Practical nuclear medicine

CERN Document Server

Gemmell, Howard G; Sharp, Peter F

2006-01-01

Nuclear medicine plays a crucial role in patient care, and this book is an essential guide for all practitioners to the many techniques that inform clinical management. The first part covers the scientific basis of nuclear medicine, the rest of the book deals with clinical applications. Diagnostic imaging has an increasingly important role in patient management and, despite advances in other modalities (functional MRI and spiral CT), nuclear medicine continues to make its unique contribution by its ability to demonstrate physiological function. This book is also expanded by covering areas of d

Applications of slant collimators to cardiovascular nuclear medicine

International Nuclear Information System (INIS)

Nishimura, Tsunehiko; Uehara, Toshio; Hayashi, Makoto; Kagawa, Masaaki; Kozuka, Takahiro

1980-01-01

The RI examination of hearts is attracting increasingly interest as cardiovascular nuclear medicine in recent years. As for the background, there are the development of such radioactive agents with high heart-muscle specificity as 201 TICI and the minicomputer capability of measuring rapid contraction and expansion of hearts. Under the situation, the variety of contrivance in collimators is attempted for higher accuracy in grasping the form and function of hearts. With a 30 deg inclination slant type collimator (made by EDC firm) which became available, its applications as cardiovascular nuclear medicine have been examined in heart-muscle scintigraphy and heart RI angiography. These results are described. In the above connection, a bifocal collimator and a seven pinhole collimator are also explained briefly. (J.P.N.)

Nuclear power in human medicine

International Nuclear Information System (INIS)

Kuczera, Bernhard

2012-01-01

The public widely associate nuclear power with the megawatt dimensions of nuclear power plants in which nuclear power is released and used for electricity production. While this use of nuclear power for electricity generation is rejected by part of the population adopting the polemic attitude of ''opting out of nuclear,'' the application of nuclear power in medicine is generally accepted. The appreciative, positive term used in this case is nuclear medicine. Both areas, nuclear medicine and environmentally friendly nuclear electricity production, can be traced back to one common origin, i.e. the ''Atoms for Peace'' speech by U.S. President Eisenhower to the U.N. Plenary Assembly on December 8, 1953. The methods of examination and treatment in nuclear medicine are illustrated in a few examples from the perspective of a nuclear engineer. Nuclear medicine is a medical discipline dealing with the use of radionuclides in humans for medical purposes. This is based on 2 principles, namely that the human organism is unable to distinguish among different isotopes in metabolic processes, and the radioactive substances are employed in amounts so small that metabolic processes will not be influenced. As in classical medicine, the application of these principles serves two complementary purposes: diagnosis and therapy. (orig.)

The application of nuclear-medicine methods in veterinary medicine

International Nuclear Information System (INIS)

Simpraga, M.; Kraljevic, P.; Dodig, D.

1996-01-01

X-radiography and ultrasound imaging are well established and widely used in veterinary practice, but it is not the same situation with radioisotope imaging. In veterinary practice the above mentioned methods of nuclear medicine are developed only in two countries in Europe. That is not doubt due, so bar, to the difficulties in obtaining satisfactory supply of radioisotopes and to the relatively high cost of scanning equipment. However, in collaboration with the Department of Radiation Protection and Nuclear Medicine of the Medical Faculty in Zagreb, Croatia, we have chance to develop the use of those methods in clinical veterinary practice in Zagreb. That is way in this paper an overview of the application of radioisotopes imaging in veterinary medicine is given. In small animals skeletal changes, lung perusions, brain lesions, space occupying lesions in the liver and its function and hearth function can be usefully searched by a gamma camera and its associated computer. In equine practice scintigraphy of bones, liver, hearth, pulmonary circulation and ventilation is described. The largest amount of radioactive material is used during gamma camera scanning of the skeletons of horses. In this cases the radiation dose 1-2 m from the animal is approximately 3 μSv/h. That is why the protection of personal involved in radioisotope scanning in veterinary medicine must be also regulated by low of radiation protection. Also, the animals should be confined to a controlled area for 2-3 days after scanning before being returned to their owners. After this period the area must be cleaned. (author)

Nuclear medicine applications for the diabetic foot

International Nuclear Information System (INIS)

Hartshorne, M.F.; Peters, V.

1987-01-01

Although not frequently described in the podiatric literature, nuclear medicine imaging may be of great assistance to the clinical podiatrist. This report reviews in detail the use of modern nuclear medicine approaches to the diagnosis and management of the diabetic foot. Nuclear medicine techniques are helpful in evaluating possible osteomyelitis, in determining appropriate amputation levels, and in predicting response to conservative ulcer management. Specific indications for bone, gallium, and perfusion imaging are described

Nuclear medicine

International Nuclear Information System (INIS)

Blanquet, Paul; Blanc, Daniel.

1976-01-01

The applications of radioisotopes in medical diagnostics are briefly reviewed. Each organ system is considered and the Nuclear medicine procedures pertinent to that system are discussed. This includes, the principle of the test, the detector and the radiopharmaceutical used, the procedure followed and the clinical results obtained. The various types of radiation detectors presently employed in Nuclear Medicine are surveyed, including scanners, gamma cameras, positron cameras and procedures for obtaining tomographic presentation of radionuclide distributions [fr

Handbooks in radiology: Nuclear medicine

International Nuclear Information System (INIS)

Datz, F.L.

1988-01-01

This series of handbooks covers the basic facts, major concepts and highlights in seven radiological subspecialties. ''Nuclear Medicine'' is a review of the principles, procedures and clinical applications that every radiology resident and practicing general radiologist should know about nuclear medicine. Presented in an outline format it covers all of the organ systems that are imaged by nuclear medicine

Digital Nuclear Medicine

International Nuclear Information System (INIS)

Erickson, J.J.; Rollo, F.D.

1982-01-01

This book is meant ''to provide the most comprehensive presentation of the technical as well as clincial aspects of computerized nuclear medicine''. It covers basic applications, and advice on acquisition and quality control of nuclear medicine computer systems. The book evolved from a series of lectures given by the contributors during the computer preceptorship program at their institution, Vanderbilt University in Nashville

Recent applications of nuclear medicine in diagnostics: II part

Directory of Open Access Journals (Sweden)

Giorgio Treglia

2013-04-01

Full Text Available Introduction: Positron-emission tomography (PET and single photon emission computed tomography (SPECT are effective diagnostic imaging tools in several clinical settings. The aim of this article (the second of a 2-part series is to examine some of the more recent applications of nuclear medicine imaging techniques, particularly in the fields of neurology, cardiology, and infection/inflammation. Discussion: A review of the literature reveals that in the field of neurology nuclear medicine techniques are most widely used to investigate cognitive deficits and dementia (particularly those associated with Alzheimer disease, epilepsy, and movement disorders. In cardiology, SPECT and PET also play important roles in the work-up of patients with coronary artery disease, providing accurate information on the state of the myocardium (perfusion, metabolism, and innervation. White blood cell scintigraphy and FDG-PET are widely used to investigate many infectious/inflammatory processes. In each of these areas, the review discusses the use of recently developed radiopharmaceuticals, the growth of tomographic nuclear medicine techniques, and the ways in which these advances are improving molecular imaging of biologic processes at the cellular level.

Nuclear medicine in Ghana

International Nuclear Information System (INIS)

Affram, R.K.; Kyere, K.; Amuasi, J.

1991-01-01

The background to the introduction and application of radioisotopes in medicine culminating in the establishment of the nuclear Medicine Unit at the Korle Bu Teaching Hospital, Ghana, has been examined. The Unit has been involved in important clinical researches since early 1970s but routine application in patient management has not always been possible because of cost per test and lack of continuous availability of convertible currency for the purchase of radioisotopes which are not presently produced by the National Nuclear Research Institute at Kwabenya. The capabilities and potentials of the Unit are highlighted and a comparison of Nuclear Medicine techniques to other medical diagnostic and imaging methods have been made. There is no organised instruction in the principles of medical imaging and diagnostic methods at both undergraduate and postgraduate levels in Korle Bu Teaching Hospital which has not promoted the use of Nuclear Medicine techniques. The development of a comprehensive medical diagnostic and imaging services is urgently needed. (author). 18 refs., 3 tabs

A concise guide to nuclear medicine

CERN Document Server

Elgazzar, Abdelhamid H

2011-01-01

Nuclear medicine is an important component of modern medicine. This easy-to-use book is designed to acquaint readers with the basic principles of nuclear medicine, the instrumentation used, the gamut of procedures available, and the basis for selecting specific diagnostic or therapeutic procedures and interpreting results. After an introductory chapter on the history, technical basis, and scope of nuclear medicine, a series of chapters are devoted to the application of nuclear medicine techniques in the different body systems. In addition, the use of nuclear medicine methods within oncology is

The developments and applications of molecular nuclear medicine

International Nuclear Information System (INIS)

Fang Shengwei; Xi Wang; Zhang Hong

2009-01-01

Molecular nuclear medicine including PET and SPECT is one of the most important parts of the molecular imaging. The combinations of molecular unclear medicine with CT, MRI, ultrasound or optical imaging and synthesis of multimodality radiopharmaceuticals are the major trends of the development of nuclear medicine. Molecular nuclear medicine has more and more and more important value on the monitoring of response to biology involved gene therapy or stem cell therapy and the developments of new drug. (authors)

Cardiovascular nuclear medicine and MRI

International Nuclear Information System (INIS)

Reiber, J.H.C.; Wall, E.E. van der

1992-01-01

This book is based on a meeting of the Working Group on Nuclear Cardiology, which held March 22-23,1991 under the auspices of the European Society of Cardiology and the Interuniversity Cardiology Institute of the Netherlands, and on the Second International Symposium on Computer Applications in Nuclear Medicine and Cardiac Magnetic Resonance Imaging, which was held March 20-22,1991 in Rotterdam, the Netherlands. It covers almost every aspect of quantitative cardio-vascular nuclear medicine and magnetic resonance imaging. The main topics are: single photon emission computed tomography (technical aspects); new development in cardiovascular nuclear medicine; advances in cardiovascular imaging; cardiovascular clinical applications; and cardiac magnetic resonance imaging. (A.S.). refs.; figs.; tabs

Nuclear Medicine

Science.gov (United States)

... Parents/Teachers Resource Links for Students Glossary Nuclear Medicine What is nuclear medicine? What are radioactive tracers? ... funded researchers advancing nuclear medicine? What is nuclear medicine? Nuclear medicine is a medical specialty that uses ...

Development of indigenous technology at CNEN in the fields of nuclear medicine, nuclear detectors, instrumentation, radioisotope production and application of nuclear techniques

International Nuclear Information System (INIS)

Mafra, O.

1990-01-01

The main objectives of the program developed at CNEN in the field of nuclear medicine, nuclear detectors, instrumentation, radioisotope production and application of nuclear technique are described. (E.G.) [pt

Coordination compounds in nuclear medicine

International Nuclear Information System (INIS)

Jurisson, S.; Berning, D.; Wei Jia; Dangshe Ma

1993-01-01

Radiopharmaceuticals, drugs containing a radionuclide, are used routinely in nuclear medicine departments for the diagnosis of disease and are under investigation for use in the treatment of disease. Nuclear medicine takes advantage of both the nuclear properties of the radionuclide and the pharmacological properties of the radiopharmaceutical. Herein lies the real strength of nuclear medicine, the ability to monitor biochemical and physiological functions in vivo. This review discusses the coordination chemistry that forms the basis for nuclear medicine applications of the FDA-approved radiopharmaceuticals that are in clinical use, and of the most promising diagnostic and therapeutic radiopharmaceuticals that are in various stages of development. 232 refs

Clinical nuclear medicine applications in Turkey and specific renal studies

International Nuclear Information System (INIS)

Erbas, B.

2004-01-01

Full text: Nuclear cardiology, nuclear oncology, pediatric nuclear medicine and nuclear endocrinology are the main application areas of clinical nuclear medicine in Turkey. Not only imaging studies, but also therapeutic application of radiopharmaceuticals is also performed at many institutes, such as hyperthyroidism treatment with radioiodine, thyroid cancer ablation and metastases treatment with radioiodine, radio synovectomy, metastatic pain therapy, and recently radioimmunotherapy of lymphomas. Almost all radionuclides and radiopharmaceuticals are obtained commercially from European countries, except 18-FDG which is obtained from two cyclotrons in Turkey. More than 30.000 renal procedures are performed at the University hospitals in a year. Pediatric age groups is approximately % 55 of patients. 99mTc-DTPA (%44), 99mTc-DMSA (%37), 99mTc-MAG3 (%17) and 99mTc-EC (%2) are the most commonly used radiopharmaceuticals for renal imaging. More than 6.000 vials of several pharmaceuticals are used for renal cortical scintigraphy (%35), dynamic renal imaging (%34), renal scintigraphy with diuretic (%27) and captopril scintigraphy (%4). Most common indication for renal cortical scintigraphy is detection of cortical scarring (%53). In addition, using single plasma sample method or gamma-camera method renal clearance measurements with 99mTc-MAG3 99mTc-DTPA have been used at some institutions

Clinical nuclear medicine applications in Turkey and specific renal studies

International Nuclear Information System (INIS)

Erbas, B.

2004-01-01

Nuclear cardiology, nuclear oncology, pediatric nuclear medicine and nuclear endocrinology are the main application areas of clinical nuclear medicine in Turkey. Not only imaging studies, but also therapeutic application of radiopharmaceuticals is also performed at many institutes, such as hyperthyroidism treatment with radioiodine, thyroid cancer ablation and metastases treatment with radioiodine, radio synovectomy, metastatic pain therapy, and recently radioimmunotherapy of lymphomas. Almost all radionuclides and radiopharmaceuticals are obtained commercially from European countries, except 18-FDG which is obtained from two cyclotrons in Turkey. More than 30.000 renal procedures are performed at the University hospitals in a year. Pediatric age groups is approximately % 55 of patients. 99m Tc-DTPA (%44), 99m Tc-DMSA (%37), 99m Tc-MAG3 (%17) and 99m Tc-EC (%2) are the most commonly used radiopharmaceuticals for renal imaging. More than 6.000 vials of several pharmaceuticals are used for renal cortical scintigraphy (%35), dynamic renal imaging (%34), renal scintigraphy with diuretic (%27) and captopril scintigraphy (%4). Most common indication for renal cortical scintigraphy is detection of cortical scarring (%53). In addition, using single plasma sample method or gamma-camera method renal clearance measurements with 99m Tc-MAG3 99m Tc-DTPA have been used at some institutions. (author)

Nuclear Medicine Practice in Kenya

International Nuclear Information System (INIS)

Ndirangu, T.D.

2017-01-01

Nuclear medicine is a medical specialty that relies on the use of nuclear technology in the diagnosis and treatment (therapy) of diseases. Nuclear medicine uses the principle that a certain radiopharmaceutical (tracer) will at a certain point in time have a preferential uptake by a particular body, tissue or cell. This uptake is then imaged by the use of detectors mounted in gamma cameras or PET (positron emission tomography) devices.. Unlike other radiation applications for medical use, nuclear medicine uses open (unsealed) sources of radiation. In a country with an estimated population of 48 million in 2017, Kenya has only two (2) nuclear medicine facilities (units). Being a relatively new medical discipline in Kenya, several measures have been taken by the clinical nuclear medicine team to create awareness at various levels

Application of Balance Score Card (BSC) in a Nuclear Medicine Department

International Nuclear Information System (INIS)

Rayo, J.I.; Serrano, J.; Martin, R.; Corral, C.

2002-01-01

Balanced Scorecard (BSC) is a concept helping you translate strategy into action. BSC provides management with a comprehensive picture of business operations and a methodology that facilitates the communication and understanding of business goals and strategies at all levels of an organization. Traditional performance measurement, focusing on external accounting data, was quickly becoming obsolete and something more was needed to provide the information age enterprises with efficient planning tools, For this purpose Kaplan and Norton introduced four different perspectives. Aim: Application of BSC to a Nuclear Medicine Department for provides four perspectives: financial perspective, customer perspective, process perspective and learning and innovation perspective. Conclusion: BSC helps align key performance measures with strategy at all levels of a Nuclear Medicine Department, facilitates communication and understanding, provides feedback and learning and reduce the vast amount of information the Nuclear Medicine Department into essentials

Nuclear Medicine in Turkey

International Nuclear Information System (INIS)

Durak, H.

2001-01-01

Nuclear Medicine is a medical specialty that uses radionuclides for the diagnosis and treatment of diseases and it is one of the most important peaceful applications of nuclear sciences. Nuclear Medicine has a short history both in Turkey and in the world. The first use of I-131 for the treatment of thyrotoxicosis in Turkey was in 1958 at the Istanbul University Cerrahpasa Medical School. In 1962, Radiobiological Institute in Ankara University Medical School was established equipped with well-type counters, radiometers, scalers, external counters and a rectilinear scanner. In 1965, multi-probe external detection systems, color dot scanners and in 1967, anger scintillation camera had arrived. In 1962, wet lab procedures and organ scanning, in 1965 color dot scanning, dynamic studies (blood flow - renograms) and in 1967 analogue scintillation camera and dynamic camera studies have started. In 1974, nuclear medicine was established as independent medical specialty. Nuclear medicine departments have started to get established in 1978. In 1974, The Turkish Society of Nuclear Medicine (TSNM) was established with 10 members. The first president of TSNM was Prof. Dr. Yavuz Renda. Now, in the year 2000, TSNM has 349 members. Turkish Society of Nuclear Medicine is a member of European Association of Nuclear Medicine (EANM), World Federation of Nuclear Medicine and Biology (WFNMB) and WFNMB Asia-Oceania. Since 1974, TSNM has organized 13 national Nuclear Medicine congresses, 4 international Nuclear Oncology congresses and 13 nuclear medicine symposiums. In 1-5 October 2000, 'The VII th Asia and Oceania Congress of Nuclear Medicine and Biology' was held in Istanbul, Turkey. Since 1992, Turkish Journal of Nuclear Medicine is published quarterly and it is the official publication of TSNM. There are a total of 112 Nuclear Medicine centers in Turkey. There are 146 gamma cameras. (52 Siemens, 35 GE, 16 Elscint, 14 Toshiba, 10 Sopha, 12 MIE, 8 Philips, 9 Others) Two cyclotrons are

Radioisotopes in nuclear medicine

International Nuclear Information System (INIS)

Samuel, A.M.

2002-01-01

Full text: A number of advances in diverse fields of science and technology and the fruitful synchronization of many a new development to address the issues related to health care in terms of prognosis and diagnosis resulted in the availability of host of modern diagnostic tools in medicine. Nuclear medicine, a unique discipline in medicine is one such development, which during the last four decades has seen exponential growth. The unique contribution of this specialty is the ability to examine the dynamic state of every organ of the body with the help of radioactive tracers. This tracer application in nuclear medicine to monitor the biological molecules that participate in the dynamic state of body constituents has led to a whole new approach to biology and medicine. No other technique has the same level of sensitivity and specificity as obtained in radiotracer technique in the study of in-situ chemistry of body organs. As modem medicine becomes oriented towards molecules rather than organs, nuclear medicine will be in the forefront and will become an integral part of a curative process for regular and routine application. Advances in nuclear medicine will proceed along two principal lines: (i) the development of improved sensitive detectors of radiation, powerful and interpretable data processing, image analysis and display techniques, and (ii) the production of exotic and new but useful radiopharmaceuticals. All these aspects are dealt with in detail in this talk

Nuclear medicine imaging in clinical practice: Current applications and future trends

International Nuclear Information System (INIS)

Galli, G.; Maini, C.L.

1985-01-01

The following conclusions can be drawn: 1) Even though developments in data digitalization enable also other imaging techniques to extract functional information, it is likely that nuclear medicine will keep and possibly increase its key role for functional studies requiring quantitative data analyses. This statement is true at present and it will probably remain true for a long time to come. 2) Nuclear medicine is and will remain an important clinical tool also for morphological or morphodynamic studies in selected situations. Of course the integration of nuclear medicine studies with other diagnostic procedures is highly desirable. The highest clinical yield of multi-test diagnostic protocols will be anyway obtained by the wisest physician as sophysticated technology is no substitution for intelligent clinical judgment. 3) The development of new radiopharmaceuticals with well characterized biokinetic features allowing precise tissue characterization opens new frontiers to be exploited by nuclear medicine centers equipped with conventional technology (digital gammacameras, SPECT). 4) Positron emission tomography is the most important new development of nuclear medicine imaging. Not only PET has already shown its enormous possibilities for physiological and pathophysiological studies, but the clinical relevance of selected applications has been proved. More experience is however needed to assess systematically the whole impact of PET studies in clinical practice and to perform dependable cost/benefit studies. 5) Among all other imaging techniques NMR is the closest to nuclear medicine because of a strict ''compatibility of aptitudes, training and methodology'' (4). Accordingly future improvements of both methods will be better achieved if they could be integrated and the results compared with the same institutions

Peptide radiopharmaceuticals in nuclear medicine

International Nuclear Information System (INIS)

Blok, D.; Vermeij, P.; Feitsma, R.I.J.; Pauwels, E.J.K.

1999-01-01

This article reviews the labelling of peptides that are recognised to be of interest for nuclear medicine or are the subject of ongoing nuclear medicine research. Applications and approaches to the labelling of peptide radiopharmaceuticals are discussed, and drawbacks in their development considered. (orig.)

Nuclear Medicine week in Colombia

International Nuclear Information System (INIS)

Padhy, A.K.

2003-01-01

During the week of 6-12 October 2003 the IAEA organized a Research Coordination Meeting on 'Relationship between lower Respiratory Tract Infection, Gastroesophageal reflux and bronchial Asthma in children' at Hospital San Ignacio in Bogota. Besides there were four workshops in Bogota; workshops on Bone infection and Bone scan in Pediatric ortopaedics at Hospital Militar and Fundacion CardioInfantil, a workshop for Nuclear Medicine Technologists and a workshop on Sentinel Lymph Node mapping and Surgical Gamma Probe Application at Institute of Oncology. A nuclear cardiology workshop was organized in Medellin, and finally crowning them all was the 9th Congress of the Colombian Association of Nuclear Medicine at Cali from 10-12 October, 2003; probably the largest and best Colombian nuclear medicine congress every held in the country. A workshop was also organized in Cali for nuclear medicine technologists in conjunction with the Annual Convention. It was a mix of IAEA's Technical Cooperation and Regular Budget activities along with the activities of Colombian Association of Nuclear Medicine, bringing in absolute synergy to galvanize the entire nuclear medicine community of the country. The week saw nuclear medicine scientists from more than 20 IAEA Member States converging on Colombia to spread the message of nuclear medicine, share knowledge and to foster International understanding and friendship among the nuclear medicine people of the world

An introduction to nuclear physics, with applications in medicine and biology

International Nuclear Information System (INIS)

Dyson, N.A.

1981-01-01

A concise account of the applications of nuclear physics to medical and biological science is given. Half the book is devoted to the basic aspects of nuclear and radiation physics such as interactions between radiation and matter, nuclear reactions and the production of isotopes, an introduction to α, β and γ-radiation detectors and finally the radiation from nuclear decay. Information is then given on the applications of radioisotopes and neutrons and other accelerator-based applications in medicine and biology. The book is aimed at not only those undergraduates and postgraduates who are devoting their main effort to medical physics, but also to those students who are looking primarily for an introduction to nuclear physics together with an account of some of the ways in which it impinges on the work of other scientists. (U.K.)

Some computer applications and digital image processing in nuclear medicine

International Nuclear Information System (INIS)

Lowinger, T.

1981-01-01

Methods of digital image processing are applied to problems in nuclear medicine imaging. The symmetry properties of central nervous system lesions are exploited in an attempt to determine the three-dimensional radioisotope density distribution within the lesions. An algorithm developed by astronomers at the end of the 19th century to determine the distribution of matter in globular clusters is applied to tumors. This algorithm permits the emission-computed-tomographic reconstruction of spherical lesions from a single view. The three-dimensional radioisotope distribution derived by the application of the algorithm can be used to characterize the lesions. The applicability to nuclear medicine images of ten edge detection methods in general usage in digital image processing were evaluated. A general model of image formation by scintillation cameras is developed. The model assumes that objects to be imaged are composed of a finite set of points. The validity of the model has been verified by its ability to duplicate experimental results. Practical applications of this work involve quantitative assessment of the distribution of radipharmaceuticals under clinical situations and the study of image processing algorithms

Computers in nuclear medicine: introductory concepts

International Nuclear Information System (INIS)

Weber, D.A.

1978-01-01

Computers play an important role in image and data processing in nuclear medicine. Applications extend from relatively simple mathematical processing of in vitro specimen assays to more sophisticated image reconstruction procedures for emission tomography. The basic concepts and terminology associated with computer applications in image and data processing in nuclear medicine are presented here

Proceedings of the forty third annual conference of Society of Nuclear Medicine India: empowering modern medicine with molecular nuclear medicine

International Nuclear Information System (INIS)

2011-01-01

Theme of the 43rd Annual Conference of the Society of Nuclear Medicine India is 'empowering modem medicine with molecular nuclear medicine'. Keeping the theme in mind, the scientific committee has arranged an attractive and comprehensive program for both physicians and scientists reflecting the multimodality background of Nuclear Medicine and Metabolic Imaging. During this meeting the present status and future prospects of Nuclear medicine are discussed at length by esteemed faculty in dedicated symposia and interesting featured sessions which are immensely facilitate in educating the participants. Nuclear Medicine has come a long way since the first applications of radioiodine in the diagnosis of thyroid disease. The specialty of nuclear medicine in India is growing very rapidly. Technology continues to push the field in new directions and open new pathways for providing optimal care to patients. It is indeed an exciting time in the world of imaging and in the field of nuclear medicine. Innovative techniques in hardware and software offer advantages for enhanced accuracy. New imaging agents, equipment, and software will provide us with new opportunities to improve current practices and to introduce new technology into the clinical protocols. Papers relevant to INIS are indexed separately

Recent history of nuclear medicine

International Nuclear Information System (INIS)

Potchen, E.J.; Gift, D.A.

1988-01-01

Diagnostic nuclear medicine's recent history is characterized both by significant change and by growing participation in efforts to quantify the impact of nuclear medicine procedures on clinical judgment and patient management, as well as to develop methods for studying the efficacy of diagnostic procedures in general. The replacement of many nuclear medicine procedures that at one time were considered essential standards of clinical care by newer, more efficient and effective modalities has been complimented by the continued development of increasingly sophisticated applications of scintigraphic tracer methods

Promoting nuclear medicine in developing countries

International Nuclear Information System (INIS)

Ganatra, R.; Nofal, M.

