritius and also offer suggestions about possible future strategies to be implemented in medical colleges.Keywords: MEDICAL EDUCATION, CURRICULUM, CHALLENGES

  4. What kind of motivation drives medical students' learning quests?

    Science.gov (United States)

    Sobral, Dejano T

    2004-09-01

    To describe the patterns of medical students' motivation early in the undergraduate programme and to examine their relationships with learning features and motivational outcomes. The Academic Motivation Scale (AMS) was administered after the first medical year to 297 students of both sexes from consecutive classes within a 4-year timeframe. Measures of learner orientation and reflection in learning were also obtained. Academic achievement and peer tutoring experience were recorded during a 2-year follow-up. Quantitative approaches included analysis of variance, correlational and classificatory analyses of the data. The profile of the students' responses revealed higher levels of autonomous motivation than of controlled motivation although such measures were positively related. Correlation analysis showed significant association of autonomous motivation with higher levels of meaning orientation, reflection in learning, academic achievement, cross-year peer-tutoring experience, and intention to continue with studies. Classificatory analysis identified 4 student groups with distinct patterns of motivation. Analysis of variance revealed significant and consistent differences in learning features and outcomes among such groups. The findings indicate that medical students portray distinct patterns of autonomous and controlled motivation that seem to relate to the learners' frame of mind towards learning as well as the educational environment. Autonomous motivation had closer relationships than controlled motivation with measures of self-regulation of learning and academic success in the context of a demanding medical programme.

  5. Intervention in the learning process of second year medical students

    Directory of Open Access Journals (Sweden)

    Fariba Haghani

    2011-01-01

    Full Text Available Background: It has been demonstrated that educational programs that focus on study skills could improve learning strategies and academic success of university students. Due to the important role of such supportive programs aimed at the fresh students, this survey was carried out to investigate the effectiveness of an optional course of learning and study skills on learning and study skills of second year medical students. Methods: This quasi-experimental research was performed on 32 eligible medical students in Isfahan University of Medical Sciences, who chose the optional course of learning and study skills. Both of intervention and control groups completed Learning and Study Strategies Inventory (LASSI at the beginning and the end of semester. Students in the intervention group studied different components of reading and learning skills using team working. Their final scores were calculated based on written reports on application of study skills in exams (portfolio, self-evaluation form and their progress in LASSI test. The mean differences of scores before and after intervention in each of ten test scales were compared between two groups. Results: The results showed that the mean difference scores in attitude, time management, information processing, main ideas selection, study aids and self-testing scales were significantly higher in the intervention group (p < 0.05 for all. Conclusions: This optional course successfully improved learning strategies in the corresponding classroom activities. However, there was no improvement in the motivational scale which is tightly related to the educational success. Therefore, the implementation of educational programs with an emphasis on meta-cognitional aspects of learning is recommended.

  6. The objectives-based logbook : a tool for evaluation of medical education

    NARCIS (Netherlands)

    Raghoebar-Krieger, Helga Maria Josette

    2001-01-01

    In the Netherlands medical schools are responsible for the quality control of medical education. Quality control of education relates to the evaluation of what students have learned (the output). Because the output depends on factors such as the learning processes of students and the input of

  7. Introducing Handheld Computing for Interactive Medical Education

    Directory of Open Access Journals (Sweden)

    Joseph Finkelstein

    2005-04-01

    Full Text Available The goals of this project were: (1 development of an interactive multimedia medical education tool (CO-ED utilizing modern features of handheld computing (PDA and major constructs of adult learning theories, and (2 pilot testing of the computer-assisted education in residents and clinicians. Comparison of the knowledge scores using paired t-test demonstrated statistically significant increase in subject knowledge (p<0.01 after using CO-ED. Attitudinal surveys were analyzed by total score (TS calculation represented as a percentage of a maximal possible score. The mean TS was 74.5±7.1%. None of the subjects (N=10 had TS less than 65% and in half of the subjects (N=5 TS was higher than 75%. Analysis of the semi-structured in-depth interviews showed strong support of the study subjects in using PDA as an educational tool, and high acceptance of CO-ED user interface. We concluded that PDA have a significant potential as a tool for clinician education.