1986-01-01

After a short review of the applications of nuclear medicine in diagnosis and treatment of diseases or in medical research the ways and the means of IAEA's support in helping developing countries to set up nuclear medicine capabilities in their hospitals are described. Some trends and new directions in the field of nuclear medicine and the problems related to the implementation of these techniques in developing countries are presented

Nuclear medicine. 1 part. Manual

International Nuclear Information System (INIS)

Shlygina, O.E.; Borisenko, A.R.

2006-01-01

Current manual is urged to give wide-scale readers a submission on a key principles and methods of nuclear medicine, and it opportunities and restrictions in diagnostics and treatment of different diseases. Nuclear medicine is differing first of all by combination of diverse knowledge fields: special knowledge of a doctor, knowledge of physical processes bases, related with radiation, grounds of radiopharmaceutics, dosimetry. In the base of the book the 5th edition of 'Nuclear medicine' manual in 2 parts of German authors - Schicha, G.; Schober, O. is applied. In the book publishing the stuff of the Institute of Nuclear Physics of the National Nuclear Center of Republic of Kazakhstan has been worked. Modifications undergo practically all chapters: especially the second one, forth and sixth was enlarged. The 1 part of the book was published due to support of IAEA within the Technical cooperation project 'Implementation of Nuclear Medicine and Biophysics Center' (KAZ/6/007). The manual second part - devoted to applications of nuclear medicine methods for diagnostics and treatment - will be published in 2007

Search of new scintillation materials for nuclear medicine application

CERN Document Server

Korzhik, M

2001-01-01

Oxide crystals have a great potential to develop new advanced scintillation materials which are dense, fast, and bright. This combination of parameters, when combined to affordable price, gives a prospect for materials to be applied in nuclear medicine devices. Some of them have been developed for the last two decades along the line of rear-earth (RE) garnet (RE//3Al//5O//1//2) oxiorthosilicate (RE//2SiO//5) and perovskite (REAlO//3) crystals doped with Ce ions. Among recently developed oxide materials the lead tungstate scintillator (PWO) becomes the most used scintillation materials in high energy physics experiments due to its application in CMS and ALICE experiments at LHC. In this paper we discuss scintillation properties of some new heavy compounds doped with Ce as well as light yield improvement of PWO crystals to apply them in low energy physics and nuclear medicine. 18 Refs.

General Nuclear Medicine

Science.gov (United States)

... Resources Professions Site Index A-Z General Nuclear Medicine Nuclear medicine imaging uses small amounts of radioactive ... of General Nuclear Medicine? What is General Nuclear Medicine? Nuclear medicine is a branch of medical imaging ...

Nuclear medicine

International Nuclear Information System (INIS)

Lentle, B.C.

1986-01-01

Several growth areas for nuclear medicine were defined. Among them were: cardiac nuclear medicine, neuro-psychiatric nuclear medicine, and cancer diagnosis through direct tumor imaging. A powerful new tool, Positron Emission Tomography (PET) was lauded as the impetus for new developments in nuclear medicine. The political environment (funding, degree of autonomy) was discussed, as were the economic and scientific environments

The 3rd Sino-Japan nuclear medicine conference

International Nuclear Information System (INIS)

1999-01-01

The 3rd Sino-Japan Nuclear Medicine Conference was hold on May 11-13, 1999 in Xi'an of China by Chinese Society of Nuclear Medicine, Japanese Society of Nuclear Medicine, Chinese Medicine Association and Japan-China Medicine Association. 62 articles were published in the proceeding of the conference. The contents of the articles include development and application of the radioisotopes (such as Tc-99, I-125, I-131, F-18, In-111, Tl-201, Ga-67, Sm-153, Re-188) and its radiopharmaceuticals, but application also include radiotherapy and diagnosis in the oncology and pathology by SPECT and PET

Application of ISO 9001:2000 in a Nuclear Medicine Department

International Nuclear Information System (INIS)

Rayo, J.I.; Serrano, J.; Martin, R.; Corral, C.

2002-01-01

Since 1947 ISO has been developing voluntary technical standards over almost all sectors of business, industry, and technology. The ISO 9000 standards were published in 1987, and new versions of the standards saw daylight in 1994 and 2000. The highlights of ISO 9001:2000 are: quality management system, management responsibility, resource management, product realization and measurement, analysis and improvement. Aim: Application of ISO 9001:2000 to a Nuclear Medicine Department for provides the organization with a model to follow, customer focus, people will understand the goals of the organization and are motivated to work for objectives and lower costs and shorter cycle times through effective use of resources. Conclusion: ISO 9001:2000 focuses on continual improvement of business processes that should be a permanent objective of the Nuclear Medicine Department

Some Applications of Nuclear Physics in Medicine and Dentistry

International Nuclear Information System (INIS)

Anwar Chaudhri, M.; Nasir Chaudhri, M.

2009-01-01

Some applications of nuclear physics, to solve problems in dentistry and medicine are presented. The following two topics are going to be discussed: A. Nuclear Analytical Methods For Trace Element Studies In Teeth Various nuclear analytical methods have been developed and applied to determine the elemental composition of teeth. Fluorine was determined by prompt gamma activation analysis through the 19 F (p, a v) 16 O reaction. Carbon was measured by activation analysis with He-3 ions, and the technique of Proton-Induced X-ray Emission (PIXE) was applied to simultaneously determine Ca, P, and trace elements in well-documented teeth. Dental hard tissues: enamel, dentine, cement, and their junctions, as well as different parts of the same tissue, were examined separately.

Pediatric nuclear medicine

International Nuclear Information System (INIS)

1986-01-01

This symposium presented the latest techniques and approaches to the proper medical application of radionuclides in pediatrics. An expert faculty, comprised of specialists in the field of pediatric nuclear medicine, discussed the major indications as well as the advantages and potential hazards of nuclear medicine procedures compared to other diagnostic modalities. In recent years, newer radiopharmaceuticals labeled with technetium-99m and other short-lived radionuclides with relatively favorable radiation characteristics have permitted a variety of diagnostic studies that are very useful clinically and carry a substantially lower radiation burden then many comparable X-ray studies. This new battery of nuclear medicine procedures is now widely available for diagnosis and management of pediatric patients. Many recent research studies in children have yielded data concerning the effacacy of these procedures, and current recommendations will be presented by those involved in conducting such studies. Individual papers are processed separately for the Energy Data Base

Pediatric nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

1986-01-01

This symposium presented the latest techniques and approaches to the proper medical application of radionuclides in pediatrics. An expert faculty, comprised of specialists in the field of pediatric nuclear medicine, discussed the major indications as well as the advantages and potential hazards of nuclear medicine procedures compared to other diagnostic modalities. In recent years, newer radiopharmaceuticals labeled with technetium-99m and other short-lived radionuclides with relatively favorable radiation characteristics have permitted a variety of diagnostic studies that are very useful clinically and carry a substantially lower radiation burden then many comparable X-ray studies. This new battery of nuclear medicine procedures is now widely available for diagnosis and management of pediatric patients. Many recent research studies in children have yielded data concerning the effacacy of these procedures, and current recommendations will be presented by those involved in conducting such studies. Individual papers are processed separately for the Energy Data Base.

Nuclear medicine tomorrow

International Nuclear Information System (INIS)

Marko, A.M.

1986-04-01

The purpose of this Workshop was to discuss and promote future nuclear medicine applications. Atomic Energy of Canada Limited (AECL) is determined to assist in this role. A major aim of this gathering was to form an interface that was meaningful, representative of the two entities, and above all, on-going. In the opening address, given by Mr. J. Donnelly, President of AECL, this strong commitment was emphasized. In the individual sessions, AECL participants outlined R and D programs and unique expertise that promised to be of interest to members of the nuclear medicine community. The latter group, in turn, described what they saw as some problems and needs of nuclear medicine, especially in the near future. These Proceedings comprise the record of the formal presentations. Additionally, a system of reporting by rapporteurs insured a summary of informal discussions at the sessions and brought to focus pertinent conclusions of the workshop attendees

Application of nuclear techniques in agriculture and medicine: the TRNC experience

International Nuclear Information System (INIS)

Senvar, C.; Korkut, F.C.

2002-01-01

As a small island State in the Eastern corner of the Mediterranean, better known for its potential in academia and tourism, the Turkish Republic of Northern Cyprus (TRNC) is not a country which produces or uses nuclear energy. Nevertheless, in order to safeguard against the biological effects of radiation, the TRNC benefits from nuclear sciences and techniques. In order to ensure the safety of agricultural produce, apart from utilizing nuclear medicine and Co60 (cobalt 60) therapy and similar applications, gamma spectrometric measurements are also undertaken by the State Laboratories which is attached to the Ministry of Health and Social Welfare. Similar techniques are used to measure radioactive content in environmental (sea water, soil, rocks, etc.) samples. All facilities in the TRNC which utilize nuclear agents in the field of medicine, including the X-Ray Screening centers, are subject to control and supervision in accordance with relevant regulations and waste disposal is carried out in cooperation with the Turkish Atomic Energy Authority (TAEK). Just as nuclear techniques can be used for peaceful purposes in such fields as agriculture, control of food-borne diseases, medicine and industry, it can also be abused. In awareness of the global threat of the illicit trafficking of nuclear materials and radioactive sources and given its geo-strategic location at the crossroads of Europe, the Middle East and North Africa, the TRNC has taken all the necessary measures, within the context of combating terrorism, to prevent illicit trafficking as such

Radiation dose assessment in nuclear medicine

International Nuclear Information System (INIS)

Stabin, M.G.

2002-01-01

In any application involving the use of ionizing radiation in humans, risks and benefits must be properly evaluated and balanced. Radionuclides are used in nuclear medicine in a variety of diagnostic and therapeutic procedures. Recently, interest has grown in therapeutic agents for a number of applications in nuclear medicine, particularly in the treatment of hematologic and non-hematologic malignancies. This has heightened interest in the need for radiation dose calculations and challenged the scientific community to develop more patient-specific and relevant dose models. Consideration of radiation dose in such studies is central to efforts to maximize dose to tumor while sparing normal tissues. In many applications, a significant absorbed dose may be received by some radiosensitive organs, particularly the active marrow. This talk will review the methods and models used in internal dosimetry in nuclear medicine, and discuss some current trends and challenges in this field

Nuclear medicine

International Nuclear Information System (INIS)

Kand, Purushottam

2012-01-01

Nuclear medicine is a specialized area of radiology that uses very small amounts of radioactive materials to examine organ function and structure. Nuclear medicine is older than CT, ultrasound and MRI. It was first used in patients over 60-70 years ago. Today it is an established medical specialty and offers procedures that are essential in many medical specialities like nephrology, pediatrics, cardiology, psychiatry, endocrinology and oncology. Nuclear medicine refers to medicine (a pharmaceutical) that is attached to a small quantity of radioactive material (a radioisotope). This combination is called a radiopharmaceutical. There are many radiopharmaceuticals like DTPA, DMSA, HIDA, MIBI and MDP available to study different parts of the body like kidneys, heart and bones etc. Nuclear medicine uses radiation coming from inside a patient's body where as conventional radiology exposes patients to radiation from outside the body. Thus nuclear imaging study is a physiological imaging, whereas diagnostic radiology is anatomical imaging. It combines many different disciplines like chemistry, physics mathematics, computer technology, and medicine. It helps in diagnosis and to treat abnormalities very early in the progression of a disease. The information provides a quick and accurate diagnosis of wide range of conditions and diseases in a person of any age. These tests are painless and most scans expose patients to only minimal and safe amounts of radiation. The amount of radiation received from a nuclear medicine procedure is comparable to, or often many times less than, that of a diagnostic X-ray. Nuclear medicine provides an effective means of examining whether some tissues/organs are functioning properly. Therapy using nuclear medicine in an effective, safe and relatively inexpensive way of controlling and in some cases eliminating, conditions such as overactive thyroid, thyroid cancer and arthritis. Nuclear medicine imaging is unique because it provides doctors with

Role of nuclear medicine in imaging companion animals

International Nuclear Information System (INIS)

Currie, Geoffrey M.; Wheat, Janelle M.

2005-01-01

The role of equine nuclear medicine in Australia has been previously described in this journal and more recently, Lyall et al. provided a general overview of demographics of veterinary nuclear medicine departments in Australia. Lyall et al. discuss the main clinical applications of nuclear medicine scintigraphy in companion animals; dogs and cats. The aim of this article is to discuss in brief the applications of commonly performed nuclear medicine procedures in humans with respect to veterinary applications. More detailed discussion will also be offered for investigation of pathologies unique to veterinary nuclear medicine or which are more common in animals than humans. Companion animals are living longer today due to advances in both veterinary and human medicine. The problem is, like humans, longevity brings higher incidence of old age morbidity. As a pet owner, one might be initially motivated to extend life expectancy which is followed by the realisation that one also demands quality of life for pets. Early detection through advanced diagnostic tools, like nuclear medicine scintigraphy, allows greater efficacy in veterinary disease. There are limited veterinary nuclear medicine facilities in Australia due to cost and demand. Not surprisingly then, the growth of veterinary nuclear medicine in Australia, and overseas, has been integrally coupled to evaluation of race horses. While these facilities are generally specifically designed for race horses, racing greyhounds, lame family horses and companion animals are being investigated more frequently. In the USA, the American College of Veterinary Radiology (ACVC) is very active clinically and in research. The ACVC journal, Journal of Veterinary Radiology and Ultrasound, is published quarterly and includes a Nuclear Medicine section. Within the ACVR is the Society of Veterinary Nuclear Medicine. Proliferation of veterinary nuclear medicine centres in the USA has been associated with insurance and lifestyle changes

Basics of radiobiology and nuclear medicine

International Nuclear Information System (INIS)

Kostadinova, I.; Hadjidekova, V.; Georgieva, R.

2002-01-01

The authors successively reveal the topics of the biological impact of radiation (radiobiology) and the diagnostic and the therapeutic application of radiopharmaceuticals (nuclear medicine). Data on the influence of radiation on subcellular, cellular, tissue and organ level are given, on early and late radiation changes, as well. Indication for the application of the different radionuclide methods in the diagnosis of the diseases in the endocrinology, nephrology, cardiology, gastroenterology, haematology of lungs, bones, tumors are pointed out and the main trends of the growing therapeutical use of nuclear medicine are presented. The aim is to teach students the nuclear medicine methods in the complex investigation of the patients, his preliminary preparation and the biological impact of radiation and its risk. Self assessment test for students are proposed and a literature for further reading

Therapeutic Applications of Monte Carlo Calculations in Nuclear Medicine

International Nuclear Information System (INIS)

Coulot, J

2003-01-01

Monte Carlo techniques are involved in many applications in medical physics, and the field of nuclear medicine has seen a great development in the past ten years due to their wider use. Thus, it is of great interest to look at the state of the art in this domain, when improving computer performances allow one to obtain improved results in a dramatically reduced time. The goal of this book is to make, in 15 chapters, an exhaustive review of the use of Monte Carlo techniques in nuclear medicine, also giving key features which are not necessary directly related to the Monte Carlo method, but mandatory for its practical application. As the book deals with therapeutic' nuclear medicine, it focuses on internal dosimetry. After a general introduction on Monte Carlo techniques and their applications in nuclear medicine (dosimetry, imaging and radiation protection), the authors give an overview of internal dosimetry methods (formalism, mathematical phantoms, quantities of interest). Then, some of the more widely used Monte Carlo codes are described, as well as some treatment planning softwares. Some original techniques are also mentioned, such as dosimetry for boron neutron capture synovectomy. It is generally well written, clearly presented, and very well documented. Each chapter gives an overview of each subject, and it is up to the reader to investigate it further using the extensive bibliography provided. Each topic is discussed from a practical point of view, which is of great help for non-experienced readers. For instance, the chapter about mathematical aspects of Monte Carlo particle transport is very clear and helps one to apprehend the philosophy of the method, which is often a difficulty with a more theoretical approach. Each chapter is put in the general (clinical) context, and this allows the reader to keep in mind the intrinsic limitation of each technique involved in dosimetry (for instance activity quantitation). Nevertheless, there are some minor remarks to

Application impact of internal monitoring criteria in radiological protection programs of nuclear medicine services

International Nuclear Information System (INIS)

Dantas, Bernardo M.; Dantas, Ana Leticia A.; Juliao, Ligia Q.C.; Lourenco, Maria Cristina; Melo, Dunstana R.

2005-01-01

This work presents the simulation of the internal monitoring criteria application for the most used radionuclides by the area of nuclear medicine, taking into consideration the usual conditions of usual source handling and the activity bands authorized by the CNEN. It is concluded that the handling of Iodine 131 for therapeutical purposes is the practice which presents the most risk of internal exposure for the works, requiring the adoption of a program for internal monitoring by the nuclear medicine services

Digital filtering in nuclear medicine

International Nuclear Information System (INIS)

Miller, T.R.; Sampathkumaran, S.

1982-01-01

Digital filtering is a powerful mathematical technique in computer analysis of nuclear medicine studies. The basic concepts of object-domain and frequency-domain filtering are presented in simple, largely nonmathemaical terms. Computational methods are described using both the Fourier transform and convolution techniques. The frequency response is described and used to represent the behavior of several classes of filters. These concepts are illustrated with examples drawn from a variety of important applications in nuclear medicine

Nuclear medicine. La medecine nucleaire

Energy Technology Data Exchange (ETDEWEB)

Blanquet, P; Blanc, D

1976-01-01

The applications of radioisotopes in medical diagnostics are briefly reviewed. Each organ system is considered and the Nuclear medicine procedures pertinent to that system are discussed. This includes, the principle of the test, the detector and the radiopharmaceutical used, the procedure followed and the clinical results obtained. The various types of radiation detectors presently employed in Nuclear Medicine are surveyed, including scanners, gamma cameras, positron cameras and procedures for obtaining tomographic presentation of radionuclide distributions.

Children's (Pediatric) Nuclear Medicine

Science.gov (United States)

... Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine Children’s (pediatric) nuclear medicine imaging uses small amounts ... Children's Nuclear Medicine? What is Children's (Pediatric) Nuclear Medicine? Nuclear medicine is a branch of medical imaging ...

Nuclear Medicine Practice in Kenya

International Nuclear Information System (INIS)

Ndrirangu, T.T.

2017-01-01

Nuclear medicine is a medical specialty that relies on the use of nuclear technology in the diagnosis and treatment (therapy) of diseases. Nuclear medicine uses the principle that a certain radiopharmaceutical (tracer) will at a certain point in time have a preferential uptake by a particular body, tissue or cell. Unlike other radiation applications for medical use, nuclear medicine uses open (unsealed) sources of radiation. The tracer is introduced into the body of the patient through several routes (oral, intravenous, percutaneous, intradermally, inhalation, intracapsular etc) and s/he becomes the source of radiation. Early diagnosis of diseases coupled with associated timely therapeutic intervention will lead to better prognosis. In a country with an estimated population of 42 million in 2017, Kenya has only two (2) nuclear medicine facilities (units) that is Kenyatta National Hospital - Public facility and Aga Khan University Hospital which is a Private facility. Being a relatively new medical discipline in Kenya, several measures have been taken by the clinical nuclear medicine team to create awareness at various levels. Kenya does not manufacture radiopharmaceuticals. We therefore have to import them from abroad and this makes them quite expensive, and the process demanding. There is no local training in nuclear medicine and staff have to be sent abroad for training, making this quite expensive and cumbersome and the IAEA has been complimenting in this area. With concerted effort by all stakeholders at the individual, national and international level, it is possible for Kenya to effectively sustain clinical nuclear medicine service not only as a diagnostic tool in many disease entities, but also play an increasingly important role in therapy

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine Children’s (pediatric) nuclear medicine imaging uses small amounts ... Children's Nuclear Medicine? What is Children's (Pediatric) Nuclear Medicine? Nuclear medicine is a branch of medical imaging ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Physician Resources Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine Children’s (pediatric) nuclear medicine imaging uses ... limitations of Children's Nuclear Medicine? What is Children's (Pediatric) Nuclear Medicine? Nuclear medicine is a branch of ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... News Physician Resources Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine Children’s (pediatric) nuclear medicine imaging ... the limitations of Children's Nuclear Medicine? What is Children's (Pediatric) Nuclear Medicine? Nuclear medicine is a branch ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Resources Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine Children’s (pediatric) nuclear medicine imaging uses small ... of Children's Nuclear Medicine? What is Children's (Pediatric) Nuclear Medicine? Nuclear medicine is a branch of medical ...

Nuclear medicine training and practice in Turkey.

Science.gov (United States)

Ozcan, Zehra; Bozkurt, M Fani; Erbas, Belkıs; Durak, Hatice

2017-05-01

Nuclear medicine applications in Turkey started in the early 1950s, grew as an independent medical discipline and finally were recognized by the Ministry of Health in 1973. Later on, the professional organization of nuclear medicine physicians and other related professionals including radiopharmacists and technologists under the Turkish Society of Nuclear Medicine were established in 1975. Recently after completing more than a half century in Turkey, nuclear medicine has proved to be a strong and evolving medical field with more than 600 physicians serving for the changing needs of clinical practice throughout these years. This article describes past and present facts in this field and attempts to provide insights into the future which hopefully will be brighter than before.

Knowledge Management in Nuclear Medicine

International Nuclear Information System (INIS)

Abaza, A.

2017-01-01

The last two decades have seen a significant increase in the demand for medical radiation services following the introduction of new techniques and technologies that has led to major improvements in the diagnosis and treatment of human diseases. The diagnostic and therapeutic applications of nuclear medicine techniques play a pivotal role in the management of these diseases, improving the quality of life of patients by means of an early diagnosis allowing opportune and proper therapy. On the other hand, inappropriate or unskilled use of these technologies can result in potential health hazards for patients and staff. So, there is a need to control and minimize these health risks and to maximize the benefits of radiation in medicine. The present study aims to discuss the role of nuclear medicine technology knowledge and scales in improving the management of patients, and raising the awareness and knowledge of nuclear medicine staff regarding the use of nuclear medicine facilities. The practical experience knowledge of nuclear medicine staff in 50 medical centers was reviewed through normal visiting and compared with the IAEA Published documents information. This review shows that the nuclear medicine staff has good technology knowledge and scales during managing patients as compared to IAEA Published information regarding the radiation protection measures and regulation. The outcome of the study reveals that competent authority can improve radiation safety in medical settings by developing and facilitating the implementation of scientific evidence-based policies and recommendations covering nuclear medicine technology focusing in the public health aspects and considering the risks and benefits of the use of radiation in health care. It could be concluded that concerted and coordinated efforts are required to improve radiation safety, quality and sustain ability of health systems

Report on the second Congress of the Russian nuclear medicine society and on International conference Current problems of nuclear medicine and radiopharmaceuticals

International Nuclear Information System (INIS)

Lishmanov, Yu.B.; Chernov, V.I.

2001-01-01

Information on the work of Second Congress of Russian Nuclear Medicine Society and International Conference - Current problems of nuclear medicine and radiopharmaceuticals, - held in Obninsk in October, 2000, is adduced. Reports presented in the conference are dedicated to various aspects of application of radionuclide methods to cardiology, angiology, oncology, surgery, hematology, endocrinology, pediatrics and neurology. Problems in the development of radiopharmaceutical, training and skill advancement of experts, dosimetry and radiation safety in nuclear medicine were discussed. Congress considered the organizational problems in Russian nuclear medicine [ru

Clinical applications of PET-CT in nuclear medicine to medical specialists

International Nuclear Information System (INIS)

2012-08-01

This regional training course about Clinical Applications of PET-Tc in nuclear medicine include: imaging, pathology, scintigraphy, computed tomography, radiology, endoscopy, magnetic resonance, biopsy, and histology. It also describes pathologies and diseases of organs and bone structures such as: musculoskeletal and osseous damage, tumors, fibroids, metastasize, neoplasm, adenopathies and cancer of liver, brain, glands, kidney, neck, thorax, lungs, uterus, ovaries, craniums, hypophysis etc

Nuclear medicine

International Nuclear Information System (INIS)

Casier, Ph.; Lepage, B.

1998-01-01

Except for dedicated devices for mobile nuclear cardiology for instance, the market is set on variable angulation dual heads cameras. These cameras are suited for all general applications and their cost effectiveness is optimized. Now, all major companies have such a camera in their of products. But, the big question in nuclear medicine is about the future of coincidence imaging for the monitoring of treatments in oncology. Many companies are focused on WIP assessments to find out the right crustal thickness to perform both high energy FDG procedures and low energy Tc procedures, with the same SPECT camera. The classic thickness is 3/8''. Assessments are made with 1/2'', 5/8'' or 3/4'' crystals. If FDG procedures proved to be of great interest in oncology, it may lead to the design of a dedicated SPECT camera with a 1'' crustal. Due to the short half of FDG, it may be the dawning of slip ring technology. (e.g. Varicam from Elscint). The three small heads camera market seems to be depressed. Will the new three large heads camera unveiled by Picker, reverse that trend? The last important topic in nuclear medicine is the emergence of new flat digital detectors to get rid of the old bulky ones. Digirad is the first company to manufacture a commercial product based on that technology. Bichron, Siemens and General Electric are working on that development, too. But that technology is very expensive and the market for digital detection in nuclear medicine is not as large as the market in digital detection in radiology. (author)

Nuclear medicine training and practice in Turkey

Energy Technology Data Exchange (ETDEWEB)

Ozcan, Zehra [Ege University School of Medicine, Department of Nuclear Medicine, Izmir (Turkey); Bozkurt, M. Fani; Erbas, Belkis [Hacettepe University School of Medicine, Department of Nuclear Medicine, Ankara (Turkey); Durak, Hatice [Dokuz Eyluel University School of Medicine, Department of Nuclear Medicine, Izmir (Turkey)

2017-05-15

Nuclear medicine applications in Turkey started in the early 1950s, grew as an independent medical discipline and finally were recognized by the Ministry of Health in 1973. Later on, the professional organization of nuclear medicine physicians and other related professionals including radiopharmacists and technologists under the Turkish Society of Nuclear Medicine were established in 1975. Recently after completing more than a half century in Turkey, nuclear medicine has proved to be a strong and evolving medical field with more than 600 physicians serving for the changing needs of clinical practice throughout these years. This article describes past and present facts in this field and attempts to provide insights into the future which hopefully will be brighter than before. (orig.)

Nuclear medicine training and practice in Turkey

International Nuclear Information System (INIS)

Ozcan, Zehra; Bozkurt, M. Fani; Erbas, Belkis; Durak, Hatice

2017-01-01

Nuclear medicine applications in Turkey started in the early 1950s, grew as an independent medical discipline and finally were recognized by the Ministry of Health in 1973. Later on, the professional organization of nuclear medicine physicians and other related professionals including radiopharmacists and technologists under the Turkish Society of Nuclear Medicine were established in 1975. Recently after completing more than a half century in Turkey, nuclear medicine has proved to be a strong and evolving medical field with more than 600 physicians serving for the changing needs of clinical practice throughout these years. This article describes past and present facts in this field and attempts to provide insights into the future which hopefully will be brighter than before. (orig.)

Nuclear medicine and its radiological protection in China

International Nuclear Information System (INIS)

Wu, J.

2001-01-01

The China Society of Nuclear Medicine was established on 27 May 1980. Since then, nuclear medicine in clinical diagnosis and therapy has been developed rapidly in China. So far there are more than 4000 members of the Society, and more than 350 sets of SPECT and 12 sets of PET have been installed and are busily running in clinic nowadays and about 1 million patients with different types of diseases have obtained nuclear medicine imaging examinations per year. Concerning the nuclear medicine therapy, a lot of patients with many types of diseases obtained benefit from radioisotope therapy. Accordingly, several Policies and Regulations have been enacted by the Government for the radiological protection. Furthermore, a special book titled 'Standardization in Diagnostic and Therapeutic Nuclear Medicine' has been promulgated in June, 1997 by the Health Administration of People's Republic of China, and this book is distributed to almost every nuclear medicine physician and technician in China for their reference in routine nuclear medicine work or research. In this book three parts of the contents are covered: Policies and Regulations for the radiological protection, basic knowledge and clinical nuclear medicine applications. (author)

Monte Carlo simulation in nuclear medicine

International Nuclear Information System (INIS)

Morel, Ch.

2007-01-01

The Monte Carlo method allows for simulating random processes by using series of pseudo-random numbers. It became an important tool in nuclear medicine to assist in the design of new medical imaging devices, optimise their use and analyse their data. Presently, the sophistication of the simulation tools allows the introduction of Monte Carlo predictions in data correction and image reconstruction processes. The availability to simulate time dependent processes opens up new horizons for Monte Carlo simulation in nuclear medicine. In a near future, these developments will allow to tackle simultaneously imaging and dosimetry issues and soon, case system Monte Carlo simulations may become part of the nuclear medicine diagnostic process. This paper describes some Monte Carlo method basics and the sampling methods that were developed for it. It gives a referenced list of different simulation software used in nuclear medicine and enumerates some of their present and prospective applications. (author)

Pulmonary applications of nuclear medicine

International Nuclear Information System (INIS)

Kramer, E.L.; Divgi, C.R.

1991-01-01

Nuclear medicine techniques have a long history in pulmonary medicine, one that has been continually changing and growing. Even longstanding methods, such as perfusion scanning for embolic disease or for pretherapy pulmonary function evaluation, have largely withstood the test of recent careful scrutiny. Not only have these techniques remained an important part of the diagnostic armamentarium, but we have learned how to use them more effectively. Furthermore, because of technical advances, we are in a phase of expanding roles for nuclear imaging. Gallium citrate scanning for the mediastinal staging and follow-up of lymphoma has been recognized as a valuable adjunct to the anatomic information provided by CT and MRI. With the growth of PET technology in areas that have been explored in a limited fashion until now, such as noncardiogenic pulmonary edema and lung carcinoma, evaluation and management of these patients may substantially improve. Finally, in the field of radiolabeled monoclonal antibodies, attention is now being turned to both the diagnostic and the therapeutic problems presented by lung carcinoma. As radiolabeling methods are refined and as new and better antibodies are developed, radioimmunodetection and therapy in lung carcinoma may begin to make inroads on this common and hard to control disease.157 references

Quality management audits in nuclear medicine practices

International Nuclear Information System (INIS)

2008-12-01

An effective management system that integrates quality management (QM) is essential in modern nuclear medicine departments in Member States. The IAEA, in its Safety Standards Series, has published a Safety Requirement (GS-R-3) and a Safety Guide (GS-G-3.1) on management systems for all facilities. These publications address the application of an integrated management system approach that is applicable to nuclear medicine organizations as well. Quality management systems are maintained with the intent to continuously improve effectiveness and efficiency, enabling nuclear medicine to achieve the expectations of its quality policy, and to satisfy its customers. The IAEA has a long history of providing assistance in the field of nuclear medicine to its Member States. Regular quality audits and assessments are essential for modern nuclear medicine departments. More importantly, the entire QM and audit process has to be systematic, patient oriented and outcome based. The management of services should also take into account the diversity of nuclear medicine services around the world and multidisciplinary contributions. The latter include clinical, technical, radiopharmaceutical and medical physics procedures. Aspects of radiation safety and patient protection should also be integral to the process. Such an approach ensures consistency in providing safe, quality and superior services to patients. Increasingly standardized clinical protocol and evidence based medicine is used in nuclear medicine services, and some of these are recommended in numerous IAEA publications, for example, the Nuclear Medicine Resources Manual. Reference should also be made to other IAEA publications such as the IAEA Safety Standards Series, which include the regulations for the safe transport of nuclear material and on waste management as all of these have an impact on the provision of nuclear medicine services. The main objective of this publication is to introduce a routine of conducting an

Applications of radioisotopes in medicine

International Nuclear Information System (INIS)

Sivaprasad, N.

2012-01-01

The application of radioisotopes in medicine is many folds. They can be classified into two main groups. (a) The radioisotope tagged labeled compounds suitable for safe administration in the body for diagnosis of various diseases of vital organs such as brain, kidney, thyroid etc and for treatment known as radiotherapy (b) The sealed source of radioisotopes for utilizing the radiation emitted from the radioisotope for treatment, particularly for radiation therapy of cancer. The former application of radioisotope in the field of medicine has led to the formation of special branch of medicine termed Nuclear Medicine - the branch of medicine deals with the use of radioisotope in the from of radiopharmaceuticals for investigation, diagnosis and treatment of diseases. Radioisotopes in the form of radiolabelled compound and bio-chemicals that are pharmaceutically and radiologically safe for administration in the body for diagnosis and treatment are called radiopharmaceuticals. The radiopharmaceuticals are the results of world-wide effort to bring nuclear energy in a tangible form for diagnosis and treatment. Radioisotopes as radiopharmaceuticals thus constitute one of the key requirements for nuclear medicine investigation and radiotherapy. In the case of sealed radioisotope source the radiation emitted by the radioactive source is utilized for the treatment and this mode of treatment is called radiation therapy where no radioactive substance is administrated into the body. This does not form the part of nuclear medicine

Well scintillation counting systems for nuclear medicine applications in developing countries

International Nuclear Information System (INIS)

1977-01-01

This report of a consultants' meeting, organized by the Medical Applications Section of the Division of Life Sciences, IAEA, during the period 23-25 May 1977, examines well scintillation counting systems in the light of the requirements of laboratories in developing countries. It has three facets: 1) identification of the most rewarding applications of nuclear medicine techniques, 2) identification of favourable design attributes of instruments used in such applications, and 3) development of maintenance strategies to assure reliable performance of the instruments once put into service. Some characteristics of commercially available well scintillation counting systems are given

Radiation physics for nuclear medicine

CERN Document Server

Hoeschen, Christoph

2011-01-01

The field of nuclear medicine is expanding rapidly, with the development of exciting new diagnostic methods and treatments. This growth is closely associated with significant advances in radiation physics. In this book, acknowledged experts explain the basic principles of radiation physics in relation to nuclear medicine and examine important novel approaches in the field. The first section is devoted to what might be termed the "building blocks" of nuclear medicine, including the mechanisms of interaction between radiation and matter and Monte Carlo codes. In subsequent sections, radiation sources for medical applications, radiopharmaceutical development and production, and radiation detectors are discussed in detail. New frontiers are then explored, including improved algorithms for image reconstruction, biokinetic models, and voxel phantoms for internal dosimetry. Both trainees and experienced practitioners and researchers will find this book to be an invaluable source of up-to-date information.

Radioisotopes for nuclear medicine: the future

International Nuclear Information System (INIS)

Carr, S.W.

1998-01-01

Full text: Nuclear medicine occupies an important niche in the spectrum of medical capability. Since its initial application on a routine basis over 30 years ago its importance has continued to grow. For example, it is expected that over 430,000 Australians will have a nuclear medicine procedure in 1998. Current procedures using nuclear medicine are mainly concerned with diagnosis of oncology, cardiology and neurology. The main radioisotope used in nuclear medicine is Tc 99m, which is produced by a 'so called' Mo-Tc 99m generator. Other isotopes which currently find routine use are Ga-67, Th-201 and I-131. The selective uptakes by particular organs or structures is facilitated by the use of 'cold kits' which after the chemistry of the radioisotope many of the recent advances have been concerned with increasing the selectivity for a particular organ structure. Several of these new agents show increased selectivity using antibody a peptide recognition units

Frontiers in nuclear medicine symposium: Nuclear medicine & molecular biology

Energy Technology Data Exchange (ETDEWEB)

NONE

1995-04-01

This document contains the abstracts from the American College of Nuclear Physicians 1993 Fall Meeting entitled, `Frontiers in Nuclear Medicine Symposium: Nuclear Medicine and Molecular Biology`. This meeting was sponsored by the US DOE, Office of Health and Environmental Research, Office of Energy Research. The program chairman was Richard C. Reba, M.D.

Prospects in nuclear medicine

International Nuclear Information System (INIS)

Pink, V.; Johannsen, B.; Muenze, R.

1990-01-01

In nuclear medicine, a sequence of revolutioning research up to the simple and efficient application in routine has always then taken place when in an interdisciplinary teamwork new radiochemical tracers and/or new instrumentation had become available. At present we are at the beginning of a phase that means to be in-vivo-biochemistry, the targets of which are molecular interactions in the form of enzymatic reactions, ligand-receptor interactions or immunological reactions. The possibility to use positron-emitting radionuclides of bioelements in biomolecules or drugs to measure their distribution in the living organism by positron-emission tomography (PET) is gaining admittance into the pretentious themes of main directions of medical research. Diagnostic routine application of biochemically oriented nuclear medicine methods are predominantly expected from the transmission of knowledge in PET research to the larger appliable emission tomography with gamma-emitting tracers (SPECT). (author)

Applications of nuclear physics

Science.gov (United States)

Hayes, A. C.

2017-02-01

Today the applications of nuclear physics span a very broad range of topics and fields. This review discusses a number of aspects of these applications, including selected topics and concepts in nuclear reactor physics, nuclear fusion, nuclear non-proliferation, nuclear-geophysics, and nuclear medicine. The review begins with a historic summary of the early years in applied nuclear physics, with an emphasis on the huge developments that took place around the time of World War II, and that underlie the physics involved in designs of nuclear explosions, controlled nuclear energy, and nuclear fusion. The review then moves to focus on modern applications of these concepts, including the basic concepts and diagnostics developed for the forensics of nuclear explosions, the nuclear diagnostics at the National Ignition Facility, nuclear reactor safeguards, and the detection of nuclear material production and trafficking. The review also summarizes recent developments in nuclear geophysics and nuclear medicine. The nuclear geophysics areas discussed include geo-chronology, nuclear logging for industry, the Oklo reactor, and geo-neutrinos. The section on nuclear medicine summarizes the critical advances in nuclear imaging, including PET and SPECT imaging, targeted radionuclide therapy, and the nuclear physics of medical isotope production. Each subfield discussed requires a review article unto itself, which is not the intention of the current review; rather, the current review is intended for readers who wish to get a broad understanding of applied nuclear physics.

Applications of nuclear physics

International Nuclear Information System (INIS)

Hayes-Sterbenz, Anna Catherine

2017-01-01

Today the applications of nuclear physics span a very broad range of topics and fields. This review discusses a number of aspects of these applications, including selected topics and concepts in nuclear reactor physics, nuclear fusion, nuclear non-proliferation, nuclear-geophysics, and nuclear medicine. The review begins with a historic summary of the early years in applied nuclear physics, with an emphasis on the huge developments that took place around the time of World War II, and that underlie the physics involved in designs of nuclear explosions, controlled nuclear energy, and nuclear fusion. The review then moves to focus on modern applications of these concepts, including the basic concepts and diagnostics developed for the forensics of nuclear explosions, the nuclear diagnostics at the National Ignition Facility, nuclear reactor safeguards, and the detection of nuclear material production and trafficking. The review also summarizes recent developments in nuclear geophysics and nuclear medicine. The nuclear geophysics areas discussed include geo-chronology, nuclear logging for industry, the Oklo reactor, and geo-neutrinos. The section on nuclear medicine summarizes the critical advances in nuclear imaging, including PET and SPECT imaging, targeted radionuclide therapy, and the nuclear physics of medical isotope production. Lastly, each subfield discussed requires a review article unto itself, which is not the intention of the current review; rather, the current review is intended for readers who wish to get a broad understanding of applied nuclear physics.

Computers. A perspective on their usefulness in nuclear medicine

International Nuclear Information System (INIS)

Loken, M.K.; Williams, L.E.; Ponto, R.A.; Ganatra, R.D.; Raikar, U.; Samuel, A.M.

1977-01-01

To date, many symposia have been held on computer applications in nuclear medicine. Despite all of these efforts, an appraisal of the true utility of computers in the day-to-day practice of nuclear medicine is yet to be achieved. Now that the technology of data storage and processing in nuclear medicine has reached a high degree of sophistication, as evidenced by many reports in the literature, the time has come to develop a perspective on the proper place of computers in nuclear medicine practice. The paper summarizes various uses of a dedicated computer (Nuclear Data Med II) at our two institutions and comments on its clinical utility. (author)

Mentoring and the Nuclear Medicine Technologist.

Science.gov (United States)

Burrell, Lance

2018-06-08

The goal of this article is to give an overview of mentoring for nuclear medicine technologists (NMT). Mentoring is an integral part of the training and practice in the field of nuclear medicine technology. There is a great need for NMTs to continue involvement in mentorship so that we can develop and maintain the talent and leadership that the field needs. In this article, definitions of mentorship will be provided. Then, how mentoring can work; including different methods and techniques will be covered. Next, the benefits of mentoring will be discussed. Finally, advice for improved application will be presented. Throughout, this article will discuss how mentoring applies to the NMT. Copyright © 2018 by the Society of Nuclear Medicine and Molecular Imaging, Inc.

Nuclear applications in life sciences

International Nuclear Information System (INIS)

Uenak, P.

2009-01-01

Radioactivity has revolutionized life sciences during the last century, and it is still an indispensable tool. Nuclear Medicine, Radiation Biology and Radiotherapy, Dosimetry and Medical Radiation Physics, Nutrition and Environmental Problems Relevant Health are significant application fields of Nuclear Sciences. Nuclear medicine today is a well established branch of medicine. Radionuclides and radiopharmaceuticals play a key role both in diagnostic investigations and therapy-Both cyclotron and reactor produced radionuclides find application, the former more in diagnostic studies and the latter in therapy. New therapy applications such as bor neutron therapy are increasing by time together with the technological improvements in imaging systems such as PET and SPECT. Radionuclides and radiopharmaceuticals play important role in both therapy and imaging. However cyclotron produced radionuclides have been using generally in imaging purposes while reactor produced radionuclides have also therapeutic applications. With the advent of emission tomography, new vistas for probing biochemistry in vivo have been opened. The radio chemist faces an ever-increasing challenge of designing new tracers for diagnostic and therapeutic applications. Rapid, efficient and automated methods of radionuclide and precursor production, labeling of biomolecules, and quality control need to be developed. The purpose of this article is a short interface from Nuclear Medicine, Radiation Biology and Radiotherapy, Dosimetry and Medical Radiation Physics Applications of Nuclear Sciences.

Nuclear medicine applications in AIDS

International Nuclear Information System (INIS)

Abdel-Dayem, H.M.

2004-01-01

Full text: Aids patients are liable to more than one medical problem at anyone time as the number of CD4 cells decrease and the viral load increases. Problems are related to multiple causes of opportunistic Infections, malignant lymphoma and Kaposi sarcoma. Laboratory tests, sputum analysis and bronchial lavage have problems of decreased sensitivity. morphologic Imaging modalities such as chest X-ray, CT or MRI has problems of specificity. Nuclear medicine techniques has the advantage of total body functional imaging that can visualize more than one organ. The use nuclear medicine imaging is recommended when the diagnosis is uncertain and for initiation of proper treatment. Gallium-67 citrate total body scans acquired at 4 hours following the IV injection and at 24-48 hours has been very useful for the early diagnosis of opportunistic infections such as PCP, TB, Disseminated Mycobacterium avii complex; MAI, malignant lymphoma and various forms of AIDS related colitis. Sequential thallium and gallium scan help to differentiate Kaposi sarcoma (thallium positive, gallium negative) from opportunistic infections (gallium positive, thallium negative) and malignant lymphoma (thallium and gallium positive). Gallium is the most convenient radiopharmaceutical for the diagnosis of malignant lymphoma of the heart. Thallium and Tc-99m Sestamibi are useful for the differentiation of intracranial toxoplasmosis from malignant lymphoma. The presentation will illustrate different examples and will explain the limitations of all these tests. (author)

Fundamentals of nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Alazraki, N.P.; Mishkin, F.S.

1984-01-01

This guidebook for clinical nuclear medicine is written as a description of how nuclear medicine procedures should be used by clinicians in evaluating their patients. It is designed to assist medical students and physicians in becoming acquainted with nuclear medicine techniques for detecting and evaluating most common disorders. The material provides an introduction to, not a textbook of, nuclear medicine. Each chapter is devoted to a particular organ system or topic relevant to the risks and benefits involved in nuclear medicine studies. The emphasis is on presenting the rationales for ordering the various clinical imaging procedures performed in most nuclear medicine departments. Where appropriate, alternative imaging modalities including ultrasound, computed tomography imaging, and radiographic special procedures are discussed. Comparative data between nuclear medicine imaging and other modalities are presented to help guide the practicing clinician in the selection of the most appropriate procedure for a given problem.

The state of the art in nuclear medicine

International Nuclear Information System (INIS)

Scott, A.M.

1999-01-01

Recent improvements in the understanding of the physiologic and biologic mechanisms of health and disease have led to an expansion of nuclear medicine applications both in clinical studies and research. Advances in radiopharmaceutical development, instrumentation and computer processing have resulted in the implementation of Positron Emission Tomography for clinical studies, and improved treatments with radiopharmaceuticals particularly in cancer patients. There has also been a dramatic increase in the techniques available with nuclear medicine to detect and measure cellular biologic events in-vivo, which have important implications in clinical and basic science research. Nuclear medicine studies provide unique information on human physiology and remain an integral part of clinical medicine practice

Nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Sharma, S M [Bhabha Atomic Research Centre, Bombay (India). Radiation Medicine Centre

1967-01-01

The article deals with the growth of nuclear medicine in India. Radiopharmaceuticals both in elemental form and radiolabelled compounds became commercially available in India in 1961. Objectives and educational efforts of the Radiation Medicine Centre setup in Bombay are mentioned. In vivo tests of nuclear medicine such as imaging procedures, dynamic studies, dilution studies, thyroid function studies, renal function studies, linear function studies, blood flow, and absorption studies are reported. Techniques of radioimmunoassay are also mentioned.

PACS in nuclear medicine

International Nuclear Information System (INIS)

Kang, Keon Wook

2000-01-01

PACS (Picture Archiving and Communication System) is being rapidly spread and installed in many hospitals, but most of the system do not include nuclear medicine field. Although additional costs of hardware for nuclear medicine PACS is low, the complexity in developing viewing software and little market have made the nuclear medicine PACS not popular. Most PACS utilize DICOM 3.0 as standard format, but standard format in nuclear medicine has been Interfile. Interfile should be converted into DICOM format if nuclear images are to be stored and visualized in most PACS. Nowadays, many vendors supply the DICOM option in gamma camera and PET. Several hospitals in Korea have already installed nucler PACS with DICOM, but only the screen captured images are supplied. Software for visualizing pseudo-color with color lookup tables and expressing with volume view should be developed to fulfill the demand of referring physicians and nuclear medicine physicians. PACS is going to integrate not only radiologic images but also endoscopic and pathologic images. Web and PC based PACS is now a trend and is much compatible with nuclear medicine PACS. Most important barrier for nuclear medicine PACS that we encounter is not a technical problem, but indifference of investor such as administrator of hospital or PACS. Now it is time to support and invest for the development of nuclear medicine PACS

Nuclear techniques in medicine

International Nuclear Information System (INIS)

Basson, J.K.

1984-01-01

The use of nuclear techniques in medicine has, also in South Africa, increased enormously, especially as regards diagnosis and reseach. In 1983 in vivo tests with radioisotopes were carried out and also in vitro tests, mainly by radioimmunoassay. Therapy with open and sealed radioactive sources was concentrated mainly on cancer treatments. In 1983 NUCOR supported 83 research projects in the life sciences. Imaging of organs or tissues in the body with nuclear techniques has developed into the most important application of nuclear medicine, with the development of even more specific labelled compounds as the main objective. Radioimmunoassay is at an exciting watershed, now that labelled monoclonal antibodies with high specificity for early diagnosis (also in cancer) and even localised radiotherapy have become available. The establishment of the 200 MeV open-sector cyclotron by the National Accelerator Centre also for medical purposes will, in addition to the large-scale production of the protonrich isotopes, also make a substantial contribution to radiotherapy with nuclear particles such as neutrons, protons and helium-3

Beijing nuclear medicine survey 2005: general information

International Nuclear Information System (INIS)

Geng Jianhua; Si Hongwei; Chen Shengzu

2008-01-01

Objective: To evaluate the status of nuclear medicine department in Beijing area. Methods: Staff, equipment and clinical applications of nuclear medicine departments in Beijing area during 2005 were evaluated by postal questionnaires. Results: Thirty nuclear medicine departments responded to our survey. In these departments, 321 staff, 141 doctors, 122 technicians, 7 physicists, 22 nurses and 29 other staff were employed; and 41 large imaging equipments, 37 SPECT, 3 PET, 1 PET-CT were equipped. During 2005, 88135 radionuclide imaging (84734 for SPECT, 3401 for PET), 462246 radioimmunoassay and 2228 radionuclide therapies (the most for Graves' disease, the second for thyroid cancer, the third for bone metastasis) were performed. For only 41.5% and 22.0% equipments the daily quality control (QC) and weekly QC were conducted. Conclusions Staff, equipments and activities of nuclear medicine department in Beijing were in a considerable scale, but did not balance among hospitals. Most departments should increase the number of physicists and the equipment QC procedures to improve the image quality. (authors)

The application of drug delivery system about nanoparticles in nuclear medicine

International Nuclear Information System (INIS)

Yao Ning; Wang Rongfu

2013-01-01

The development of nuclear medicine relies on the advancement of precise probes at the cellular and molecular levels. Nanoparticle as a new molecular probe, is mainly consists of the targeting groups, imaging groups, the superb biocompatible 'shells' and the modify groups. These nanoparticles have the better image contrast by targeting positioning in the target tissues and cells. At the same time, because of the diversity of the materials and the uniqueness of the structures, the nanoparticles can realize multimodal imaging at molecular level, which complement each other's advantages of different imaging modals. If the treatment groups are joined into the nanoparticles, a new nanoparticles are formed-the theranosis nanoparticles, which have realized the diagnosis and therapy at the molecular level synchronously. In addition, the application of intelligent nanoprobes can achieve the smart control of drug release and reduce the side effects of cancer treatment. Anyhow, the development of this new drug delivery system about nanoparticles has brought about a new breakthrough on the nuclear medicine. (authors)

Official Program and Abstracts of the 15. Meeting of the Latin-American Association of Biology and Nuclear Medicine Societies (ALASBIMN 97); Iberoamerican Congress of Nuclear Medicine

International Nuclear Information System (INIS)

1997-01-01

This issue contains 117 abstracts of lectures and poster sessions of the 15th Meeting of the Latin-American Association of Biology and Nuclear Medicine Societies (ALASBIMN 97) and Iberoamerican Congress of Nuclear Medicine, held in Lima, Peru, from 26 to 30 October 1997. The key subjects addressed are nuclear medicine and diagnostic techniques on brain, liver, lungs, heart, osteo-articular, cardiology, oncology, endocrinology, radiopharmaceuticals, medical physics, SPECT and their applications in diagnostic medicine. (APC)

Patient preparation for nuclear medicine studies

International Nuclear Information System (INIS)

Stathis, V.J.; Cantrell, D.W.; Cantrell, T.J.

1987-01-01

In this chapter are described methods of patient preparation that can favorably affect the outcome of nuclear medicine studies in specific situations. Some of these practices may be considered essential to the success of the nuclear medicine procedure, whereas others may be thought of simply as a means of obtaining more valid or reliable information. Regardless of relative importance, each of the preparatory methods discussed can contribute to the quality of the respective study and can serve as a means of maximizing the value of nuclear medicine procedures. The specific patient preparation techniques discussed in this chapter may not be readily applicable to every practice setting or situation. These or similar procedures can be used or modified as necessary. It is important, however, that when new protocols are developed, the rationale and theoretical basis of each technique be considered

Do we need a universal 'code of ethics' in nuclear medicine?

Science.gov (United States)

Ramesh, Chandakacharla N; Vinjamuri, Sobhan

2010-06-01

Recent years have seen huge advances in medicine and the science of medicine. Nuclear medicine has been no exception and there has been rapid acceptance of new concepts, new technologies and newer ways of working. Ethical principles have been traditionally considered as generic skills applicable to wide groups of scientists and doctors, with only token refinement at specialty level. Specialist bodies across the world representing wide groups of practitioners frequently have subgroups dealing exclusively with ethical issues. It could easily be argued that the basic principles of ethical practice adopted by specialist bodies closest to nuclear medicine practice, such as radiology and oncology, will also be applicable to nuclear medicine and that time and effort need not be spent on specifying a separate code for nuclear medicine. It could also be argued that nuclear medicine is an independent specialty and some (if not most) practitioners will not be aware of the guidelines adopted by other specialist societies, and that there is a need for re-iteration of ethical principles at the specialty level and on a worldwide scale.In this article we would like to present a brief history of medical ethics, discuss some of the advances in nuclear medicine and their associated ethical aspects, as well as list a framework of principles for consideration, should a specialist body deem it suitable to establish a 'code of ethics' for nuclear medicine.