  8. Radiation education in medical and Co-medical schools

    International Nuclear Information System (INIS)

    Koga, Sukehiko

    2005-01-01

    In the medical field, ionizing radiation is very widely in diagnostic and therapeutic procedures, Around 60% of environmental radiation, including natural background and man-made sources of radiation, is caused from medical exposure in Japan. Education of radiation in medical ad co-medical schools are mainly aimed to how effectively use the radiation, and the time shared to fundamental physics, biology and safety or protection of radiation is not so much. (author)

  9. Commentary: discovering a different model of medical student education.

    Science.gov (United States)

    Watson, Robert T

    2012-12-01

    Traditional medical schools in modern academic health centers make discoveries, create new knowledge and technology, provide innovative care to the sickest patients, and educate future academic and practicing physicians. Unfortunately, the growth of the research and clinical care missions has sometimes resulted in a loss of emphasis on the general professional education of medical students. The author concludes that it may not be practical for many established medical schools to functionally return to the reason they were created: for the education of medical students.He had the opportunity to discover a different model of medical student education at the first new MD-granting medical school created in the United States in 25 years (in 2000), the Florida State University College of Medicine. He was initially skeptical about how its distributed regional campuses model, using practicing primary care physicians to help medical students learn in mainly ambulatory settings, could be effective. But his experience as a faculty member at the school convinced him that the model works very well.He proposes a better alignment of form and function for many established medical schools and an extension of the regional community-based model to the formation of community-based primary care graduate medical education programs determined by physician workforce needs and available resources.

  10. Pain education in North American medical schools.

    Science.gov (United States)

    Mezei, Lina; Murinson, Beth B

    2011-12-01

    Knowledgeable and compassionate care regarding pain is a core responsibility of health professionals associated with better medical outcomes, improved quality of life, and lower healthcare costs. Education is an essential part of training healthcare providers to deliver conscientious pain care but little is known about whether medical school curricula meet educational needs. Using a novel systematic approach to assess educational content, we examined the curricula of Liaison Committee on Medical Education-accredited medical schools between August 2009 and February 2010. Our intent was to establish important benchmark values regarding pain education of future physicians during primary professional training. External validation was performed. Inclusion criteria required evidence of substantive participation in the curriculum management database of the Association of American Medical Colleges. A total of 117 U.S. and Canadian medical schools were included in the study. Approximately 80% of U.S. medical schools require 1 or more pain sessions. Among Canadian medical schools, 92% require pain sessions. Pain sessions are typically presented as part of general required courses. Median hours of instruction on pain topics for Canadian schools was twice the U.S. median. Many topics included in the International Association for the Study of Pain core curriculum received little or no coverage. There were no correlations between the types of pain education offered and school characteristics (eg, private versus public). We conclude that pain education for North American medical students is limited, variable, and often fragmentary. There is a need for innovative approaches and better integration of pain topics into medical school curricula. This study assessed the scope and scale of pain education programs in U.S. and Canadian medical schools. Significant gaps between recommended pain curricula and documented educational content were identified. In short, pain education was

  11. [Medical education for laity: Plutarch's contribution].

    Science.gov (United States)

    Jori, Alberto

    2009-01-01

    In his treatise De tuenda sanitate praecepta (Ygieina paraggelmata: Prescriptions for Health), the Greek philosopher Plutarch of Chaeronea (b. about 45 A.D., d. about 125 A.D.) pursues two aims, which have a deep pedagogical character and are closely connected. To begin with, he would like to provide both his colleagues, the "philosophers" (the equivalent of today's "intellectuals") and politicians with some sanitary/medical suggestions, so that they may adopt a healthy life-style, and consequently avoid disease to the best of their ability. Plutarch thus proposes that "philosophers" be made aware of the opportunity, or better yet, of the necessity of learning some medical notions: in their general education (paideia), his colleagues should allow medicine its adequate space, at least in regard to the practical side which relates to a "life-regimen". At the same time, Plutarch wishes to impart a moral teaching: in order to remain in good health we must distance ourselves from irrational impulses and social conventions which induce us to practice detrimental behaviours. In this context, the author stresses the need to respect the principles of moderation--both medical and ethical: those of frugality, self-control, and naturalness. His advice is still valid and effective today. Within the background of Plutarch's treatise there is yet a third, implicit aim: to urge the physicians not to imprison themselves in their professional specialization, but rather to also acquire a philosophical education. Such education would indeed allow them to achieve a whole, "holistic" picture of man, who is at the same time soul and body.

  12. A student's perspective on medical ethics education.

    Science.gov (United States)

    Terndrup, Christopher

    2013-12-01

    Despite many efforts to increase ethics education in US medical schools, barriers continue to arise that impede the production of morally driven physicians who practice me