Applications of Nuclear Physics

OpenAIRE

Hayes, Anna C.

2017-01-01

Today the applications of nuclear physics span a very broad range of topics and fields. This review discusses a number of aspects of these applications, including selected topics and concepts in nuclear reactor physics, nuclear fusion, nuclear non-proliferation, nuclear-geophysics, and nuclear medicine. The review begins with a historic summary of the early years in applied nuclear physics, with an emphasis on the huge developments that took place around the time of World War II, and that und...

Dynamic functional studies in nuclear medicine in developing countries

International Nuclear Information System (INIS)

1989-01-01

The Proceedings document some of the trials and tribulations involved in setting up nuclear medicine facilities in general and specifically as regards nuclear medicine applications for the diagnosis of the diseases prevalent in the less developed countries. Most of the 51 papers deal with various clinical applications of dynamic functional studies. However, there was also a session on quality control of the equipment used, and a panel discussion critically looked at the problems and potential of dynamic studies in developing countries. This book will be of interest and use not only to those practising nuclear medicine in the developing countries, but it may also bring home to users in developed countries how ''more can be done with less''. Refs, figs and tabs

Applications of CdTe to nuclear medicine. Final report

International Nuclear Information System (INIS)

Entine, G.

1985-01-01

Uses of cadmium telluride (CdTe) nuclear detectors in medicine are briefly described. They include surgical probes and a system for measuring cerebral blood flow in the intensive care unit. Other uses include nuclear dentistry, x-ray exposure control, cardiology, diabetes, and the testing of new pharmaceuticals

VIIIth international symposium on nuclear medicine

International Nuclear Information System (INIS)

1986-01-01

The conference proceedings contain 92 abstracts of submitted papers dealing with various applications of radioisotopes in diagnosis and therapy. The papers were devoted to scintiscanning, radioimmunoassay, tomography, the applications of nuclear magnetic resonance and electron microscopy in different branches - oncology, cardiology, neurology, histology, gynecology, internal medicine, etc. (M.D.)

Nuclear medicine and mathematics

Energy Technology Data Exchange (ETDEWEB)

Pedroso de Lima, J.J. [Dept. de Biofisica e Proc. de Imagem, IBILI - Faculdade de Medicina, Coimbra (Portugal)

1996-06-01

The purpose of this review is not to present a comprehensive description of all the mathematical tools used in nuclear medicine, but to emphasize the importance of the mathematical method in nuclear medicine and to elucidate some of the mathematical concepts currently used. We can distinguish three different areas in which mathematical support has been offered to nuclear medicine: Physiology, methodology and data processing. Nevertheless, the boundaries between these areas can be indistinct. It is impossible in a single article to give even an idea of the extent and complexity of the procedures currently usede in nuclear medicine, such as image processing, reconstruction from projections and artificial intelligence. These disciplines do not belong to nuclear medicine: They are already branches of engineering, and my interest will reside simply in revealing a little of the elegance and the fantastic potential of these new `allies` of nuclear medicine. In this review the mathematics of physiological interpretation and methodology are considered together in the same section. General aspects of data-processing methods, including image processing and artificial intelligence, are briefly analysed. The mathematical tools that are most often used to assist the interpretation of biological phenomena in nuclear medicine are considered; these include convolution and deconvolution methods, Fourier analysis, factorial analysis and neural networking. (orig.)

Nuclear medicine and mathematics

International Nuclear Information System (INIS)

Pedroso de Lima, J.J.

1996-01-01

The purpose of this review is not to present a comprehensive description of all the mathematical tools used in nuclear medicine, but to emphasize the importance of the mathematical method in nuclear medicine and to elucidate some of the mathematical concepts currently used. We can distinguish three different areas in which mathematical support has been offered to nuclear medicine: Physiology, methodology and data processing. Nevertheless, the boundaries between these areas can be indistinct. It is impossible in a single article to give even an idea of the extent and complexity of the procedures currently usede in nuclear medicine, such as image processing, reconstruction from projections and artificial intelligence. These disciplines do not belong to nuclear medicine: They are already branches of engineering, and my interest will reside simply in revealing a little of the elegance and the fantastic potential of these new 'allies' of nuclear medicine. In this review the mathematics of physiological interpretation and methodology are considered together in the same section. General aspects of data-processing methods, including image processing and artificial intelligence, are briefly analysed. The mathematical tools that are most often used to assist the interpretation of biological phenomena in nuclear medicine are considered; these include convolution and deconvolution methods, Fourier analysis, factorial analysis and neural networking. (orig.)

Integrating cardiology for nuclear medicine physicians. A guide to nuclear medicine physicians

International Nuclear Information System (INIS)

Movahed, Assad; Gnanasegaran, Gopinath; Buscombe, John R.; Hall, Margaret

2009-01-01

Nuclear cardiology is no longer a medical discipline residing solely in nuclear medicine. This is the first book to recognize this fact by integrating in-depth information from both the clinical cardiology and nuclear cardiology literature, and acknowledging cardiovascular medicine as the fundamental knowledge base needed for the practice of nuclear cardiology. The book is designed to increase the practitioner's knowledge of cardiovascular medicine, thereby enhancing the quality of interpretations through improved accuracy and clinical relevance.The text is divided into four sections covering all major topics in cardiology and nuclear cardiology: -Basic Sciences and Cardiovascular Diseases; -Conventional Diagnostic Modalities; -Nuclear Cardiology; -Management of Cardiovascular Diseases. (orig.)

The state of the art in diagnostic nuclear medicine

International Nuclear Information System (INIS)

Scott, A.M.; University of Melbourne, VIC

2001-01-01

Recent improvements in the understanding of the physiologic and biologic mechanisms of health and disease have led to an expansion of nuclear medicine applications both in clinical studies and research. Advances in radiopharmaceutical development, instrumentation and computer processing have resulted in the implementation of Positron Emission Tomography for clinical studies, and improved treatments with radiopharmaceuticals particularly in cancer patients. There has also been an dramatic increase in the techniques available with nuclear medicine to detect and measure cellular biologic events in-vivo, which have important implications in clinical and basic science research. Nuclear medicine studies provide unique information on human physiology and remain an integral part of clinical medicine practice

Nuclear medicine in bone diagnostics

International Nuclear Information System (INIS)

Feine, U.; Mueller-Schauenburg, W.

1985-01-01

This book on nuclear medicine in bone diagnostics and other complementary imaging methods is composed out of the 51 presentations of the 2nd Tuebinger bone symposium held on the 11th and 12th January 1985; it gives an overview of newer methods of nuclear medicine and other imaging methods such as magnetic-resonance tomography and sonography. While the 1st Tuebinger Symposium in January 1981 dealt with the clinical application of classical bone scintigraphy and the possibilities of the results of differential diagnosis, the present book is concerned with indications, alternative radiopharmaceuticals for skeleton scintigraphy and other techniques. The intention is to give a survey of the developments made over the last few years. (orig./MG) [de

Reactor production and processing of radioisotopes for therapeutic applications in nuclear medicine

International Nuclear Information System (INIS)

Knapp, F.F. Jr.; Mirzadeh, S.; Beets, A.L.

1995-01-01

Nuclear reactors continue to play an important role in providing radioisotopes for nuclear medicine. Many reactor-produced radioisotopes are ''neutron rich'' and decay by beta-emission and are thus of interest for therapeutic applications. This talk discusses the production and processing of a variety of reactor-produced radioisotopes of current interest, including those produced by the single neutron capture process, double neutron capture and those available from beta-decay of reactorproduced radioisotopes. Generators prepared from reactorproduced radioisotopes are of particular interest since repeated elution inexpensively provides many patient doses. The development of the alumina-based W-188/Re-188 generator system is discussed in detail

Imaging in nuclear medicine

International Nuclear Information System (INIS)

Giussani, Augusto; Hoeschen, Christoph

2013-01-01

Presents the most recent developments in nuclear medicine imaging, with emphasis on the latest research findings. Considers the latest advances in imaging systems, image reconstruction, noise correction, and quality assurance. Discusses novel concepts, including those developed within the framework of the EURATOM FP7 MADEIRA project. Lists rules of thumb for imaging of use to both beginners and experienced researchers. This volume addresses a wide range of issues in the field of nuclear medicine imaging, with an emphasis on the latest research findings. Initial chapters set the scene by considering the role of imaging in nuclear medicine from the medical perspective and discussing the implications of novel agents and applications for imaging. The physics at the basis of the most modern imaging systems is described, and the reader is introduced to the latest advances in image reconstruction and noise correction. Various novel concepts are then discussed, including those developed within the framework of the EURATOM FP7 MADEIRA research project on the optimization of imaging procedures in order to permit a reduction in the radiation dose to healthy tissues. Advances in quality control and quality assurance are covered, and the book concludes by listing rules of thumb for imaging that will be of use to both beginners and experienced researchers.

Imaging in nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Giussani, Augusto [BfS - Federal Office for Radiation Protection, Oberschleissheim (Germany). Dept. of Radiation Protection and Health; Hoeschen, Christoph (eds.) [Helmholtz Zentrum Muenchen - German Research Center for Environmental Health, Neuherberg (Germany). Research Unit Medical Raditation Physics and Diagnostics

2013-08-01

Presents the most recent developments in nuclear medicine imaging, with emphasis on the latest research findings. Considers the latest advances in imaging systems, image reconstruction, noise correction, and quality assurance. Discusses novel concepts, including those developed within the framework of the EURATOM FP7 MADEIRA project. Lists rules of thumb for imaging of use to both beginners and experienced researchers. This volume addresses a wide range of issues in the field of nuclear medicine imaging, with an emphasis on the latest research findings. Initial chapters set the scene by considering the role of imaging in nuclear medicine from the medical perspective and discussing the implications of novel agents and applications for imaging. The physics at the basis of the most modern imaging systems is described, and the reader is introduced to the latest advances in image reconstruction and noise correction. Various novel concepts are then discussed, including those developed within the framework of the EURATOM FP7 MADEIRA research project on the optimization of imaging procedures in order to permit a reduction in the radiation dose to healthy tissues. Advances in quality control and quality assurance are covered, and the book concludes by listing rules of thumb for imaging that will be of use to both beginners and experienced researchers.

Pulmonary nuclear medicine: Techniques in diagnosis of lung disease

International Nuclear Information System (INIS)

Atkins, H.L.

1984-01-01

This book presents papers on the application of nuclear medicine to the diagnosis of lung diseases. Topics considered include lung physiology and anatomy, radiopharmaceuticals in pulmonary medicine, pulmonary embolism, obstructive pulmonary disease, diffuse infiltrative lung disease, pneumoconioses, tumor localization scans in primary lung tumors, the interactions of heart diseases and lung diseases on radionuclide tests of lung anatomy and function, radionuclide imaging in pediatric lung diseases, and future possibilities in pulmonary nuclear medicine

Physics and radiobiology of nuclear medicine

CERN Document Server

Saha, Gopal B

2013-01-01

The Fourth Edition of Dr. Gopal B. Saha’s Physics and Radiobiology of Nuclear Medicine was prompted by the need to provide up-to-date information to keep pace with the perpetual growth and improvement in the instrumentation and techniques employed in nuclear medicine since the last edition published in 2006. Like previous editions, the book is intended for radiology and nuclear medicine residents to prepare for the American Board of Nuclear Medicine, American Board of Radiology, and American Board of Science in Nuclear Medicine examinations, all of which require a strong physics background. Additionally, the book will serve as a textbook on nuclear medicine physics for nuclear medicine technologists taking the Nuclear Medicine Technology Certification Board examination.

A manual of nuclear medicine procedures

International Nuclear Information System (INIS)

Das, B.K.; Noreen Norfaraheen Lee Abdullah

2012-01-01

Nuclear medicine is a fast growing specialty. The procedures provide quantitative parameters of organ functions required for modern practice of medicine. With the development of new machines and increased application of computer software, the procedures are under continuous change. Some procedures have become outdated or redundant while new methods have been introduced to enhance the quality of information obtained from a particular application. Although there are a few books published abroad to inform doctors and technical staff about the procedures, a comprehensive source to give quick information about how different test are performed, particularly the new developments and the expected outcome both in normal and abnormal cases has been a long felt need. The physician ordering a Nuclear Medicine test also needs to know what patient preparations are required for optimal results, how to satisfy the queries of the patient particularly in respect of radiation exposure which sometimes can be a major concern of the patient. This manual has been prepared not only to describe technical details of various procedures that are currently practiced in Nuclear Medicine, but also to provide quick information for the doctors and health care personnel on how to inform the patients about the investigation for which they are being referred and how to interpret the results. Since there is no such comprehensive book published yet in Asia including South-East Asia, it is likely to be in great demand in the region. All students of Master Degree, M.D., DRM, DMRIT, M.Sc. (Nuclear Medicine) and technologists already working in various diagnostic centers will likely buy this book. General practitioners and specialists who refer patients for different radioisotope investigations may find this book useful for quick reference. (author)

Energetic electron processes fluorescence effects for structured nanoparticles X-ray analysis and nuclear medicine applications

Energy Technology Data Exchange (ETDEWEB)

Taborda, A.; Desbrée, A. [Institut de Radioprotection et de Sûreté Nucléaire (IRSN), PRP-HOM/SDI/LEDI, BP-17, 31, Avenue de la Division Leclerc, 92262 Fontenay-aux-Roses (France); Carvalho, A. [IEQUALTECS, Lda, Rua Dr. Francisco Sá Carneiro, 36, 2500-065 S. Gregório CLD (Portugal); Chaves, P.C. [C" 2TN, Campus Tecnológico e Nuclear, Instituto Superior Técnico, Universidade de Lisboa, EN10 km 139.7, 2685-066 Bobadela LRS (Portugal); Reis, M.A., E-mail: mareis@ctn.tecnico.ulisboa.pt [IEQUALTECS, Lda, Rua Dr. Francisco Sá Carneiro, 36, 2500-065 S. Gregório CLD (Portugal); C" 2TN, Campus Tecnológico e Nuclear, Instituto Superior Técnico, Universidade de Lisboa, EN10 km 139.7, 2685-066 Bobadela LRS (Portugal)

2016-08-15

Superparamagnetic iron oxide (SPIO) nanoparticles are widely used as contrast agents for nuclear magnetic resonance imaging (MRI), and can be modified for improved imaging or to become tissue-specific or even protein-specific. The knowledge of their detailed elemental composition characterisation and potential use in nuclear medicine applications, is, therefore, an important issue. X-ray fluorescence techniques such as particle induced X-ray emission (PIXE) or X-ray fluorescence spectrometry (XRF), can be used for elemental characterisation even in problematic situations where very little sample volume is available. Still, the fluorescence coefficient of Fe is such that, during the decay of the inner-shell ionised atomic structure, keV Auger electrons are produced in excess to X-rays. Since cross-sections for ionisation induced by keV electrons, for low atomic number atoms, are of the order of 10{sup 3} barn, care should be taken to account for possible fluorescence effects caused by Auger electrons, which may lead to the wrong quantification of elements having atomic number lower than the atomic number of Fe. Furthermore, the same electron processes will occur in iron oxide nanoparticles containing {sup 57}Co, which may be used for nuclear medicine therapy purposes. In the present work, simple approximation algorithms are proposed for the quantitative description of radiative and non-radiative processes associated with Auger electrons cascades. The effects on analytical processes and nuclear medicine applications are quantified for the case of iron oxide nanoparticles, by calculating both electron fluorescence emissions and energy deposition on cell tissues where the nanoparticles may be embedded.

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... interventions. Children's (pediatric) nuclear medicine refers to imaging examinations done in babies, young children and teenagers. Nuclear ... nuclear medicine procedure work? With ordinary x-ray examinations, an image is made by passing x-rays ...

A nuclear chocolate box: the periodic table of nuclear medicine.

Science.gov (United States)

Blower, Philip J

2015-03-21

Radioisotopes of elements from all parts of the periodic table find both clinical and research applications in radionuclide molecular imaging and therapy (nuclear medicine). This article provides an overview of these applications in relation to both the radiological properties of the radionuclides and the chemical properties of the elements, indicating past successes, current applications and future opportunities and challenges for inorganic chemistry.

Array processors: an introduction to their architecture, software, and applications in nuclear medicine

International Nuclear Information System (INIS)

King, M.A.; Doherty, P.W.; Rosenberg, R.J.; Cool, S.L.

1983-01-01

Array processors are ''number crunchers'' that dramatically enhance the processing power of nuclear medicine computer systems for applicatons dealing with the repetitive operations involved in digital image processing of large segments of data. The general architecture and the programming of array processors are introduced, along with some applications of array processors to the reconstruction of emission tomographic images, digital image enhancement, and functional image formation

Nuclear Medicine Engineering

International Nuclear Information System (INIS)

Mateescu, Gheorghe; Craciunescu, Teddy

2000-01-01

'An image is more valuable than a thousand words' - this is the thought that underlies the authors' vision about the field of nuclear medicine. The monograph starts with a review of some theoretical and engineering notions that grounds the field of nuclear medicine: nuclear radiation, interaction of radiation with matter, radiation detection and measurement, numerical analysis. Products and methods needed for the implementation of diagnostic and research procedures in nuclear medicine are presented: radioisotopes and radiopharmaceuticals, equipment for in-vitro (radioimmunoassay, liquid scintillation counting) and in-vivo investigations (thyroid uptake, renography, dynamic studies, imaging). A special attention is focused on medical imaging theory and practice as a source of clinical information (morphological and functional). The large variety of parameters, components, biological structures and specific properties of live matter determines the practical use of three-dimensional tomographic techniques based on diverse physical principles: single-photon emission, positron emission, X-rays transmission, nuclear magnetic resonance, ultrasounds transmission and reflection, electrical impedance measurement. The fundamental reconstruction algorithms i.e., algorithms based on the projection theorem and Fourier filtering, algebraic reconstruction techniques and the algorithms based on statistical principles: maximum entropy, maximum likelihood, Monte Carlo algorithms, are depicted in details. A method based on the use of the measured point spread function is suggested. Some classical but often used techniques like linear scintigraphy and Anger gamma camera imaging are also presented together with some image enhancement techniques like Wiener filtering and blind deconvolution. The topic of the book is illustrated with some clinical samples obtained with nuclear medicine devices developed in the Nuclear Medicine Laboratory of the National Institute of Nuclear Physics and

Converting energy to medical progress [nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

NONE

2001-04-01

For over 50 years the Office of Biological and Environmental Research (BER) of the United States Department of Energy (DOE) has been investing to advance environmental and biomedical knowledge connected to energy. The BER Medical Sciences program fosters research to develop beneficial applications of nuclear technologies for medical diagnosis and treatment of many diseases. Today, nuclear medicine helps millions of patients annually in the United States. Nearly every nuclear medicine scan or test used today was made possible by past BER-funded research on radiotracers, radiation detection devices, gamma cameras, PET and SPECT scanners, and computer science. The heart of biological research within BER has always been the pursuit of improved human health. The nuclear medicine of tomorrow will depend greatly on today's BER-supported research, particularly in the discovery of radiopharmaceuticals that seek specific molecular and genetic targets, the design of advanced scanners needed to create meaningful images with these future radiotracers, and the promise of new radiopharmaceutical treatments for cancers and genetic diseases.

Converting energy to medical progress [nuclear medicine

International Nuclear Information System (INIS)

2001-01-01

For over 50 years the Office of Biological and Environmental Research (BER) of the United States Department of Energy (DOE) has been investing to advance environmental and biomedical knowledge connected to energy. The BER Medical Sciences program fosters research to develop beneficial applications of nuclear technologies for medical diagnosis and treatment of many diseases. Today, nuclear medicine helps millions of patients annually in the United States. Nearly every nuclear medicine scan or test used today was made possible by past BER-funded research on radiotracers, radiation detection devices, gamma cameras, PET and SPECT scanners, and computer science. The heart of biological research within BER has always been the pursuit of improved human health. The nuclear medicine of tomorrow will depend greatly on today's BER-supported research, particularly in the discovery of radiopharmaceuticals that seek specific molecular and genetic targets, the design of advanced scanners needed to create meaningful images with these future radiotracers, and the promise of new radiopharmaceutical treatments for cancers and genetic diseases

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... by Image/Video Gallery Your Radiologist Explains Nuclear Medicine Transcript Welcome to Radiology Info dot org Hello! ... d like to talk to you about nuclear medicine. Nuclear medicine offers the potential to identify disease ...

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... Sponsored by Image/Video Gallery Your Radiologist Explains Nuclear Medicine Transcript Welcome to Radiology Info dot org ... I’d like to talk to you about nuclear medicine. Nuclear medicine offers the potential to identify ...

Nuclear medicine research: an evaluation of the ERDA program

International Nuclear Information System (INIS)

1976-08-01

Legislation which established the Energy Research and Development Administration (ERDA) January 19, 1975, stipulated that this new agency should be responsible for all activities previously assigned to the Atomic Energy Commission (AEC) and not specifically assigned to other agencies. Such activities included the nuclear medicine research program of the AEC Division of Biomedical and Environmental Research (DBER). To determine whether continuation of this program under the broader ERDA mission of energy-related research was in fact appropriate, a special task force was appointed in January 1975 by Dr. James L. Liverman, the director of DBER. This task force, comprised of established scientists knowledgeable about issues related to nuclear medicine either currently or in the past, was charged specifically to assess the historical impact of the AEC/ERDA nuclear medicine program on the development of nuclear medicine, the current status of this program, and its future role within the structure of ERDA. The specific recommendations, in brief form, are as follows: the federal government should continue to support the medical application of nuclear technology; ERDA should retain primary responsibility for support and management of federal nuclear medicine research programs; and management and emphasis of the ERDA nuclear medicine program require modification in certain areas, which are set forth

Nuclear medicine statistics

International Nuclear Information System (INIS)

Martin, P.M.

1977-01-01

Numerical description of medical and biologic phenomena is proliferating. Laboratory studies on patients now yield measurements of at least a dozen indices, each with its own normal limits. Within nuclear medicine, numerical analysis as well as numerical measurement and the use of computers are becoming more common. While the digital computer has proved to be a valuable tool for measurment and analysis of imaging and radioimmunoassay data, it has created more work in that users now ask for more detailed calculations and for indices that measure the reliability of quantified observations. The following material is presented with the intention of providing a straight-forward methodology to determine values for some useful parameters and to estimate the errors involved. The process used is that of asking relevant questions and then providing answers by illustrations. It is hoped that this will help the reader avoid an error of the third kind, that is, the error of statistical misrepresentation or inadvertent deception. This occurs most frequently in cases where the right answer is found to the wrong question. The purposes of this chapter are: (1) to provide some relevant statistical theory, using a terminology suitable for the nuclear medicine field; (2) to demonstrate the application of a number of statistical methods to the kinds of data commonly encountered in nuclear medicine; (3) to provide a framework to assist the experimenter in choosing the method and the questions most suitable for the experiment at hand; and (4) to present a simple approach for a quantitative quality control program for scintillation cameras and other radiation detectors

Radiation protection problems by diagnostic procedures of pediatric nuclear medicine

International Nuclear Information System (INIS)

Kletter, K.

1994-01-01

Special dosimetry considerations are necessary in the application of radiopharmaceuticals in pediatric nuclear medicine. The influence of differences in irradiation geometry and biokinetic parameters on the radiation dose in children and adults is discussed. Assuming an equal activity concentration, both factors lead rather to a reduced radiation dose than an increased radiation burden in children compared to adults. However, the same radiation dose in children and adults may lead to a different detriment. This is explained by differences in life expectancy and radiation sensitivity for both groups. From special formulas an age dependent reduction factor can be calculated for the application of radiopharmaceuticals in pediatric nuclear medicine. Radiation exposure to hospital staff and parents from children, undergoing nuclear medicine diagnostic or therapeutic procedures, is low. (author)

Nuclear medicine in psychiatry

International Nuclear Information System (INIS)

Lass, P.; Slawek, P.

2007-01-01

In the same way that the symptoms between different diseases in psychiatry overlap, functional brain research frequently shows the same pattern of changes across diagnostic borders; on the other hand, many the other tests, e.g. psychological tests, present the same problem as mentioned above; therefore: The psychiatrist seldom applies to an NM specialist to obtain a diagnosis; instead, a nuclear medicine report will rather confirm, or less frequently exclude, the psychiatrist's diagnosis. Ideally, psychiatric patients should be rescanned after the treatment, and changes in perfusion and/or metabolism discussed between psychiatrist and NM specialist. As shown above, there are few practical applications of nuclear medicine due to low specificity and low spatial resolution, although in the aspect of functional imaging it is still superior to CT/MRI, even in their functional modalities. On the other hand, its investigational potential is still growing, as there is no imaging technique in sight which could replace metabolic and receptor studies, and also because the scope of functional imaging in psychiatric diseases is spreading from its traditional applications, like dementia or depression, towards many poorly investigated fields e.g. hypnosis, suicidal behaviour or sleep disorders. (author)

Imaging in nuclear medicine

CERN Document Server

Hoeschen, Christoph

2013-01-01

This volume addresses a wide range of issues in the field of nuclear medicine imaging, with an emphasis on the latest research findings. Initial chapters set the scene by considering the role of imaging in nuclear medicine from the medical perspective and discussing the implications of novel agents and applications for imaging. The physics at the basis of the most modern imaging systems is described, and the reader is introduced to the latest advances in image reconstruction and noise correction. Various novel concepts are then discussed, including those developed within the framework of the EURATOM FP7 MADEIRA research project on the optimization of imaging procedures in order to permit a reduction in the radiation dose to healthy tissues. Advances in quality control and quality assurance are covered, and the book concludes by listing rules of thumb for imaging that will be of use to both beginners and experienced researchers.

Radionuclides for nuclear medicine: a nuclear physicists' view

DEFF Research Database (Denmark)

Cantone, M.; Haddad, F.; Harissopoulos, S.

2013-01-01

NuPECC (the Nuclear Physics European Collaboration Committee, an expert committee of the European Science Foundation) has the mission to strengthen European Collaboration in nuclear science through the promotion of nuclear physics and its trans-disciplinary use and application. NuPECC is currently...... working on a report on “Nuclear Physics for Medicine” and has set up a working group to review the present status and prospects of radionuclides for nuclear medicine. An interim report will be presented to seek comments and constructive input from EANM members. In particular it is investigated how nuclear...... physics Methods and nuclear physics facilities are supporting the development and supply of medical radionuclides and how this support could be further strengthened in future. Aspects that will be addressed: •In recent years, the reactor-based supply chain of 99Mo/99mTc generators was repeatedly...

Radiation safety in nuclear medicine procedures

International Nuclear Information System (INIS)

Cho, Sang Geon; Kim, Ja Hae; Song, Ho Chun

2017-01-01

Since the nuclear disaster at the Fukushima Daiichi Nuclear Power Plant in 2011, radiation safety has become an important issue in nuclear medicine. Many structured guidelines or recommendations of various academic societies or international campaigns demonstrate important issues of radiation safety in nuclear medicine procedures. There are ongoing efforts to fulfill the basic principles of radiation protection in daily nuclear medicine practice. This article reviews important principles of radiation protection in nuclear medicine procedures. Useful references, important issues, future perspectives of the optimization of nuclear medicine procedures, and diagnostic reference level are also discussed

Radiation safety in nuclear medicine procedures

Energy Technology Data Exchange (ETDEWEB)

Cho, Sang Geon; Kim, Ja Hae; Song, Ho Chun [Dept. of Nuclear Medicine, Medical Radiation Safety Research Center, Chonnam National University Hospital, Gwangju (Korea, Republic of)

2017-03-15

Since the nuclear disaster at the Fukushima Daiichi Nuclear Power Plant in 2011, radiation safety has become an important issue in nuclear medicine. Many structured guidelines or recommendations of various academic societies or international campaigns demonstrate important issues of radiation safety in nuclear medicine procedures. There are ongoing efforts to fulfill the basic principles of radiation protection in daily nuclear medicine practice. This article reviews important principles of radiation protection in nuclear medicine procedures. Useful references, important issues, future perspectives of the optimization of nuclear medicine procedures, and diagnostic reference level are also discussed.

Current Status of The Korean Society of Nuclear Medicine

International Nuclear Information System (INIS)

Koh, Chang Soon

1977-01-01

As the application of nuclear medicine to clinics became generalized and it held an important position, the Korean Society of Nuclear Medicine was founded in 1961, and today it has become known as one of the oldest nuclear medicine societies not only to Asian nations but also to other advanced countries all over the world. Now it has 100 or so regular members composed of students of each medicine filed unlike other medical societies. Only nuclear medicine research workers are eligible for its membership. The Korean Society of Nuclear Medicine holds its regular general meeting and symposium twice per annom respectively in addition to occasional group gatherings and provincial lectures on nuclear medicine. With an eye to exchanging information on symposium, research and know-how, KSNM issued its initial magazine in 1967. Every year two editions are published. Year after year the contents of treatises are getting elevated with researches on each field including the early study on morphology-greatly improved both in quality and quantity. Of late, a minute and fixed quantity of various matters by dynamical research and radioimmunoassay of every kind has become visibly active. In particular, since KSNM, unlike other local societies, keeps close and frequent contact with the nuclear medicine researchers of world-wide fame, monographs by eminent scholars of the world are carried in its magazine now internationally and well received in foreign countries. Now the magazine has been improved to such an extent that foreign authors quote its contents. KSNM invited many a foreign scholar with a view to exchanging the knowledge of nuclear medicine. Sponsored by nuclear energy institute, the nuclear medicine symposium held in Seoul in October of 1966 was a success with Dr. Wagner participating, a great scholar of world wide fame: It was the first international symposium ever held in Korea, and the Korea Japan symposium held in Seoul 1971 was attended by all distinguished nuclear

Neutron use in nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Guidez, J.; May, R.; Moss, R. [HFR-Unit, European Commission, IAM, Petten (Netherlands); Askienazy, S. [Departement Central de Medicine Nucleaire et Biophysique, Saint Antoine Hospital, Paris (France); Hildebrand, J. [Neurology Department, Erasmus Hospital, Brussels (Belgium)

1999-07-01

Neutrons produced by research reactors are being used in nuclear medicine and other medical applications in several ways. The High Flux Reactor (HFR) based in Petten (The Netherlands), owned by the European Commission, has been working increasingly in this field of health care for the European citizen. On the basis of this experience, a survey has been carried out on the main possibilities of neutrons used in nuclear medicine. The most important and most well known is the production of radioisotopes for diagnosis and therapy. Ten million patients receive nuclear medicine in Europe each year, with more than 8 million made with the products issued from research reactors. The survey of the market and the techniques (cyclotron, PET) shows that this market will continue to increase in the future. The direct use of reactors in medicine is actually made by the Boron Neutron capture Therapy (BNCT) for the treatment of glioblastoma, which kills about 15.000 people in Europe each year. For this promising technique, HFR is the most advanced for experimental possibilities and treatment studies. Medical research is also made in other promising fields: the use beam tubes for characterizing of prostheses and bio-medical materials, alpha-immuno therapy products, new types of radioisotopes, new types of illness to be treated by BNCT, etc. (author)

Neutron use in nuclear medicine

International Nuclear Information System (INIS)

Guidez, J.; May, R.; Moss, R.; Askienazy, S.; Hildebrand, J.

1999-01-01

Neutrons produced by research reactors are being used in nuclear medicine and other medical applications in several ways. The High Flux Reactor (HFR) based in Petten (The Netherlands), owned by the European Commission, has been working increasingly in this field of health care for the European citizen. On the basis of this experience, a survey has been carried out on the main possibilities of neutrons used in nuclear medicine. The most important and most well known is the production of radioisotopes for diagnosis and therapy. Ten million patients receive nuclear medicine in Europe each year, with more than 8 million made with the products issued from research reactors. The survey of the market and the techniques (cyclotron, PET) shows that this market will continue to increase in the future. The direct use of reactors in medicine is actually made by the Boron Neutron capture Therapy (BNCT) for the treatment of glioblastoma, which kills about 15.000 people in Europe each year. For this promising technique, HFR is the most advanced for experimental possibilities and treatment studies. Medical research is also made in other promising fields: the use beam tubes for characterizing of prostheses and bio-medical materials, alpha-immuno therapy products, new types of radioisotopes, new types of illness to be treated by BNCT, etc. (author)

Quality control in nuclear medicine

International Nuclear Information System (INIS)

Leme, P.R.

1983-01-01

The following topics are discussed: objectives of the quality control in nuclear medicine; the necessity of the quality control in nuclear medicine; guidelines and recommendations. An appendix is given concerning the guidelines for the quality control and instrumentation in nuclear medicine. (M.A.) [pt

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... that are congenital (present at birth) or that develop during childhood. Physicians use nuclear medicine imaging to evaluate organ ... Nuclear medicine scans are typically used to ...

Impact of the application of criteria of internal monitoring in radiological protection programmes in nuclear medicine services

International Nuclear Information System (INIS)

Dantas, B.M.; Dantas, A.L.A.; Juliao, L.Q.C.; Lourenco, M.C.; Melo, D.R.

2005-01-01

The manipulation of open sources in Nuclear Medicine services involves risks of external exposure and internal contamination. The radiological protection plan of facilities licensed by CNEN - Brazilian Nuclear Energy Commission - must include the evaluation of such risks and propose a programme of individual monitoring to control exposure and ensure the maintenance of conditions of radiation safety. The IAEA - International Atomic Energy Agency - recommendations presented in the Safety Guide RS-G-1.2 suggest that an internal worker monitoring program be implemented where there is a possibility of internal contamination lead to effective dose committed annual values equal to or greater than 1 mSv. This paper presents the application of such criteria to the radionuclides most frequently used in the field of Nuclear Medicine, taking into account the normal conditions of handling and the ranges of activity authorized by CNEN. It is concluded that iodine 131 manipulation for therapeutic purposes is the practice that presented the greatest risk of internal exposure of workers, requiring the adoption of a programme of internal monitoring of Nuclear Medicine services

Veterinary nuclear medicine

International Nuclear Information System (INIS)

Krzeminski, M.; Lass, P.; Teodorczyk, J.; Krajka, J.

2004-01-01

The veterinary use of radionuclide techniques dates back to the mid-sixties, but its more extensive use dates back to the past two decades. Veterinary nuclear medicine is focused mainly on four major issues: bone scintigraphy - with the majority of applications in horses, veterinary endocrinology - dealing mainly with the problems of hyperthyreosis in cats and hyperthyreosis in dogs, portosystemic shunts in small animals and veterinary oncology, however, most radionuclide techniques applied to humans can be applied to most animals. (author)

Nuclear medicine technology study guide

CERN Document Server

Patel, Dee

2011-01-01

Nuclear Medicine Technology Study Guide presents a comprehensive review of nuclear medicine principles and concepts necessary for technologists to pass board examinations. The practice questions and content follow the guidelines of the Nuclear Medicine Technology Certification Board (NMTCB) and American Registry of Radiological Technologists (ARRT), allowing test takers to maximize their success in passing the examinations. The book is organized by sections of increasing difficulty, with over 600 multiple-choice questions covering all areas of nuclear medicine, including radiation safety; radi

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Children's (Pediatric) Nuclear Medicine? What are some common uses of the procedure? How does the nuclear medicine procedure work? What does the equipment look like? How is ...

Clinical applications of SPECT/CT: New hybrid nuclear medicine imaging system

International Nuclear Information System (INIS)

2008-08-01

Interest in multimodality imaging shows no sign of subsiding. New tracers are spreading out the spectrum of clinical applications and innovative technological solutions are preparing the way for yet more modality marriages: hybrid imaging. Single photon emission computed tomography (SPECT) has enabled the evaluation of disease processes based on functional and metabolic information of organs and cells. Integration of X ray computed tomography (CT) into SPECT has recently emerged as a brilliant diagnostic tool in medical imaging, where anatomical details may delineate functional and metabolic information. SPECT/CT has proven to be valuable in oncology. For example, in the case of a patient with metastatic thyroid cancer, neither SPECT nor CT alone could identify the site of malignancy. SPECT/CT, a hybrid image, precisely identified where the surgeon should operate. However SPECT/CT is not just advantageous in oncology. It may also be used as a one-stop-shop for various diseases. Clinical applications with SPECT/CT have started and expanded in developed countries. It has been reported that moving from SPECT alone to SPECT/CT could change diagnoses in 30% of cases. Large numbers of people could therefore benefit from this shift all over the world. This report presents an overview of clinical applications of SPECT/CT and a relevant source of information for nuclear medicine physicians, radiologists and clinical practitioners. This information may also be useful for decision making when allocating resources dedicated to the health care system, a critical issue that is especially important for the development of nuclear medicine in developing countries. In this regard, the IAEA may be heavily involved in the promotion of programmes aimed at the IAEA's coordinated research projects and Technical Cooperation projects

White paper of nuclear medicine

International Nuclear Information System (INIS)

2012-10-01

This document aims at proposing a synthetic presentation of nuclear medicine in France (definition, strengths and weaknesses, key figures about practices and the profession, stakes for years to come), a description of the corresponding education (speciality definition, abilities and responsibilities, diploma content, proposition by the European Society of Radiology and by the CNIPI, demography of the profession), and an overview of characteristics of nuclear medicine (radio-pharmacy, medical physics, paramedical personnel in nuclear medicine, hybrid imagery, therapy, relationships with industries of nuclear medicine, relationships with health authorities)

Asian School of Nuclear Medicine

International Nuclear Information System (INIS)

Sundram, F.X.

2007-01-01

A number of organisations are involved in the field of nuclear medicine education. These include International Atomic Energy Agency (IAEA), World Federation of Nuclear Medicine and Biology (WFNMB), Asia-Oceania Federation of Nuclear Medicine and Biology (AOFNMB), Society of Nuclear Medicine (SNM in USA), European Association of Nuclear Medicine (EANM). Some Universities also have M.Sc courses in Nuclear Medicine. In the Asian Region, an Asian Regional Cooperative Council for Nuclear Medicine (ARCCNM) was formed in 2000, initiated by China, Japan and Korea, with the main aim of fostering the spread of Nuclear Medicine in Asia. The Asian School of Nuclear Medicine (ASNM) was formed in February 2003, with the ARCCNM as the parent body. The Aims of ASNM are: to foster Education in Nuclear Medicine among the Asian countries, particularly the less developed regions; to promote training of Nuclear Medicine Physicians in cooperation with government agencies, IAEA and universities and societies; to assist in national and regional training courses, award continuing medical education (CME) points and provide regional experts for advanced educational programmes; and to work towards awarding of diplomas or degrees in association with recognised universities by distance learning and practical attachments, with examinations. There are 10 to 12 teaching faculty members from each country comprising of physicists, radio pharmacists as well as nuclear medicine physicians. From this list of potential teaching experts, the Vice-Deans and Dean of ASNM would then decide on the 2 appropriate teaching faculty member for a given assignment or a course in a specific country. The educational scheme could be in conjunction with the ARCCNM or with the local participating countries and their nuclear medicine organisations, or it could be a one-off training course in a given country. This teaching faculty is purely voluntary with no major expenses paid by the ASNM; a token contribution could be

Introduction to hardware for nuclear medicine data systems

International Nuclear Information System (INIS)

Erickson, J.J.

1976-01-01

Hardware included in a computer-based data system for nuclear medicine imaging studies is discussed. The report is written for the newcomer to computer collection and analysis. Emphasis is placed on the effect of the various portions of the system on the final application in the nuclear medicine clinic. While an attempt is made to familiarize the user with some of the terms he will encounter, no attempt is made to make him a computer expert. 1 figure, 2 tables

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... are small, diagnostic nuclear medicine procedures result in low radiation exposure, acceptable for diagnostic exams. Thus, the radiation risk is very low compared with the potential benefits. Nuclear medicine diagnostic ...

Nuclear medicine resources manual

International Nuclear Information System (INIS)

2006-02-01

Over the past decade many IAEA programmes have significantly enhanced the capabilities of numerous Member States in the field of nuclear medicine. Functional imaging using nuclear medicine procedures has become an indispensable tool for the diagnosis, treatment planning and management of patients. However, due to the heterogeneous growth and development of nuclear medicine in the IAEA's Member States, the operating standards of practice vary considerably from country to country and region to region. This publication is the result of the work of over 30 international professionals who have assisted the IAEA in the process of standardization and harmonization. This manual sets out the prerequisites for the establishment of a nuclear medicine service, including basic infrastructure, suitable premises, reliable supply of electricity, maintenance of a steady temperature, dust exclusion for gamma cameras and radiopharmacy dispensaries. It offers clear guidance on human resources and training needs for medical doctors, technologists, radiopharmaceutical scientists, physicists and specialist nurses in the practice of nuclear medicine. The manual describes the requirements for safe preparation and quality control of radiopharmaceuticals. In addition, it contains essential requirements for maintenance of facilities and instruments, for radiation hygiene and for optimization of nuclear medicine operational performance with the use of working clinical protocols. The result is a comprehensive guide at an international level that contains practical suggestions based on the experience of professionals around the globe. This publication will be of interest to nuclear medicine physicians, radiologists, medical educationalists, diagnostic centre managers, medical physicists, medical technologists, radiopharmacists, specialist nurses, clinical scientists and those engaged in quality assurance and control systems in public health in both developed and developing countries

Hybrid MWPC gamma ray detecting system for applications in nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Bateman, J E; Connolly, J F [Science Research Council, Chilton (UK). Rutherford Lab.

1978-10-15

Results are presented from prototype MWPC gas-solid hybrid imaging detectors designed for applications in nuclear medicine. Using a multi-section chamber with foil converter cathodes and a delay line readout technique, the authors have made a sup(99m)Tc imaging detector with a spatial resolution of 5 mm fwhm and a projected quantum efficiency of 15% for a full scale device. With lead foil cathodes the detector design yields similar spatial resolution and quantum efficiency when positron annihilation gammas are detected. Images of positron emitters (/sup 22/Na and /sup 68/Ga) are presented.

Computers in nuclear medicine - current trends and future directions

International Nuclear Information System (INIS)

Anon.

1994-01-01

Previously, a decision to purchase computing equipment for nuclear medicine usually required evaluation of the 'local' needs. With the advent of Pacs and state of the art computer techniques for image acquisition and manipulation, purchase and subsequent application is to become much more complex. Some of the current trends and future possibilities which may influence the choice and operation of computers within and outside the nuclear medicine environment is discussed. (author)

Fundamentals of nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Alazraki, N.P.; Mishkin, F.S.

1988-01-01

The book begins with basic science and statistics relevant to nuclear medicine, and specific organ systems are addressed in separate chapters. A section of the text also covers imaging of groups of disease processes (eg, trauma, cancer). The authors present a comparison between nuclear medicine techniques and other diagnostic imaging studies. A table is given which comments on sensitivities and specificities of common nuclear medicine studies. The sensitivities and specificities are categorized as very high, high, moderate, and so forth.

Fundamentals of nuclear medicine

International Nuclear Information System (INIS)

Alazraki, N.P.; Mishkin, F.S.

1988-01-01

The book begins with basic science and statistics relevant to nuclear medicine, and specific organ systems are addressed in separate chapters. A section of the text also covers imaging of groups of disease processes (eg, trauma, cancer). The authors present a comparison between nuclear medicine techniques and other diagnostic imaging studies. A table is given which comments on sensitivities and specificities of common nuclear medicine studies. The sensitivities and specificities are categorized as very high, high, moderate, and so forth

Recent applications of nuclear medicine techniques and results in Vietnam

International Nuclear Information System (INIS)

Phan Sy An

2008-01-01

The author presented recent applications of nuclear medicine techniques and results in Vietnam. The author concentrated some valuable and helpful studies such as functional tests, myocardial perfusion scintigraphy, bone, thyroid, lung, kidney and gastrointestinal tract scintigraphy for diagnosis. The results of RIA and IRMA concerning with thyroid diseases, cancer, microalbuminuria and TSH in blood spot on paper for screening of congenital hypothyroidism in new born babies were also given. The report also mentioned results of liver cancer and palliative bone metastasis treatments in Vietnam. A new technique using gamma probe in surgery for breast cancer was presented. The author introduced some modern teleradiotherapeutic modalities such as cyberknif, gamma knife, gamma rotating systeme and linac recently installed in Vietnam. (author)

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Because nuclear medicine procedures are able to pinpoint molecular activity within the body, they offer the potential ... or imaging device that produces pictures and provides molecular information. In many centers, nuclear medicine images can ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... child is taking as well as vitamins and herbal supplements and if he or she has any ... What are the limitations of Children's (Pediatric) Nuclear Medicine? Nuclear medicine procedures can be time consuming. It ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... MRI. top of page What are some common uses of the procedure? Children's (pediatric) nuclear medicine imaging ... at birth) or that develop during childhood. Physicians use nuclear medicine imaging to evaluate organ systems, including ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Tell your doctor about your child’s recent illnesses, medical conditions, medications and allergies. Depending on the type ... Nuclear Medicine? Nuclear medicine is a branch of medical imaging that uses small amounts of radioactive material ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Nuclear Medicine Children’s (pediatric) nuclear medicine imaging uses small amounts of radioactive materials called radiotracers, a special ... is a branch of medical imaging that uses small amounts of radioactive material to diagnose and determine ...

Nuclear Medicine Annual, 1989

International Nuclear Information System (INIS)

Freeman, L.M.; Weissmann, H.S.

1989-01-01

Among the highlights of Nuclear Medicine Annual, 1989 are a status report on the thyroid scan in clinical practice, a review of functional and structural brain imaging in dementia, an update on radionuclide renal imaging in children, and an article outlining a quality assurance program for SPECT instrumentation. Also included are discussions on current concepts in osseous sports and stress injury scintigraphy and on correlative magnetic resonance and radionuclide imaging of bone. Other contributors assess the role of nuclear medicine in clinical decision making and examine medicolegal and regulatory aspects of nuclear medicine

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Nuclear Medicine? Nuclear medicine is a branch of medical imaging that uses small amounts of radioactive material to ... a radiologist or other physician. To locate a medical imaging or radiation oncology provider in your community, you ...

Radiation protection in nuclear medicine

International Nuclear Information System (INIS)

Corstens, F.

1989-01-01

Aspects of radiation protection in nuclear medicine and the role of the Dutch Society for Nuclear Medicine in these are discussed. With an effective dose-equivalence of averaged 3 mSv per year per nuclear medical examination and about 200.000 examinations per year in the Netherlands, nuclear medicine contributes only to a small degree to the total averaged radiation dose by medical treating. Nevertheless from the beginning, besides to protection of environment and personnel, much attention has been spent by nuclear physicians to dose reduction with patients. Replacing of relatively long living radionuclides like 131 I by short living radionuclides like 99m Tc is an example. In her education and acknowledgement policy the Dutch Society for Nuclear Medicine spends much attention to aspects of radiation reduction. (author). 3 tabs

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... What are some common uses of the procedure? Children's (pediatric) nuclear medicine imaging is performed to help diagnose childhood disorders that are congenital (present at birth) or that develop during childhood. Physicians use nuclear medicine imaging to ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... referring physician. top of page What are the benefits vs. risks? Benefits The information provided by nuclear medicine examinations is ... risk is very low compared with the potential benefits. Nuclear medicine diagnostic procedures have been used for ...

Magnetic resonance vs. computerized tomography, ultrasonic examinations and nuclear medicine

International Nuclear Information System (INIS)

Bruna, J.

1985-01-01

A symposium on magnetic resonance in nuclear medicine was held from 23rd to 27th January, 1985 in Munich and Garmisch-Partenkirchen. Discussed were suitable methods, the use of contrast media, the evaluation of results, the application of nuclear magnetic resonance in examining various body organs, and the latest apparatus. NMR achievements in medicine were compared to those by other diagnostic methods. (M.D.)

Applications of CdTe to nuclear medicine. Annual report, February 1, 1979-January 31, 1980

International Nuclear Information System (INIS)

Entine, G.

1980-01-01

The application of CdTe gamma detectors in nuclear medicine is reported on. An internal probe was developed which can be inserted into the heart to measure the efficiency of various radiopharmaceuticals in the treatment of heart attacks. A second application is an array of detectors which is light enough to be worn by ambulatory patients and can measure the change in cardiac output over an eight hour period during heart attack treatment. The instrument includes an on board tape recorder

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... resume his/her normal activities after the nuclear medicine scan. If the child has been sedated, you will receive specific instructions ... usually mild. Nevertheless, you should inform the nuclear medicine personnel of any allergies your child may have or other problems that may have ...

Special monitoring in nuclear medicine

International Nuclear Information System (INIS)

Beltran, C.C.; Puerta, J.A.; Morales, J.

2006-01-01

Colombia counts with around 56 centers of Nuclear Medicine, 70 Nuclear Doctors and more of 100 Technologists in this area. The radioisotopes more used are the 131 I and the 99m Tc. The radiological surveillance singular in the country is carried out for external dosimetry, being the surveillance by incorporation of radioactive materials very sporadic in our media. Given the necessity to implement monitoring programs in the incorporation of radionuclides of the occupationally exposed personnel, in the routine practice them routine of Nuclear Medicine, it was implemented a pilot program of Special Monitoring with two centers of importance in the city of Medellin. This program it was carried out with the purpose of educating, to stimulate and to establish a program of reference monitoring with base in the National Program of Monitoring in the radionuclides Incorporation that serves like base for its application at level of all the services of Nuclear Medicine in the country. This monitoring type was carried out with the purpose of obtaining information on the work routine in these centers, form of manipulation and dosage of the radionuclides, as well as the administration to the patient. The application of the program was carried out to define the frequency of Monitoring and analysis technique for the implementation of a program of routine monitoring, following the recommendations of the International Commission of Radiological Protection. For their application methods of activity evaluation were used in urine and in 7 workers thyroid, of those which only two deserve an analysis because they presented important activities. The measures were carried out during one month, every day by means in urine samples and to the most critic case is practiced two thyroid measures, one in the middle of the period and another when concluding the monitoring. To the other guy is practiced an activity count in thyroid when concluding the monitoring period. The obtained result of the

Extracts from IAEA's Resources Manual in Nuclear Medicine. Part-3: Establishing Nuclear Medicine Services

International Nuclear Information System (INIS)

2003-01-01

In the past, consideration was given to the categories of nuclear medicine ranging from simple imaging or in-vitro laboratories, to more complex departments performing a full range of in-vitro and in-vivo procedures that are also involved in advanced clinical services, training programmes, research and development. In developing countries, nuclear medicine historically has often been an offshoot of pathology, radiology or radiotherapy services. These origins are currently changing as less radioimmunoassay is performed and fully-fledged, independent departments of nuclear medicine are being set up. The trend appears to be that all assays (radioassay or ELISA) are done in a biochemistry laboratory whereas nuclear medicine departments are involved largely in diagnostic procedures, radionuclide therapy and non-imaging in-vitro tests. The level of nuclear medicine services is categorized according to three levels of need: Level 1: Only one gamma camera is needed for imaging purposes. The radiopharmaceutical supply, physics and radiation protection services are contracted outside the centre. Other requirements include a receptionist and general secretarial assistance. A single imaging room connected to a shared reporting room should be sufficient, with a staff of one nuclear medicine physician and one technologist, with back-up. This level is appropriate for a small private practice. Level 2: This is suitable for a general hospital where there are multiple imaging rooms where in-vitro and other non-imaging studies would generally be performed as well as radionuclide therapy. Level 3: his is appropriate for an academic institution where there is a need for a comprehensive clinical nuclear medicine service, human resource development and research programmes. Radionuclide therapy for in-patients and outpatients is provided

Radionuclides for nuclear medicine: a nuclear physicists' view

Czech Academy of Sciences Publication Activity Database

Cantone, M.; Haddad, F.; Harissopoulos, S.; Jensen, M.; Jokinen, A.; Koster, U.; Lebeda, Ondřej; Ponsard, B.; Ratzinger, U.; Stora, T.; Tarkanyi, F.; Van Duppen, P.

2013-01-01

Roč. 40, 2 Supplement (2013), S257-S257 ISSN 1619-7070. [Annual Congress of the European Association of Nuclear Medicine (EANM). 19.10.2013-23.10.2013, Lyon] Institutional support: RVO:61389005 Keywords : nuclear physics for medicine * EANM * medical radionuclides Subject RIV: BG - Nuclear, Atomic and Molecular Physics, Colliders

Radiation protection on nuclear medicine services

International Nuclear Information System (INIS)

Anon

2000-01-01

Nuclear medicine is a sector of the medicine that studies and applies radionuclide in diagnosis and therapy. Nuclear medicine is a very specific area of the medicine, making use of non-sealed radioactive sources which are prescribed to the patient orally or are injected. Special procedures in radiation protection are required in nuclear medicine to manipulate these kind of sources and to produce technetium-99m through molybdenum generator. The present paper addresses the them radiation protection in a Nuclear Medicine Department (NMD), showing the main requirements of the CNEN- National Commission of Nuclear Energy and the Public Health. Radiation protection procedures adopted in assembling a NMD, as well the daily techniques for monitoring and for individual dosimetry are discussed. Past and present analyses in a level of radiation protection are presented. (author)

Developments in nuclear medicine

International Nuclear Information System (INIS)

Elias, H.

1977-01-01

The article reports on the first international meeting about radiopharmaceutical chemistry in the Brookhaven National Laboratory, Long Island/USA, from 21st to 24th September, 1976. The meeting report is preceded by the explanation of the terms 'radiopharmaceutical chemistry' and 'nuclear medicine' and a brief survey of the history. The interdisciplinary connection of the spheres of nuclear physics, nuclear chemistry, biochemistry, nuclear medicine, and data processing is also briefly shown. This is necessary before radiodiagnosis can be made for a patient. (RB) [de

Nuclear medicine in developing nations

International Nuclear Information System (INIS)

Nofal, M.M.

1985-01-01

Agency activities in nuclear medicine are directed towards effectively applying techniques to the diagnosis and management of patients attending nuclear medicine units in about 60 developing countries. A corollary purpose is to use these techniques in investigations related to control of parasitic diseases distinctive to some of these countries. Through such efforts, the aim is to improve health standards through better diagnosis, and to achieve a better understanding of disease processes as well as their prevention and management. Among general trends observed for the region: Clinical nuclear medicine; Radiopharmaceuticals; Monoclonal antibodies; Radioimmunoassay (RIA); Nuclear imaging

Radiation protection in nuclear medicine

International Nuclear Information System (INIS)

Chougule, Arun

2014-01-01

The branch of medical science that utilizes the nuclear properties of the radioactivity and stable nuclides to make diagnostic evaluation of anatomical and/or physiological conditions of the body and provide therapy with unsealed radioactive sources is called Nuclear Medicine (NM). The use of unsealed radionuclides in medicine is increasing throughout the world for diagnosis and treatment. As per UNSCEAR report more than 6 million nuclear medicine procedures are conducted in a year. However we know that radiation is double edged sword and if not used carefully will be harmful to patient as well as staff and therefore a nuclear medicine procedure should be undertaken only after proper justification and optimization. Nuclear medicine procedures are different than the X-ray diagnostic procedures as in NM, radioisotope is administered to patient and patient becomes radioactive. The NM staff is involved in unpacking radioactive material, activity measurements, storage of sources, internal transports of sources, preparation of radiopharmaceuticals, administration of radiopharmaceutical, examination of the patient, care of the radioactive patient, handling of radioactive waste and therefore receives radiation dose. This talk will discuss the various steps for radiation safety of patient, staff and public during Nuclear Medicine procedures so as to implementing the ALARA concept. (author)

Nuclear physics and optoelectronics presence in industry, medicine and environment

International Nuclear Information System (INIS)

Robu, Maria; Peteu, Gh.

2000-01-01

This paper reveals applications of Nuclear Physics and Optoelectronics in numerous fields of interest in industry, medicine, environment. In the first part of the work basic elements are analyzed, among which: - the large possibilities offered by the investigation, analysis and testing techniques based on nuclear physics and optoelectronics; - the superior qualitative and quantitative characteristics of these techniques, with varied applicability in fields from industry, medicine and environment. These applications refers to: - elemental analyses of content and impurities; - non-destructive testing with X and gamma radiations; - investigations with radioactive and activable tracers in trophic chains as for instance, ground-vegetation-products-consumers-environment, including also the systemic pollution factors; - complex investigations in the interface tritium-vegetation-environment-humans; - techniques and radiopharmaceutical products for medical investigations; - determinations and automatic control for levels, density, thickness, humidity, surfaces covering; - monitoring by means of remote sensing for the evaluation of the environment, vegetation and pollution factors; - applications and production of laser and UV installations; - connections through optical fibres resistant to radiations; - imaging and medical bioengineering; - advances in X ray, laser and ultrasonic radiology; - monitoring with radiations beams. In the final part, there are presented examples of optoelectronics and nuclear physics applications in fields in industry, medicine and environment, with special stress on their basic characteristics and efficiency. (authors)

Quantitative Analysis in Nuclear Medicine Imaging

CERN Document Server

2006-01-01

This book provides a review of image analysis techniques as they are applied in the field of diagnostic and therapeutic nuclear medicine. Driven in part by the remarkable increase in computing power and its ready and inexpensive availability, this is a relatively new yet rapidly expanding field. Likewise, although the use of radionuclides for diagnosis and therapy has origins dating back almost to the discovery of natural radioactivity itself, radionuclide therapy and, in particular, targeted radionuclide therapy has only recently emerged as a promising approach for therapy of cancer and, to a lesser extent, other diseases. As effort has, therefore, been made to place the reviews provided in this book in a broader context. The effort to do this is reflected by the inclusion of introductory chapters that address basic principles of nuclear medicine imaging, followed by overview of issues that are closely related to quantitative nuclear imaging and its potential role in diagnostic and therapeutic applications. ...

Nuclear medicine

International Nuclear Information System (INIS)

Reichelt, H.G.

1980-01-01

Nuclear medicine as a complex diagnostical method is used mainly to detect functional organic disorders, to locate disorders and for radioimmunologic assays (RIA) in vitro. In surgery, its indication range comprises the thyroid (in vivo and in vitro), liver and bile ducts, skeletal and joint diseases, disorders of the cerebro-spinal liquor system and the urologic disorders. In the early detection of tumors, the search for metastases and tumor after-care, scintiscanning and the tumor marcher method (CEA) can be of great practical advantage, but the value of myocardial sciritiscanning in cardiac respectively coronary disorders is restricted. The paper is also concerned with the radiation doses in nuclear medicine. (orig.) [de

Mongolia and nuclear medicine development

International Nuclear Information System (INIS)

Onkhuudai, P.; Gonchigsuren, D.

2007-01-01

Full text: Mongolia is a large, landlocked and sparsely populated country in the northern part of Central Asia, located between Russia on the north and China on east, south and west. Its total land area of 1.5 millions square kilometers is about the size if India or large than Alaska, but contains only 2.3 million population or 1.3 person per square kilometer. It is 2400 kilometers long from east to west maximum of 1260 kilometers from north to south.The priority problems in health.Democratic political reforms since 1990 saw a major transformation process, which is aimed at changing the centrally planned economy to one based on market orient principles. Mongolia is in a gradual epidemiological transition from preponderance of infectious diseases towards non-communicable and degenerative diseases. Mean features of this transition are sharp decrease in mortality from infectious and parasitic diseases and sharp increase in mortality from diseases of the circulatory system and neoplasms. Life expectancy at birth was 65.7 year in 1997. Cardiovascular diseases and cancer are among the leading causes of death in Mongolia.Nuclear Medicine in Mongolia-1975-1981 Beginning First Medical Application of radioisotopes in 1972. First Rectilinear scanner. Single and dual scintillation detectors system, Thyroid Uptake Test; 1982-1999 Settlement, IAEA TC Project since 1982, Thematic Program on Health Care (RAS) since 1997, First Gamma Camera since 1997, Radioimmunological Laboratory and first Radioiodine treatment since 1982, Mongolian Society of Nuclear Medicine since 1982, Member of World and Federation of Nuclear Medicine and Biology since 1994, Member of Asia and Oceania Radionuclide Therapy Council , 2000 Development, First SPECT and Quantitative Measurement in 2000 Second Gamma Camera, New Thyroid Uptake System-Atomlab 950 PC Spectrometer Radioimmunological Laboratory replacement, Myocardial Perfusion Scintigraphy, Liver Cancer Treatment with Re-188, Radiosynovectomy with Re

Internal Contamination by 131I in nuclear medicine department

International Nuclear Information System (INIS)

Chahed, N.; Mtimet, S.; Hammami, H.; Mhiri, A.

1998-01-01

Therapeutic applications in nuclear medicine use high activities of 131 I in sodium iodine liquid from which is volatile at ambient temperature. Besides external exposure there is, for the nuclear medicine personnel, an internal exposure risk induced by 131 iodine inhalation. So we tried to assess this risk among the personnel in a nuclear medicine department. We used direct method for measuring 131 radioactivity in vivo by external counting. Gamma ray detector with a Nal ( TI ) probe positioned near the thyroid gland allows investigation of 131 radioactivity. We realised 34 measurements among the personnel, two times at an interval of one month. The results indicate that an 131 iodine internal contamination is found. Estimated thyroid activities were ranging from 35 to 132 Bq. The highest activities has been found in the thyroid of the technicians involved in the administration of 131 iodine therapy. Therefore this values are lower than norms. This study must lead to the implementation control of the 131 iodine internal contamination in order to optimise the personnel protection in nuclear medicine departments (author)

Material science as basis for nuclear medicine: Holmium irradiation for radioisotopes production

Science.gov (United States)

Usman, Ahmed Rufai; Khandaker, Mayeen Uddin; Haba, Hiromitsu; Otuka, Naohiko

2018-05-01

Material Science, being an interdisciplinary field, plays important roles in nuclear science. These applications are seen in weaponry, armoured vehicles, accelerator structure and development, semiconductor detectors, nuclear medicine and many more. Present study presents the applications of some metals in nuclear medicine (radioisotope production). The charged-particle-induced nuclear reactions by using cyclotrons or accelerators have become a very vital feature of the modern nuclear medicine. Realising the importance of excitation functions for the efficient production of medical radionuclides, some very high purity holmium metals are generally prepared or purchased for bombardment in nuclear accelerators. In the present work, various methods to obtain pure holmium for radioisotope production have been discussed while also presenting details of our present studies. From the experimental work of the present studies, some very high purity holmium foils have been used in the work for a comprehensive study of residual radionuclides production cross-sections. The study was performed using a stacked-foil activation technique combined with γ-ray spectrometry. The stack was bombarded with 50.4 MeV alpha particle beam from AVF cyclotron of RI Beam Factory, Nishina Centre for Accelerator-Based Science, RIKEN, Japan. The work produced thulium radionuclides useful in nuclear medicine.

Radioactive waste management of the nuclear medicine services

International Nuclear Information System (INIS)

Barboza, Alex

2009-01-01

Radioisotope applications in nuclear medicine services, for diagnosis and therapy, generate radioactive wastes. The general characteristics and the amount of wastes that are generated in each facility are function of the number of patients treated, the procedures adopted, and the radioisotopes used. The management of these wastes embraces every technical and administrative activity necessary to handle the wastes, from the moment of their generation, till their final disposal, must be planned before the nuclear medicine facility is commissioned, and aims at assuring people safety and environmental protection. The regulatory framework was established in 1985, when the National Commission on Nuclear Energy issued the regulation CNEN-NE-6.05 'Radioactive waste management in radioactive facilities'. Although the objective of that regulation was to set up the rules for the operation of a radioactive waste management system, many requirements were broadly or vaguely defined making it difficult to ascertain compliance in specific facilities. The objective of the present dissertation is to describe the radioactive waste management system in a nuclear medicine facility and provide guidance on how to comply with regulatory requirements. (author)

Diagnostic nuclear medicine. 2. rev. ed.

International Nuclear Information System (INIS)

Schiepers, C.

2006-01-01

The field of nuclear medicine is undergoing rapid expansion, and is evolving into diagnostic molecular imaging. During recent years, dual-modality imaging with PET/CT has gained acceptance and this is currently the fastest-growing technique for oncological imaging applications. The glucose analogue FDG has held its place in diagnostic oncology, assessment of myocardial viability and diagnosis of neuro-degenerative disorders. Peptides have become even more important as imaging agents. The accuracy of hepatobiliary scintigraphy has been enhanced by cholecystokinin. The use of ACE inhibitors in the evaluation of renovascular hypertension has become the standard in renography. New instrumentation has led to faster scanners, and computer development to better image processing software. Automatic processing is more common, and standardization of protocols can be accomplished easily. The field of gene imaging has progressed, although routine clinical applications are not yet available. The present text, supplemented with many detailed and informative illustrations, represents an adjunct to the standard knowledge of diagnostic nuclear medicine and provides both the student and the professional with an overview of developments during the past decade. (orig.)

Radiation exposure of nuclear medicine procedures in Germany

International Nuclear Information System (INIS)

Hacker, M.

2005-01-01

Nuclear Medicine procedures offer the possibility to detect abnormalities on the basis of physiological and metabolic changes and to treat a growing number of diseases in human beings. However, the use of radiopharmaceuticals for nuclear medicine examinations causes a significant component of the total radiation exposure of populations. In Germany it is an essential task of the Federal Office for Radiation Protection to determinate and assess radiation exposure of the population due to nuclear medicine diagnostics and therapy. An important input for this task is the frequency of nuclear-medical examinations with application of ionising radiation and the radiation exposure of patients related to the various procedures. Additional implementation of age- and gender-specific data today allows more exact risk stratification in focusing on different subgroups of patients. Moreover, the collective effective dose as well as the per caput effective dose of the German population may be estimated and compared with earlier collected data or foreign countries. These data reveal where the indication should be questioned particularly critically and if the dose for the various examinations can be reduced and, thus, contribute to the definition of diagnostic reference levels for nuclear medicine procedures in Germany with the aim of both a sufficient image quality and a minimum of radiation exposure. Exceeding the high- as well as the low-values requires documentation and explanation. (orig.)

The development of nuclear medicine in Slovenia and Ljubljana; half a century of nuclear medicine in Slovenia

International Nuclear Information System (INIS)

Slavec, Zvonka Zupanic; Gaberscek, Simona; Slavec, Ksenija

2012-01-01

Nuclear medicine began to be developed in the USA after 1938 when radionuclides were introduced into medicine and in Europe after radionuclides began to be produced at the Harwell reactor (England, 1947). Slovenia began its first investigations in the 1950s. This article describes the development of nuclear medicine in Slovenia and Ljubljana. The first nuclear medicine interventions were performed in Slovenia at the Internal Clinic in Ljubljana in the period 1954–1959. In 1954, Dr Jože Satler started using radioactive iodine for thyroid investigations. In the same year, Dr Bojan Varl, who is considered the pioneer of nuclear medicine in Slovenia, began systematically introducing nuclear medicine. The first radioisotope laboratories were established in January 1960 at the Institute of Oncology and at the Internal Clinic. Under the direction of Dr. Varl, the laboratory at the Internal Clinic developed gradually and in 1973 became the Clinic for Nuclear Medicine with departments for in vivo and in vitro diagnostics and for the treatment of inpatients and outpatients at the thyroid department. The Clinic for Nuclear Medicine became a teaching unit of the Medical Faculty and developed its own post-graduate programme – the first student enrolled in 1972. In the 1960s, radioisotope laboratories opened in the general hospitals of Slovenj Gradec and Celje, and in the 1970s also in Maribor, Izola and Šempeter pri Novi Gorici. Nowadays, nuclear medicine units are modernly equipped and the staff is trained in morphological, functional and laboratory diagnostics in clinical medicine. They also work on the treatment of cancer, increased thyroid function and other diseases

Assessment of OEP health's risk in nuclear medicine

International Nuclear Information System (INIS)

Santacruz-Gomez, K.; Manzano, C.; Melendrez, R.; Castaneda, B.; Barboza-Flores, M.; Pedroza-Montero, M.

2012-01-01

The use of ionizing radiation has been increased in recent years within medical applications. Nuclear Medicine Department offers both treatment and diagnosis of diseases using radioisotopes to controlled doses. Despite the great benefits to the patient, there is an inherent risk to workers which remains in contact with radiation sources for long periods. These personnel must be monitored to avoid deterministic effects. In this work, we retrospectively evaluated occupationally exposed personnel (OEP) to ionizing radiation in nuclear medicine during the last five years. We assessed both area and personal dosimetry of this department in a known Clinic in Sonora. Our results show an annual equivalent dose average of 4.49 ± 0.70 mSv in OEP without showing alarming changes in clinical parameters analyzed. These results allow us to conclude that health of OEP in nuclear medicine of this clinic has not been at risk during the evaluated period. However, we may suggest the use of individual profiles based on specific radiosensitivity markers.

Evolution of nuclear medicine: a historical perspective

International Nuclear Information System (INIS)

Ahmed, A.; Kamal, S.

1996-01-01

The field Nuclear Medicine has Completed its 100 yeas in 1996. Nuclear medicine began with physics, expanded into chemistry and instrumentation, and then greatly influenced various fields of medicine. The chronology of the events that formulated the present status of nuclear medicine involves some of the great pioneers of yesterday like Becquerel, Curie, Joliot, Hevesy, Anger, Berson and Yallow. The field of nuclear medicine has been regarded as the bridge builder between various aspects of health care and within next 20 years, nuclear medicine enters a new age of certainty, in which surgery, radiation and chemotherapy will only be used when a benefit in certain to result from the treatment. (author)

Nuclear medicine in cardiology

Energy Technology Data Exchange (ETDEWEB)

Torizuka, K.; Ishii, Y.; Yonekura, Y.; Yamamoto, K.; Tamaki, N. (Kyoto Univ. (Japan). Faculty of Medicine)

1981-02-01

Nuclear medicine in cardiology was reviewed. Electrocardiogram is obtained from the ..gamma..-ray measurement of a tracer by a single detector, which enables a bedsidemonitoring. Resolution and sensitivity are high and nuclear stethoscope with a computer is applicable for a background treatment. Myocardium is imaged by /sup 201/Tl scintigraphy. Relative difference of the perfusion indicates the ischemia which gaives roughly the size and portion of myocardial infarction. For transient ischemia stress myocardial perfusion imaging (SMPI) is also used. sup(99m)Tc pyrophosphate provides a clear image for myocardial infarction. Angiocardiogram is obtained repeatedly, by a single administration, using an equilibrium method. An attempt of three-dimensional display by 7 pin hole collimator and positron CT are also discussed.

Radioiodination and Bio evaluation of Some Cardiovascular Drugs for Nuclear Medicine Application

International Nuclear Information System (INIS)

El-Sharawy, D.M.M.

2013-01-01

Nuclear medicine specialists use safe, painless, and cost-effective techniques to image the body and treat disease. Nuclear medicine imaging is unique, because it provides doctors with information about both structure and function. It is a way to gather medical information that would otherwise be unavailable, require surgery, or necessitate more expensive diagnostic tests. Today, nuclear medicine offers procedures that are essential in many medical specialties, from pediatrics to cardiology to psychiatry. Radiopharmacy is the science that deals largely with the preparation, compounding, Quality Control (QC), and dispensing of radiopharmaceuticals and radioisotopes for human use. Radio pharmacists are the personnel who perform these functions at large hospitals or medical centers. They are involved in manufacturing cold kits and in developing new agents and procedures. In this thesis it was studied the labeling of Deltiazem , Nefidipine and Valsartan with iodine -125 via an electrophilic substitution reaction. The biological distribution of these tracers were studied and was found the possibility of their use in cardiovascular disorders.

Programmatic activities of IAEA in nuclear medicine

International Nuclear Information System (INIS)

Padhy, A.K.

2004-01-01

Nuclear medicine is high-tech medicine. Nevertheless, it is essential for addressing important health problems of people living in developing countries also. Not only is it sometimes expensive to start with, it also involves a lot of technical know-how, requiring transfer of technology from developed to the developing countries. The rapid development of nuclear medicine, of sophisticated instrumentation and radiopharmaceuticals has resulted in an enormous increase in costs and in the need for maintaining quality. These constitute a challenge and a venture when promoting nuclear medicine globally and particularly in developing countries. No other international organization except IAEA has any specific mandate for application of nuclear energy in the area of human health. WHO has no specific programin nuclear medicine, hence the importance of IAEA's involvement. The IAEA has, ever since its inception, given high priority to enhancing the awareness and capabilities of developing member states to employ nuclear technology for health care and medical research. Much of the Agency promoted research in nuclear medicine is delivered through the so called co-ordinated research projects (CRPs). The CRPs are normally organised as multi-center, prospective studies so that large volume of scientific data could be generated in a short period of 18-24 months. The research is normally done within an operational frame work, established and co-ordinated by the IAEA. The reason for this is that the results can be compared despite site or country specific differences. The methods and materials used for such studies usually conform to a predetermined standard. The protocols for various investigations, criteria for patient selection, mode of arriving at a final diagnosis and analysis of data from these multi-center studies are normally agreed upon by the Chief Scientific Investigators from each participating institution and the IAEA prior to the start of the actual work programme. The

Application of medical psychology in the reception of nuclear medicine department

International Nuclear Information System (INIS)

Zhan Hao; Xiong Jie; Huang Daijuan; Yuan Bin; Xu Wendai; Zhang Yongxue

2003-01-01

Reception of nuclear medicine department is often ignored. In fact, it is an important part of clinical work. If the patient's psychological status is understood, and the psychological knowledge is handles and applied in practice, the quality of work can be improved. The personnel in nuclear medicine should recognize the significance of humanity in medical practice and acquire the communication skill between doctors and patients. They should also understand the four aspects of psychological need of patients: The need of being understood and respected; the need of being greeted, accepted and a sense of belonging; the need of being informed; the need of feeling safe and rehabilitated

Introductory physics of nuclear medicine. Third edition

International Nuclear Information System (INIS)

Chandra, R.

1987-01-01

The new third edition includes essential details and many examples and problems taken from the routine practice of nuclear medicine. Basic principles and underlying concepts are explained, although it is assumed that the reader has some current use as a bone densitometer. For resident physicians in nuclear medicine, residents in pathology, radiology, and internal medicine, and students of nuclear medicine technology, the third edition offers a simplified and reliable approach to the physics and basic sciences of nuclear medicine

Technetium in chemistry and nuclear medicine

International Nuclear Information System (INIS)

Deutsch, E.; Nicolini, M.; Wagner, H.N.

1983-01-01

This volume explores the potential of technetium radiopharmaceuticals in clinical nuclear medicine. The authors examine the capabilities of synthetic inorganic chemists to synthesize technetium radiopharmaceuticals and the specific requirements of the nuclear medicine practitioner. Sections cover the chemistry of technetium, the production of radiopharmaceuticals labeled with technetium, and the use of technetium radiopharmaceuticals in nuclear medicine

IAEA activities in nuclear medicine and related medical applications of nuclear techniques

International Nuclear Information System (INIS)

Dudley, R.A.

1986-01-01

One of the objectives of the International Atomic Energy Agency, as specified in its Statute, is to ''enlarge the contribution of atomic energy to peace, health and prosperity throughout the world.'' Its programmes in human health include both the exploitation and measurement of radiation fields (radiotherapy and dosimetry) and the use of radionuclides in an investigative or tracer role (the primary subject of this Symposium). The Agency carries out its programmes by means of several mechanisms. The technical co-operation programme, responding to requests for support from governments of Member States, is the dominant mechanism. Through it, experts may be made available to introduce new skills to a laboratory; essential equipment may be provided; and training may be organized in various forms. A second mechanism is the research contract programme, providing financial support to individual laboratories for particular research projects. A third mechanism is information exchange: scientific meetings, publications and the nuclear abstracts service of the International Nuclear Information System (INIS). In the field covered by this Symposium, the technical content of the projects supported by the Agency using these mechanisms may be classed in several categories. One domain that penetrates all others is instrumentation: selection, quality control and maintenance to prevent or correct breakdowns. Another category of activity, requiring the least sophisticated technology, is radioimmunoassay and related procedures. A third category involves the use of radionuclides in vivo, notably the classic applications of nuclear medicine in diagnosing the health status of individual patients, but including also investigation of the nature and aetiology of disease. A fourth category of project includes the study of the biological role of trace elements, especially by neutron activation analysis

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... you about nuclear medicine. Nuclear medicine offers the potential to identify disease in its earliest stage, often ... may be asked to wear a gown as well. Tell your doctor if there is any possibility ...

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... Nuclear Medicine Transcript Welcome to Radiology Info dot org Hello! I’m Dr. Ramji Rajendran, a radiation ... more about nuclear medicine, visit Radiology Info dot org. Thank you for your time! Spotlight Recently posted: ...

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... stage, often before symptoms occur or before abnormalities can be detected with other diagnostic tests. Nuclear medicine ... nuclear medicine exam, there are several things you can do to prepare. First, you may be asked ...

Medical imaging. From nuclear medicine to neuro-sciences

International Nuclear Information System (INIS)

2003-03-01

Nuclear medicine and functional imaging were born of the CEA's ambition to promote and develop nuclear applications in the fields of biology and health. Nuclear medicine is based on the use of radioactive isotopes for diagnostic and therapeutic purposes. It could never have developed so rapidly without the progress made in atomic and nuclear physics. One major breakthrough was the discovery of artificial radioelements by Irene and Frederic Joliot in 1934, when a short-lived radioactive isotope was created for the first time ever. Whether natural or synthetic, isotopes possess the same chemical properties as their non-radioactive counterparts. The only difference is that they are unstable and this instability causes disintegration, leading to radiation emission. All we need are suitable detection tools to keep track of them. 'The discovery of artificial radioelements is at the root of the most advanced medical imaging techniques'. The notion of tracer dates back to 1913. Invented by George de Hevesy, it lies at the root of nuclear medicine. By discovering how to produce radioactive isotopes, Irene and Frederic Joliot provided biology researchers with nuclear tools of unrivalled efficiency. Today, nuclear medicine and functional imaging are the only techniques capable of giving us extremely precise information about living organisms in a non-traumatic manner and without upsetting their balance. Positron emission tomography (PET) and nuclear magnetic resonance imaging (MRI) are the main imaging techniques used at the CEA in its neuro-imaging research activities. These techniques are now developing rapidly and becoming increasingly important not only in the neuroscience world, but also for innovative therapies and cancer treatment. (authors)

Single-purpose nuclear medicine instruments

International Nuclear Information System (INIS)

Boucek, J.

Nuclear medicine requires the most up-to-date specialized technical facilities. The paper underlines the factor of reliability in purpose-designed equipment used for basic examinations. The possibility is also discussed of the automation of standard nuclear medicine instruments

Specific features of occupational medicine in nuclear research and industry

International Nuclear Information System (INIS)

Giraud, J.M.; Quesne, B.

2003-01-01

Measures to prevent the exposure of personnel to ionising radiation were taken as soon as the first nuclear laboratories were set up. This branch of occupational preventive medicine has since kept pace with advances in research and in the industrial applications of nuclear energy. (authors)

Nuclear medicine - the condition and prospects

International Nuclear Information System (INIS)

Zaredinov, D.A.; Altaeva, B.M.

2004-01-01

Full text: The nuclear medicine has rather strongly determined the place in clinical and diagnostic practice. Statistical researches show, that, even despite of the certain successes in treatment of many diseases, rather high death rate at cardiovascular, oncological and many other diseases. The urgency of clinical tasks connected with a state of health of the population puts before nuclear medicine a (task) on development and introduction of new methods of diagnostics and therapy. The nuclear medicine is characterized by some number of diagnostic and therapeutic methods which application frequently does not have other alternative. The methods of visualization used in nuclear medicine, are full informative, exact and have ability to reveal structurally functional changes of bodies and fabrics practically at a cellular level. To present time diagnostic radiopharmacy (Ph) wed practically in all clinical areas of medicine. In world practice steady growth of increase of manufacture as diagnostic and radiotherapeutic RP was planned. The even greater (reduction) of potential risk one and of conditions by which development of nuclear medicine in the near future is defined is at realization of the procedures connected to application of radioactive preparations and reduction of beam loadings on the patient. An important point in the clinic-diagnostic field is replacement the RP on short-lived and ultra short-lived. Among examples of such transition it is necessary to name replacement 131 I in diagnostic application on 123 I, and also active introduction PET. It is possible to call essentially new direction of development of technologies of the directed transport the open radioactive isotopes and RP to pathology changed bodies or organisms demanding realization of diagnostic procedures or selective beam therapy. However, despite of huge potential opportunities of the domestic nuclear industry, even such old method as the radiotherapy I-131 - is used by iodine in our country

Quality policy at nuclear medicine services

International Nuclear Information System (INIS)

Gil Martinez, Eduardo Manuel; Jimenez, Tomas

2007-01-01

In the present text we comment about a Quality Policy model to establish in a Nuclear Medicine Service. The need for a strict control in every process that take place in a Nuclear Medicine Service, requires of an exact planification in terms of Quality Policy, specific to the real needs of every Service. Quality Policy must be a live Policy, with capability of changes and must be known for every workers in a Nuclear Medicine Service. Although the 'model' showed in this text is concret for a specific Service type, it must be extrapolated to any Nuclear Medicine Service with the necessary changes (au)

Assessment of knowledge of general practitioners about nuclear medicine

International Nuclear Information System (INIS)

Zakavi, R.; Derakhshan, A.; Pourzadeh, Z.

2002-01-01

Nuclear medicine is an important department in most of scientific hospitals in the world. Rapid improvement in the filed of nuclear medicine needs continuing education of medical students. We tried to evaluate the knowledge of general practitioners in the flied of nuclear medicine, hoping that this study help mangers in accurate planning of teaching programs. Methods and materials: We prepared a questionnaire with 14 questions regarding applications of nuclear medicine techniques in different specialities of medicine. We selected questions as simple as possible with considering the most common techniques and best imaging modality in some disease. One question in nuclear cardiology, one in lung disease, two questions in thyroid therapy, another two in gastrointestinal system, two in genitourinary system and the last two in nuclear oncology. Also 4 questions were about general aspects of nuclear medicine. We have another 4 questions regarding the necessity of having a nuclear medicine subject during medical study, the best method of teaching of nuclear medicine and the preferred method of continuing education. Also age, sex, graduation date and university of education of all subjects were recorded. Results: One hundred (General practitioners) were studied. including, 58 male and 42 female with age range of 27-45 years did . About 60% of cases were 27-30 years old and 40 cases were older than 40. Seventy two cases were graduated in the last 5 years. Mashad University was the main university of education 52 cases with Tehran University (16 cases) and Tabriz University (6 cases) in the next ranks. Also 26 cases were graduated from other universities. From four questions in the field of general nuclear nedione 27% were correctly answered to all questions, 37% correctly answered two questions and 10% had correct answered only one question. No correct answer was noted in 26% . correct answer was noted in 80% the held of nuclear cardiology and in 72% in the field of lung

The research progress of nuclear medicine on cardiovascular molecular imaging

International Nuclear Information System (INIS)

Yin Xiaohua; Zhang Yongxue

2007-01-01

Cardiovascular molecular imaging is a rapidly evolving discipline and its clinical application is promising. Nuclear medicine is playing a leading role in this field with its special superiority of noninvasive, quantifiability, high sensitivity and specificity. It provides broad opportunities for exploring the pathophysiologic process of cardiovascular diseases and monitoring its gene therapy in the molecular level. In this review, we mainly discuss some basic knowledge on cardiovascular molecular imaging, and then focus on the applied research prospect of nuclear medicine radionuclide imaging. (authors)

Experience with Nuclear Medicine Information System

Directory of Open Access Journals (Sweden)

Bilge Volkan-Salanci

2012-12-01

Full Text Available Objective: Radiology information system (RIS is basically evolved for the need of radiologists and ignores the vital steps needed for a proper work flow of Nuclear Medicine Department. Moreover, CT/MRI oriented classical PACS systems are far from satisfying Nuclear Physicians like storing dynamic data for reprocessing and quantitative analysis of colored images. Our purpose was to develop a workflow based Nuclear Medicine Information System (NMIS that fulfills the needs of Nuclear Medicine Department and its integration to hospital PACS system. Material and Methods: Workflow in NMIS uses HL7 (health level seven and steps include, patient scheduling and retrieving information from HIS (hospital information system, radiopharmacy, acquisition, digital reporting and approval of the reports using Nuclear Medicine specific diagnostic codes. Images and dynamic data from cameras of are sent to and retrieved from PACS system (Corttex© for reprocessing and quantitative analysis. Results: NMIS has additional functions to the RIS such as radiopharmaceutical management program which includes stock recording of both radioactive and non-radioactive substances, calculation of the radiopharmaceutical dose for individual patient according to body weight and maximum permissible activity, and calculation of radioactivity left per unit volume for each radionuclide according their half lives. Patient scheduling and gamma camera patient work list settings were arranged according to specific Nuclear Medicine procedures. Nuclear Medicine images and reports can be retrieved and viewed from HIS. Conclusion: NMIS provides functionality to standard RIS and PACS system according to the needs of Nuclear Medicine. (MIRT 2012;21:97-102

Accuracy and Precision of Radioactivity Quantification in Nuclear Medicine Images

Science.gov (United States)

Frey, Eric C.; Humm, John L.; Ljungberg, Michael

2012-01-01

The ability to reliably quantify activity in nuclear medicine has a number of increasingly important applications. Dosimetry for targeted therapy treatment planning or for approval of new imaging agents requires accurate estimation of the activity in organs, tumors, or voxels at several imaging time points. Another important application is the use of quantitative metrics derived from images, such as the standard uptake value commonly used in positron emission tomography (PET), to diagnose and follow treatment of tumors. These measures require quantification of organ or tumor activities in nuclear medicine images. However, there are a number of physical, patient, and technical factors that limit the quantitative reliability of nuclear medicine images. There have been a large number of improvements in instrumentation, including the development of hybrid single-photon emission computed tomography/computed tomography and PET/computed tomography systems, and reconstruction methods, including the use of statistical iterative reconstruction methods, which have substantially improved the ability to obtain reliable quantitative information from planar, single-photon emission computed tomography, and PET images. PMID:22475429

[Costing nuclear medicine diagnostic procedures].

Science.gov (United States)

Markou, Pavlos

2005-01-01

To the Editor: Referring to a recent special report about the cost analysis of twenty-nine nuclear medicine procedures, I would like to clarify some basic aspects for determining costs of nuclear medicine procedure with various costing methodologies. Activity Based Costing (ABC) method, is a new approach in imaging services costing that can provide the most accurate cost data, but is difficult to perform in nuclear medicine diagnostic procedures. That is because ABC requires determining and analyzing all direct and indirect costs of each procedure, according all its activities. Traditional costing methods, like those for estimating incomes and expenses per procedure or fixed and variable costs per procedure, which are widely used in break-even point analysis and the method of ratio-of-costs-to-charges per procedure may be easily performed in nuclear medicine departments, to evaluate the variability and differences between costs and reimbursement - charges.

Nuclear medicine in China

International Nuclear Information System (INIS)

Wang, Shihchen; Liu, Xiujie

1986-01-01

Since China first applied isotopes to medical research in 1956, over 800 hospitals and research institutions with 4000 staff have taken up nuclear technology. So far, over 120 important biologically active materials have been measured by radioimmunoassay in China, and 44 types of RIA kit have been supplied commercially. More than 50,000 cases of hyperthyroidism have been treated satisfactorily with 131 I. Radionuclide imaging of practically all organs and systems of the human body has been performed, and adrenal imaging and nuclear cardiology have become routine clinical practice in several large hospitals. The thyroid iodine uptake test, renogram tracing and cardiac function studies with a cardiac probe are also commonly used in most Chinese hospitals. The active principles of more than 60 medicinal herbs have been labelled with isotopes in order to study the drug metabolism and mechanism of action. Through the use of labelled neurotransmitters or deoxyglucose, RIA, radioreceptor assay and autoradiography, Chinese researchers have made remarkable achievements in the study of the scientific basis of acupuncture analgesia. In 1980 the Chinese Society of Nuclear Medicine was founded, and since 1981 the Chinese Journal of Nuclear Medicine has been published. Although nuclear medicine in China has already made some progress, when compared with advanced countries, much progress is still to be made. It is hoped that international scientific exchange will be strengthened in the future. (author)

Risks in production and utilisation of labelled compounds for nuclear medicine. 2. Benefits and risks of utilization of 99mTc generator in nuclear medicine

International Nuclear Information System (INIS)

Olteanu-Chiper, D.; Barna, C.; Gard, E.; Negoita, N.

1999-01-01

The growth of radioisotope applications in nuclear medicine, imposed the reduction of the radiation effects and so, the reduction of associated risk of these applications. The utilization of radioactive isotopes for investigations in nuclear medicine is conditioned by the chemical behaviour and the means of detection of the emitted radiation on one hand, and by the radiation doses received by the patient, on the other hand. In these conditions, the nuclear medicine uses only the radioisotopes which are short half-time and low radiation energy, but high enough to be detected from the exterior of human body, 99m Tc being the most favourable for utilization in diagnostic purpose. This advantage is increased by the multiple possibilities to obtain different chemical forms with 99m Tc included, which permit the production of a large variety of radiopharmaceutical products, having a specific localization in the human body (organ-targets), thus allowing the diagnosis of numerous diseases. In the work the benefits and risks of the 99m Tc-Generator utilization in the nuclear medicine are shown and the utilization technique in these applications is presented . The 99m Tc-Generator is a compact chromatographic system, with lead shielding, which permits the elution of a sterile, pyrogen-free, injectable sodium pertechnetate solution, from an aluminium chromatographic column which keeps the 99 Mo. The 99m Tc-Generator system ensures the operator protection. The radioactive solution with 99m Tc is obtained in a closed vial, within lead shielding, the irradiation or contamination risks being mostly reduced. The utilization of 99m Tc in scintigraphic exam for diagnostic medicine implies a labelling operation with 99m Tc chemically bounded in forms appropriate to the target-organ and than the intravenously injection in doses dependent on the specific scintigraphic investigation or examination. (authors)

Essentials of nuclear medicine imaging

CERN Document Server

Mettler, Fred A. Jr

2012-01-01

Essentials of Nuclear Medicine Imaging, by Drs. Fred A Mettler and Milton J Guiberteau, provides the practical and comprehensive guidance you need to master key nuclear imaging techniques. From physics, instrumentation, quality control, and legal requirements to hot topics such as sodium fluoride, radiopharmaceuticals, and recommended pediatric administered doses and guidelines, this sixth edition covers the fundamentals and recent developments in the practice of nuclear medicine.

Nuclear Medicine in Surgical Oncology

International Nuclear Information System (INIS)

Ndirangu, D.T.

2009-01-01

Defines nuclear medicine as a branch that utilizes nuclear technology for diagnosis and treatment of diseases.The principles of nuclear medicine are; it uses the principle that a certain radiopharmaceutical (tracer) will at a certain point in time have a preferential uptake by a particular body or tissue. it is imaged by use the use of detectors mounted in gamma cameras or PET (Position emission tomography) devices

Regulatory problems in nuclear medicine

International Nuclear Information System (INIS)

Vandergrift, J.F.

1987-01-01

Governmental involvement in the practice of medicine has increased sharply within the past few years. The impact on health care has, for the most part, been in terms of financial interactions between health care facilities and federally funded health services programs. One might say that this type of governmental involvement has indirect impact on the medical and/or technical decisions in the practice of nuclear medicine. In other areas, however, governmental policies and regulations have had a more direct and fundamental impact on nuclear medicine than on any other medical specialty. Without an understanding and acceptance of this situation, the practice of nuclear medicine can be very frustrating. This chapter is thus written in the hope that potential frustration can be reduced or eliminated

Development of molecular nuclear medicine

International Nuclear Information System (INIS)

Tang Ganghua

2002-01-01

The basic theory of molecular nuclear medicine is briefly introduced. The hot areas of molecular nuclear medicine including metabolic imaging and blood flow imaging, radioimmunoimaging and radioimmunotherapy, radioreceptor imaging and receptor-radioligand therapy, and imaging gene expression and gene radiation therapy are emphatically described

Veterinary nuclear medicine again - commentary and remarks on: Krzeminski M., et al. Veterinary nuclear medicine - a review. NMR 2004;7: 177 - 182

International Nuclear Information System (INIS)

Balogh, L.; Mathe, D.; Andocs, G.; Polyak, A.; Kiraly, R.; Janoki, G.A.; Szilagyi, J.; Thuroczy, J.; Chaudhari, P.

2005-01-01

Veterinary nuclear medicine is somehow similar to its roots, Human Nuclear Medicine, but certainly there are a few basic differences. Patients sent by veterinary clinicians could be members of exotic species (birds, reptiles, rodents) and even the most often treated dog, cat, and horse patients vary in a pretty wide scale in weight, size and anatomical, physiological features. As there are no veterinary radiopharmaceuticals in the market, vets use human registered products, therefore applied radioactive doses are often calculated on an empirical manner. As opposed to humans, animal subjects almost always need to be sedated or anaesthetised for scintigraphical protocols. We vets, frequently perform bone and thyroid scintigraphy in the everyday clinical routine and oncological applications are more and more common in the veterinary field as well. But in contrast with human practice, our animal patients suffer very rarely from cardiovascular diseases, so heart and brain perfusion studies are less frequently performed at veterinary clinics. (author)Veterinary nuclear medicine is somehow similar to its roots,

Monte Carlo techniques in diagnostic and therapeutic nuclear medicine

International Nuclear Information System (INIS)

Zaidi, H.

2002-01-01

Monte Carlo techniques have become one of the most popular tools in different areas of medical radiation physics following the development and subsequent implementation of powerful computing systems for clinical use. In particular, they have been extensively applied to simulate processes involving random behaviour and to quantify physical parameters that are difficult or even impossible to calculate analytically or to determine by experimental measurements. The use of the Monte Carlo method to simulate radiation transport turned out to be the most accurate means of predicting absorbed dose distributions and other quantities of interest in the radiation treatment of cancer patients using either external or radionuclide radiotherapy. The same trend has occurred for the estimation of the absorbed dose in diagnostic procedures using radionuclides. There is broad consensus in accepting that the earliest Monte Carlo calculations in medical radiation physics were made in the area of nuclear medicine, where the technique was used for dosimetry modelling and computations. Formalism and data based on Monte Carlo calculations, developed by the Medical Internal Radiation Dose (MIRD) committee of the Society of Nuclear Medicine, were published in a series of supplements to the Journal of Nuclear Medicine, the first one being released in 1968. Some of these pamphlets made extensive use of Monte Carlo calculations to derive specific absorbed fractions for electron and photon sources uniformly distributed in organs of mathematical phantoms. Interest in Monte Carlo-based dose calculations with β-emitters has been revived with the application of radiolabelled monoclonal antibodies to radioimmunotherapy. As a consequence of this generalized use, many questions are being raised primarily about the need and potential of Monte Carlo techniques, but also about how accurate it really is, what would it take to apply it clinically and make it available widely to the medical physics

Radiation hazards in the nuclear medicine

International Nuclear Information System (INIS)

Roo, M.J.K. de

1981-01-01

After a survey of the actual situation of nuclear medicine in Belgium, the evolution of nuclear medicine is studied with regard to quantitative aspects (tracerquantities, number of radioisotopic explorations, number of certified doctors) and qualitative aspects (use of short living isotopes emitting low energy radiation, introduction of in vitro tests). Taking these data into consideration, the exposure of nuclear medicine staff by external or internal radiation is evaluated. From this study it appears that the radiation exposure of the personnel of nuclear medicine departments remains low if proper manipulation methods and simple protective devices are used and if there is an efficient collaboration with an active health physics department or radiation control organism. (author)

Nuclear data for medical applications: an overview

International Nuclear Information System (INIS)

Qaim, S.M.

2001-01-01

A brief introduction to nuclear data in medicine is given. The choice of a radioisotope for medical application demands an accurate knowledge of radioactive decay data. Short-lived single photon and β + -emitters are preferred for diagnostic investigations, and longer-lived corpuscular radiation emitting radioisotopes for endoradiotherapy. The nuclear reaction cross section data, on the other hand, are needed for optimising the production routes. Besides radioactive isotopes, the use of ionising radiation in therapy is discussed. External radiation therapy has achieved an important place in medicine. The role of nuclear data is briefly discussed; they are needed for radiation dose calculations. The hitherto rather neglected activation products in proton therapy are considered. The methodology of development of a nuclear data file for medical applications is outlined. (orig.)

Essentials of nuclear medicine physics and instrumentation

CERN Document Server

Powsner, Rachel A; Powsner, Edward R

2013-01-01

An excellent introduction to the basic concepts of nuclear medicine physics This Third Edition of Essentials of Nuclear Medicine Physics and Instrumentation expands the finely developed illustrated review and introductory guide to nuclear medicine physics and instrumentation. Along with simple, progressive, highly illustrated topics, the authors present nuclear medicine-related physics and engineering concepts clearly and concisely. Included in the text are introductory chapters on relevant atomic structure, methods of radionuclide production, and the interaction of radiation with matter. Fu

Nuclear analytical techniques in medicine

International Nuclear Information System (INIS)

Cesareo, R.

1988-01-01

This book acquaints one with the fundamental principles and the instrumentation relevant to analytical technique based on atomic and nuclear physics, as well as present and future biomedical applications. Besides providing a theoretical description of the physical phenomena, a large part of the book is devoted to applications in the medical and biological field, particularly in hematology, forensic medicine and environmental science. This volume reviews methods such as the possibility of carrying out rapid multi-element analysis of trace elements on biomedical samples, in vitro and in vivo, by XRF-analysis; the ability of the PIXE-microprobe to analyze in detail and to map trace elements in fragments of biomedical samples or inside the cells; the potentiality of in vivo nuclear activation analysis for diagnostic purposes. Finally, techniques are described such as radiation scattering (elastic and inelastic scattering) and attenuation measurements which will undoubtedly see great development in the immediate future

Nuclear analytical techniques in medicine

Energy Technology Data Exchange (ETDEWEB)

Cesareo, R.

1988-01-01

This book acquaints one with the fundamental principles and the instrumentation relevant to analytical technique based on atomic and nuclear physics, as well as present and future biomedical applications. Besides providing a theoretical description of the physical phenomena, a large part of the book is devoted to applications in the medical and biological field, particularly in hematology, forensic medicine and environmental science. This volume reviews methods such as the possibility of carrying out rapid multi-element analysis of trace elements on biomedical samples, in vitro and in vivo, by XRF-analysis; the ability of the PIXE-microprobe to analyze in detail and to map trace elements in fragments of biomedical samples or inside the cells; the potentiality of in vivo nuclear activation analysis for diagnostic purposes. Finally, techniques are described such as radiation scattering (elastic and inelastic scattering) and attenuation measurements which will undoubtedly see great development in the immediate future.

Role of international organizations in promoting nuclear medicine in the developing countries

Energy Technology Data Exchange (ETDEWEB)

Nofal, M

1993-12-31

Today, because of the diversity of its applications - radiation and radionuclides for medical and biological purposes are used in more countries and in more laboratories than any other application of atomic energy. International organizations, mainly the IAEA and the WHO, have played a significant role in the spread of this nuclear technology in developing countries. There are altogether 112 member states of the Agency, about 71 of them can be classified as developing countries. Out of them, nearly 56 have some kind of nuclear medicine. By that I mean there is some medical use of radioisotopes, be it imaging, radioimmunoassay or the old thyroid uptake. In most of these countries, the personnel working in nuclear medicine has been trained abroad. Training can be as short as few weeks abroad in the form of attendance at one of the four or six week training courses offered by an international organization. Occasionally it is through a fellowship offered by the same organizations. In terms of technology and training, Nuclear Medicine, in its present form, can thus be considered a high technology imported medicine in many of these countries

Role of international organizations in promoting nuclear medicine in the developing countries

International Nuclear Information System (INIS)

Nofal, M.

1992-01-01

Today, because of the diversity of its applications - radiation and radionuclides for medical and biological purposes are used in more countries and in more laboratories than any other application of atomic energy. International organizations, mainly the IAEA and the WHO, have played a significant role in the spread of this nuclear technology in developing countries. There are altogether 112 member states of the Agency, about 71 of them can be classified as developing countries. Out of them, nearly 56 have some kind of nuclear medicine. By that I mean there is some medical use of radioisotopes, be it imaging, radioimmunoassay or the old thyroid uptake. In most of these countries, the personnel working in nuclear medicine has been trained abroad. Training can be as short as few weeks abroad in the form of attendance at one of the four or six week training courses offered by an international organization. Occasionally it is through a fellowship offered by the same organizations. In terms of technology and training, Nuclear Medicine, in its present form, can thus be considered a high technology imported medicine in many of these countries

Handbook of nuclear medicine practice in developing countries

International Nuclear Information System (INIS)

1992-01-01

This ''Handbook of Nuclear Medicine Practices in the Developing Countries'' is meant primarily for those, who intend to install and practice nuclear medicine in a developing country. By and large, the conventional Textbooks of nuclear medicine do note cater to the special problems and needs of these countries. The Handbook is not trying to replace these textbooks, but supplement them with special information and guidance, necessary for making nuclear medicine cost-effective and useful in a hospital of a developing country. It is written mostly by those, who have made success in their careers in nuclear medicine, in one of these countries. One way to describe this Handbook will be that it represents the ways, in which, nuclear medicine is practised in the developing countries, described by those, who have a long and authentic experience of practising nuclear medicine in a developing country

Proceedings of 2nd Korea-China Congress of Nuclear Medicine and the Korean Society Nuclear Medicine Spring Meeting 2000

International Nuclear Information System (INIS)

2000-01-01

This proceedings contains articles of 2nd Korea-China Congress of Nuclear Medicine and 2000 spring meeting of the Korean Society Nuclear Medicine. It was held on May 17-19, 2000 in Seoul, Korean. This proceedings is comprised of 6 sessions. The subject titles of session are as follows: general nuclear medicine, neurology, oncology, radiopharmacy and biology, nuclear cardiology, nuclear cardiology: physics and instrumentation and so on. (Yi, J. H.)

Infection diagnosis in nuclear medicine

International Nuclear Information System (INIS)

Martin-Comin, J.

1997-01-01

Full text. The clinical applicability of agents like 67 Ga and 111 In-labelled leukocytes began the era of infection imaging diagnosis in Nuclear Medicine, more than two decades ago. In this period other agents have appeared in the field. 99 m Tc-HMPAQ-leukocytes and 99 m Tc-anti granulocyte monoclonal antibodies (able to label white blood cells) and 111 In and 99 mTc-polyclonal immuno globulins (in cold kit presentation). These agents had widespread the use of Nuclear Medicine procedures in clinical practice. Nevertheless, there is not, up to now, an specific agent to diagnose infection and is some cases a second or third agent (i.e.: 99 mTc-colloid) is used to obtain an accurate diagnosis. Actually, research is orientated to the development of agents with low antigenic power (peptides or fragments of monoclonal antibodies), or other non immunogenic agents involved in the inflammation process (selectin, antibiotic). Some experiences have also been done with PET agents. The clinical usefulness of commercially available agents and the future possibilities of the new ones will be presented

Special monitoring in nuclear medicine; Monitoreo especial en medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Beltran, C.C.; Puerta, J.A.; Morales, J. [Asociacion Colombiana de Proteccion Radiologica (Colombia)]. e-mail: ccbeltra@gmail.com

2006-07-01

Colombia counts with around 56 centers of Nuclear Medicine, 70 Nuclear Doctors and more of 100 Technologists in this area. The radioisotopes more used are the {sup 131} I and the {sup 99m} Tc. The radiological surveillance singular in the country is carried out for external dosimetry, being the surveillance by incorporation of radioactive materials very sporadic in our media. Given the necessity to implement monitoring programs in the incorporation of radionuclides of the occupationally exposed personnel, in the routine practice them routine of Nuclear Medicine, it was implemented a pilot program of Special Monitoring with two centers of importance in the city of Medellin. This program it was carried out with the purpose of educating, to stimulate and to establish a program of reference monitoring with base in the National Program of Monitoring in the radionuclides Incorporation that serves like base for its application at level of all the services of Nuclear Medicine in the country. This monitoring type was carried out with the purpose of obtaining information on the work routine in these centers, form of manipulation and dosage of the radionuclides, as well as the administration to the patient. The application of the program was carried out to define the frequency of Monitoring and analysis technique for the implementation of a program of routine monitoring, following the recommendations of the International Commission of Radiological Protection. For their application methods of activity evaluation were used in urine and in 7 workers thyroid, of those which only two deserve an analysis because they presented important activities. The measures were carried out during one month, every day by means in urine samples and to the most critic case is practiced two thyroid measures, one in the middle of the period and another when concluding the monitoring. To the other guy is practiced an activity count in thyroid when concluding the monitoring period. The obtained

Nuclear medicine

International Nuclear Information System (INIS)

James, A.E. Jr.; Squire, L.F.

1977-01-01

The book presents a number of fundamental imaging principles in nuclear medicine. The fact that low radiation doses are sufficient for the study of normal and changed physiological functions of the body is an important advancement brought about by nuclear medicine. The possibility of quantitative investigations of organs and organ regions and of an assessment of their function as compared to normal values is a fascinating new diagnostic dimension. The possibility of comparing the findings with other pathological findings and of course control in the same patient lead to a dynamic continuity with many research possibilities not even recognized until now. The limits of nuclear scanning methods are presented by the imprecise structural information of the images. When scintiscans are compared with X-ray images or contrast angiography, the great difference in the imaging of anatomical details is clearly seen. But although the present pictures are not optimal, they are a great improvement on the pictures that were considered clinically valuable a few years ago. (orig./AJ) [de

Nuclear medicine. Basic knowledge and clinical applications. 6. rev. and upd. ed.

International Nuclear Information System (INIS)

Schicha, H.; Schober, O.

2007-01-01

The development of imaging techniques like SPECT, SPECT-CT, PET, PET-CT and MRT has advanced rapidly during the past few years, especially in the case of hybrid technology. These techniques have become indispensable in diagnosis, differential diagnosis, therapy follow-up and prevention. This 6th revised and edited version of 'Nuclear Medicine' takes account of these developments. The general section presents fundamentals of physics, radiopharmaceutical chemistry, measuring techniques, nuclear medical examination techniques, and dosimetry. The special section presents detailed descriptions of all relevant nuclear medical techniques by organ systems and clinical pictures. There are many examples and scintiscans of organs to train the diagnostic eye and give a link to clinical practice. This successful textbook presents complex subject matter in a clear and intelligible way. It addresses newcomers and expert doctors that require training in nuclear medical methods. It has also become a standard textbook in university medicine studies and in the training of radiological assistants. (orig.)

Handbook of nuclear medicine practice in developing countries

Energy Technology Data Exchange (ETDEWEB)

NONE

1993-12-31

This ``Handbook of Nuclear Medicine Practices in the Developing Countries`` is meant primarily for those, who intend to install and practice nuclear medicine in a developing country. By and large, the conventional Textbooks of nuclear medicine do note cater to the special problems and needs of these countries. The Handbook is not trying to replace these textbooks, but supplement them with special information and guidance, necessary for making nuclear medicine cost-effective and useful in a hospital of a developing country. It is written mostly by those, who have made success in their careers in nuclear medicine, in one of these countries. One way to describe this Handbook will be that it represents the ways, in which, nuclear medicine is practised in the developing countries, described by those, who have a long and authentic experience of practising nuclear medicine in a developing country Figs, tabs

Links between nuclear medicine and radiopharmacy

International Nuclear Information System (INIS)

Pelegrin, M.; Francois-Joubert, A.; Chassel, M.L.; Desruet, M.D.; Bolot, C.; Lao, S.

2010-01-01

Radiopharmaceuticals are nowadays under the responsibility of the radio-pharmacist because of their medicinal product status. Radiopharmacy belongs to the hospital pharmacy department, nevertheless, interactions with nuclear medicine department are important: rooms are included or located near nuclear medicine departments in order to respect radiation protection rules, more over staff, a part of the material and some activities are shared between the two departments. Consequently, it seems essential to formalize links between the radiopharmacy and the nuclear medicine department, setting the goals to avoid conflicts and to ensure patients' security. Modalities chosen for this formalization will depend on the establishment's organization. (authors)

Tomography in nuclear medicine. Proceedings of an international symposium

International Nuclear Information System (INIS)

1996-01-01

Single photon emission computed tomography (SPECT) is currently being used universally in clinical practice, while positron emission tomography (PET), originally developed as a technique for research, has also gradually moved from the research laboratory to the clinical environment. However, there are significant differences in nuclear medicine capabilities, especially in tomography, between developed and developing countries. The present status and future prospects of nuclear medicine tomography were the main topics of discussion at this latest international symposium, organized by the IAEA in co-operation with the World Health Organization and held in Vienna from 21 to 25 August 1995. The purpose of the meeting was to share experience and information on new developments and clinical applications of two promising tomographic techniques: SPECT and PET. Eight invited papers and 34 regular papers from 23 countries were presented. In addition, there was a panel discussion on the future and direction of tomography in nuclear medicine for developing countries. Refs, figs, tabs

The application of radionuclides in medicine

International Nuclear Information System (INIS)

Boyd, R.E.; Murray, I.P.C.; Sorby, P.J.; Hetherington, E.L.R.

1977-01-01

The authors of this article describe the history of nuclear medicine from its beginning at the end of the 19th century when radioactivity was discovered, basic considerations which describe briefly the properties of radionuclides with special reference to the ones which are suited to medical applications and in general terms the diagnostic techniques that are current. The article also includes a segment on the radionuclide technetium 99m, explaining why it is ideal for organ imaging and how it is utilised in a range of radiopharmaceuticals for investigations into many areas of the human body. The radiation risk to the patient, including tabulated radiation exposures for a few of the more common nuclear medicine studies, is dealt with. The article explains that a greater risk to life from not having the test performed is used as the criterion for justifying whether a nuclear medicine procedure is performed or not. The article finally describes the scope of the techniques and the areas of the body which are routinely examined and are exemplified with numerous illustrations. (J.R.)

Metabolic radiopharmaceutical therapy in nuclear medicine

International Nuclear Information System (INIS)

Reguera, L.; Lozano, M. L.; Alonso, J. C.

2016-01-01

In 1986 the National Board of Medical Specialties defined the specialty of nuclear medicine as a medical specialty that uses radioisotopes for prevention, diagnosis, therapy and medical research. Nowadays, treatment with radiopharmaceuticals has reached a major importance within of nuclear medicine. The ability to treat tumors with radiopharmaceutical, Radiation selective therapy has become a first line alternative. In this paper, the current situation of the different therapies that are sued in nuclear medicine, is reviewed. (Author)

Nuclear Medicine in a developing country

International Nuclear Information System (INIS)

Wenzel, K.S. von; Rubow, S.M.; Ellmann, A.; Ghoorun, S.

2002-01-01

Namibia is a country with 1,8 million inhabitants, of whom the majority has limited access to first world facilities. Nevertheless, medical services of high standard are offered. A Nuclear Medicine Department was established at Windhoek Central Hospital in 1982. A nuclear physician, two nuclear medicine radiographers and a nursing sister staff the department. Equipment includes a Siemens Orbiter and an Elscint Apex SPX Helix gamma camera. Radiopharmaceuticals are obtained from suppliers in South Africa. Investigations performed include musculoskeletal, liver, hepatobiliary, thyroid, renal studies, ventilation perfusion lung scans as well as the following Nuclear Cardiology studies: Gated blood pool scans, Tc-99m pyrophosphate hot spot scans, Tl-201 myocardial perfusion studies, Tc-99m MIBI myocardial perfusion studies and Tl-201 rest-redistribution studies. Problems experienced at the Windhoek Nuclear Medicine department include: Lack of funding and high cost of equipment and radiopharmaceuticals, lack of understanding of Nuclear Medicine by the hospital management and health administrators, and difficulties in procuring short-lived radiopharmaceuticals. Furthermore, the absence of company representatives and spare parts in Namibia leads to loss of time whenever equipment needs to be repaired. Working as the only nuclear medicine physician in a country also poses major problems. Careful management of resources and information drives have helped to sustain the Nuclear Medicine service despite economic problems in the country. Installation of a tele-link between the department in Windhoek Hospital and Tygerberg Hospital in South Africa has greatly assisted to overcome the problem of isolation and lack of back up from fellow specialists. The IAEA has equipped both departments with Hermes workstations (Nuclear Diagnostics) and a tele-link is maintained via modem. The current software provided with the Hermes system is ideally suited to processing of data such as gated

Nuclear medicine technology. Review questions for the board examinations. 4. ed.

Energy Technology Data Exchange (ETDEWEB)

Ramer, Karen [Ochotnicky Partners s.r.o., Marianka (Slovakia); Mantel, Eleanor [Pennsylvania Univ., Hammonton, NJ (United States). Nuclear Medicine/Molecular Imaging; Reddin, Janet S.; Alavi, Abass [Pennsylvania Univ., Philadelphia, PA (United States). Radiology/Nuclear Medicine; Cheng, Gang [Philadelphia VA Medical Center, PA (United States). Radiology

2013-07-01

The only comprehensive exam preparation guide on the market. Includes a mock registry exam. Provides expanded coverage of positron emission tomography and other new procedures and practices. This book prepares students and technologists for registry examinations in nuclear medicine technology by providing practice questions and answers with detailed explanations, as well as a mock registry exam. The questions are designed to test the basic knowledge required of nuclear medicine technologists, as well as the practical application of that knowledge. The topics covered closely follow the content specifications and the components of preparedness as published by the certification boards. This 4th edition includes expanded coverage of positron emission tomography and other new procedures and practices in the field of nuclear medicine and molecular imaging.

Abstracts of the European Association of Nuclear Medicine congress, 26-30 August 1995, Brussels, Belgium

International Nuclear Information System (INIS)

Anon.

1995-01-01

The issue contains 888 abstracts of lectures and poster sessions of the European Association of Nuclear Medicine Congress held in Brussels, Belgium, from August 26 to 30, 1995. The key subjects adressed are diagnostic nuclear medicine techniques, especially scintiscanning, SPET and PET and their applications in diagnostic medicine. There is an alphabetic index of author names. (vhe) [de

Course on internal dosimetry in nuclear medicine

International Nuclear Information System (INIS)

2004-01-01

This documentation was distributed to the participants in the Course of Internal Dosimetry in Nuclear Medicine organised by the Nuclear Regulatory Authority (ARN) of Argentina and held in Buenos Aires, Argentina, August 9-13, 2004. The course was intended for people from IAEA Member States in the Latin American and Caribbean region, and for professionals and workers in medicine, related with the radiation protection. Spanish and English were the languages of the course. The following subjects were covered: radioprotection of the patient in nuclear medicine; injuries by ionizing radiations; MIRD methodology; radiation dose assessment in nuclear medicine; small scale and microdosimetry; bone and marrow dose modelling; medical internal dose calculations; SPECT and image reconstruction; principles of the gamma camera; scattering and attenuation correction in SPECT; tomography in nuclear medicine

Where is high technology taking nuclear medicine

International Nuclear Information System (INIS)

Veall, N.

1985-01-01

The question is posed as to whether high technology in nuclear medicine might lead to the nuclear medicine practitioner possibly finishing up working for the machine rather than the improvement of health care in its widest sense. A brief examination of some pros and cons of high technology nuclear medicine is given. (U.K.)

Nuclear data for medical applications: an overview

International Nuclear Information System (INIS)

Qaim, S.M.

2002-01-01

A brief introduction to nuclear data in medicine is given. The choice of a radioisotope for medical application demands an accurate knowledge of radioactive decay data. Short-lived single photon and beta sup + -emitters are preferred for diagnostic investigations, and longer-lived corpuscular radiation emitting radioisotopes for endo radiotherapy. The nuclear reaction cross section data, on the other hand, are needed for optimising the production routes. Besides radioactive isotopes, the use of ionising radiation in therapy is discussed. External radiation therapy has achieved an important place in medicine. The role of nuclear data is briefly discussed; they are needed for radiation dose calculations. The hitherto rather neglected activation products in proton therapy are considered. The methodology of development of a nuclear data file for medical applications is outlined. (author)

Your Radiologist Explains Nuclear Medicine

Medline Plus

Full Text Available ... can be detected with other diagnostic tests. Nuclear medicine imaging procedures use small amounts of radioactive materials – called radiotracers – that ... outweighs any risk. To learn more about nuclear medicine, visit Radiology Info dot org. Thank you for your ... of Use | Links | Site Map Copyright © 2018 Radiological Society of ...

Nuclear medicine at the crossroads

International Nuclear Information System (INIS)

Strauss, H.W.

1996-01-01

Many nuclear medicine procedures, originally developed more than 20 years ago, are now performed with new radiopharmaceuticals or instruments; it is therefore apposite to reappraise what we are doing and why we are doing it. The clinical utility of nuclear medicine is discussed with reference, by way of example, to gated blood pools scans and myocardial perfusion imaging; the importance of the referred population for the outcome of studies is stressed. Attention is drawn to the likelohood that the detection of ischemia would be enhanced by the administration of nitroglycerin prior to rest thallium injection. Emphasis is also placed on the increasing acceptance of dual-tracer studies. The significance of expression of p-glycoprotein by some tumors for sestamibi imaging is discussed, and advances in respect of fluorodeoxyglucose imaging are reviewed. The final section covers issues relating to the development of new procedures, such as the value of nuclear medicine in the detection and characterization of tissue oxygen levels and the possible future role of nuclear medicine in the management of sleeping and eating disorders. (orig.)

Nuclear medicine, a proven partnership

International Nuclear Information System (INIS)

Henderson, L. A.

2009-01-01

Full text:Ultrasonography is the modality of choice for demonstrating many cystic structures within the body. However nuclear medicine is often able to demonstrate functional disturbance where ultrasound and conventional radiography are unsuccessful. A case is presented in which a 16 day old male child presented to nuclear medicine with a right upper quadrant cyst found in ultrasound with exact location equivocal. Determining the location and nature of the cyst was essential to the treatment team for patient management. A hepatobiliary study was performed and evidence of a choledochal cyst was found. In partnership with ultrasound, nuclear medicine was able to identify a possibly malignant structure and consequently patient management was determined.

Nuclear medicine: the Philippine Heart Center experience

International Nuclear Information System (INIS)

Cancino, E.L.

1994-01-01

The following is a report of a three (3) months on-the-job training in Nuclear Medicine at the Nuclear Medicine Department of the Philippine Heart Center. The hospital has current generation nuclear medicine instruments with data processor and is capable of a full range of in vivo and in vitro procedures. Gamma camera is the principal instrument for imaging in nuclear medicine used in the Philippine Heart Center. Thyroid scanning procedure is being performed with these instruments. Also the cardiovascular procedures, the pulmonary, skeletal, renal and hepatobiliary procedures were being performed with the use of gamma camera. Special emphasis is on nuclear cardiology since the PHC attends primarily to cardiovascular patients. (auth.)

In vivo studies. In vivo nuclear medicine

International Nuclear Information System (INIS)

Syrota, A.; CEA, 91 - Orsay

1997-01-01

A historical review of the use of radioelements for biological applications and nuclear medicine is presented: planar gamma-scintigraphy, invented in 1957, which gives planar projections of the radioactivity distribution in an organ; tomography, which gives sections of an organ and reconstructed three-dimensional images; positron emission tomography, invented in the 70's, gives brain section images with carbon 11, nitrogen 13 and oxygen 15. Coupled utilization of these techniques with other functional image systems such as nuclear magnetic resonance, enables simultaneous anatomic and functional information such as cognitive functions and cerebral localizations

Symposium on nuclear particle accelerators in medicine: abstracts

International Nuclear Information System (INIS)

1986-01-01

This symposium deals with the cyclotron production of radiopharmaceuticals and the application of radionuclides and -pharmaceuticals produced this way. The use of positron emitters in nuclear medicine medical physics and radiobiology are discussed as well as radiotherapy and all the aspects of neutron radiation and dosimetry of neutron therapy

The multiple applications of the nuclear techniques in Argentina

International Nuclear Information System (INIS)

Manzini, Alberto C.

2001-01-01

A review is given of the use of nuclear technology in Argentina, especially in the field of the production of radioisotopes and radiopharmaceuticals, nuclear medicine, and industrial applications. The applications of ionizing radiation are also reviewed

Nuclear data applications in developing countries

International Nuclear Information System (INIS)

Mehta, M.K.; Schmidt, J.J.

1985-01-01

The peaceful applications of nuclear science and technology currently receive an increasing attention in many developing countries. More than 15 developing countries operate, construct or plan nuclear power reactors, 70 developing countries are using or planning to use nuclear techniques in medicine, agriculture, industry, and for other vital purposes. The generation, application and computer processing of nuclear data constitute important elements of the nuclear infrastructure needed for the successful implementation of nuclear science and technology. Developing countries become increasingly aware of this need, and, with the help and cooperation of the IAEA Nuclear Data Section, are steadily gaining in experience in this field. The paper illustrates this development in typical examples. (orig.)

Nuclear medicine board review. Questions and answers for self-assessment. 2. ed.

International Nuclear Information System (INIS)

Goldfarb, C.R.; Ongseng, F.; Zuckier, L.S.; Karam, M.; Cooper, J.A.

2007-01-01

This book provides thorough preparation for certification examinations by the American Board of Radiology (Nuclear Medicine section and Special Competency), the American Board of Nuclear Medicine, and the America Board of Nuclear Cardiology. More than 1,780 questions test the reader's knowledge of the diagnostic and therapeutic uses of radionuclides, single-photon applications, and positron emission tomography (PET). Features: - A convenient question and answer format, in which questions appear on the left and answers on the right, allowing the reader to rapidly quiz and review. - New chapters addressing the emergence of PET/CT. - Measurements provided in both American standard and SI metric units. Ideal for board exam preparation, this concise text is an up-to-date question and answer review for the most important topics in nuclear medicine. (orig.)

Practice of nuclear medicine in a developing country

International Nuclear Information System (INIS)

Hasan, M.M.; Karim, M.A.; Nahar, N.; Haque, M.M.

2002-01-01

For more than a half a century nuclear medicine is contributing in the field of medicine. Still nuclear medicine is not widely available in many countries. Especially in developing countries due to many a reasons nuclear medicine could not flourish in that way. Availability of radioisotope, high cost of instrument and sophistication of the branch are the three main reasons behind. Even the countries where nuclear medicine is functioning for quite a long time, the facilities for proper function are still not adequate. Training of manpower, maintenance of instruments, regular supply of isotopes and kit and cost effectiveness are some of the major problems. We have seen some fast developments in nuclear medicine in last few decades. Development of gamma detecting systems with SPECT, positron emission detector (PET), supported computer technology and introduction of some newer radiopharmaceuticals for functional studies are few of the examples. The developing countries also have a problem to go on parallel with these rapid development of nuclear medicine in other part of the world. In last few decades we have also witnessed development of CT, MRI, Ultrasound and other imaging modalities as our competitor. Specially for developing countries these have posed as a major challenge for nuclear medicine. A better understanding between developed and developing nations is the key point of todays ultimate success in any sector. For real development of nuclear medicine and to give the majority of the people the benefit of nuclear medicine a better and more active co-operation is needed between all the countries. The paper presents the difficulties and some practical problems of practicing nuclear medicine in a developing country. And also appeals for global co-operation to solve the problems for better interest of the subject

PNRI Pioneering the Establishment and Operation of the Tc-99m Generator Production Facility for Nuclear Medicine Applications

International Nuclear Information System (INIS)

Bulos, Adelina DM.; Borras, Ma. Teresa L.; Ciocson, Gregory R.; Mascariñas, Rommel D.C.; Nuñez, Ivy Angelica A.; Dela Rosa, Alumanda M.

2015-01-01

In response to the increasing demand in the nuclear medicine sector in the Philippines, the Philippine Nuclear Research Institute (PNRI) initiated the establishment of a radioisotope production facility. To date, the most commonly used radioisotope in nuclear medicine, Technetium-99m or Tc-99m has been successfully produced in the new laboratory, the PNRI facility has already obtained a license to operate from the Philippine FDA. The new facility is envisioned to meet the country’s requirements for all the major medical radioisotope starting with the local production of Tc-99m and the most commonly used Tc-99m radiopharmaceuticals. At present, all radioisotope supplies in the country are sourced overseas at price that varies accordingly. With the establishment of the PNRI’s laboratories, we now have a GMP-grade Tc-99m generator facility capable of producing 50 Tc-99m generators per batch. Instead of Tc-99m being imported, it will be the parent Mo-99m that will be transferred to PNRI facility from Mo-99 processing facilities overseas, contained in specialized transport containers and via airfreight arrangements so it can be processed locally to make Tc-99m generators. But, to make radiopharmaceuticals, the other non-radioactive components are needed to be sourced from abroad. Thus, it has become imperative to also locally produce these non-radioactive components. All of these components, radioactive and non-radioactive, from the radiopharmaceutical finished products which are utilized in nuclear medicine caters for the diagnosis and detection of critical and non-critical human illnesses. The completion of this program is foreseen as another concrete validation on the capacity of the Philippine as a country that is at par with advanced nations on competency and expertise in the research and development of nuclear medicine application for better healthcare delivery and management. (author)

Quantitative nuclear medicine imaging: application of computers to the gamma camera and whole-body scanner

International Nuclear Information System (INIS)

Budinger, T.F.

1974-01-01

The following topics are reviewed: properties of computer systems for nuclear medicine quantitation; quantitative information concerning the relation between organ isotope concentration and detected projections of the isotope distribution; quantitation using two conjugate views; three-dimensional reconstruction from projections; quantitative cardiac radioangiography; and recent advances leading to quantitative nuclear medicine of clinical importance. (U.S.)

Radiation, ionization, and detection in nuclear medicine

International Nuclear Information System (INIS)

Gupta, Tapan K.

2013-01-01

Up-to-date information on a wide range of topics relating to radiation, ionization, and detection in nuclear medicine. In-depth coverage of basic radiophysics relating to diagnosis and therapy. Extensive discussion of instrumentation and radiation detectors. Detailed information on mathematical modelling of radiation detectors. Although our understanding of cancer has improved, the disease continues to be a leading cause of death across the world. The good news is that the recent technological developments in radiotherapy, radionuclide diagnostics and therapy, digital imaging systems, and detection technology have raised hope that cancer will in the future be combatted more efficiently and effectively. For this goal to be achieved, however, safe use of radionuclides and detailed knowledge of radiation sources are essential. Radiation, Ionization, and Detection in Nuclear Medicine addresses these subjects and related issues very clearly and elaborately and will serve as the definitive source of detailed information in the field. Individual chapters cover fundamental aspects of nuclear radiation, including dose and energy, sources, and shielding; the detection and measurement of radiation exposure, with detailed information on mathematical modelling; medical imaging; the different types of radiation detector and their working principles; basic principles of and experimental techniques for deposition of scintillating materials; device fabrication; the optical and electrical behaviors of radiation detectors; and the instrumentation used in nuclear medicine and its application. The book will be an invaluable source of information for academia, industry, practitioners, and researchers.

Radiation, ionization, and detection in nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Gupta, Tapan K. [Radiation Monitoring Devices Research, Nuclear Medicine, Watertown, MA (United States)

2013-08-01

Up-to-date information on a wide range of topics relating to radiation, ionization, and detection in nuclear medicine. In-depth coverage of basic radiophysics relating to diagnosis and therapy. Extensive discussion of instrumentation and radiation detectors. Detailed information on mathematical modelling of radiation detectors. Although our understanding of cancer has improved, the disease continues to be a leading cause of death across the world. The good news is that the recent technological developments in radiotherapy, radionuclide diagnostics and therapy, digital imaging systems, and detection technology have raised hope that cancer will in the future be combatted more efficiently and effectively. For this goal to be achieved, however, safe use of radionuclides and detailed knowledge of radiation sources are essential. Radiation, Ionization, and Detection in Nuclear Medicine addresses these subjects and related issues very clearly and elaborately and will serve as the definitive source of detailed information in the field. Individual chapters cover fundamental aspects of nuclear radiation, including dose and energy, sources, and shielding; the detection and measurement of radiation exposure, with detailed information on mathematical modelling; medical imaging; the different types of radiation detector and their working principles; basic principles of and experimental techniques for deposition of scintillating materials; device fabrication; the optical and electrical behaviors of radiation detectors; and the instrumentation used in nuclear medicine and its application. The book will be an invaluable source of information for academia, industry, practitioners, and researchers.

Nuclear medicine in the Philippines

International Nuclear Information System (INIS)

Villadolid, Leland.

1978-01-01

This article traces the history of nuclear medicine in the country from the time the first radioisotope laboratory was set up by the Philippine General Hospital about 1955, to the not too satisfactory present facilities acquired by hospitals for diagnosis, treatment and investigation of diseases. It is in research, the investigation of disease that is nuclear medicine's most important area. The Philippine Atomic Energy Commission (PAEC) has pioneered in the conducting of courses in the medical uses of radioisotopes. The local training of nuclear manpower has been continued and updated and foreign fellowships are availed of through the cooperation of IAEA. Quite a number are already trained also in the allied fields that support the practice of nuclear medicine. However the brain drain has seriously affected the number of trained staff of medical units. Discussed and presented is the growth of the medical use of radioisotopes which are locally produced by PAEC. In order to benefit from the full advantage that nuclear medicine can do to a majority of Filipinos, the government should extend its financial support in acquiring such facilities to equip strategic hospitals in the country and support training programs. The Philippine has the expertise to start the expansion but only with adequate provision of funds will our capacity turn into reality. (RTD)

Nuclear tele medicine; Telemedicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Vargas, L.; Hernandez, F.; Fernandez, R. [Departamento de Medicina Nuclear, Imagenologia Diagnostica, Xalapa, Veracruz (Mexico)

2005-07-01

The great majority of the digital images of nuclear medicine are susceptible of being sent through internet. This has allowed that the work in diagnosis cabinets by image it can benefit of this modern technology. We have presented in previous congresses works related with tele medicine, however, due to the speed in the evolution of the computer programs and the internet, becomes necessary to make a current position in this modality of work. (Author)

Nuclear medicine

International Nuclear Information System (INIS)

Sibille, L.; Nalda, E.; Collombier, L.; Kotzki, P.O.; Boudousq, V.

2011-01-01

Nuclear medicine is a medical specialty using the properties of radioactivity. Radioactive markers associated with vectors are used as a tracer or radiopharmaceutical for diagnostic purposes and/or therapy. Since its birth more than half a century ago, it has become essential in the care of many patients, particularly in oncology. After some definitions, this paper presents the main nuclear techniques - imaging for diagnostic, radiopharmaceuticals as therapeutic agents, intra-operative detection, technique of radioimmunoassay - and the future of this field. (authors)

Experimental nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Dormehl, I C [Nuclear Development Corp. of South Africa (Pty.) Ltd., Pelindaba, Pretoria. Inst. of Life Sciences; Du Plessis, M; Jacobs, D J

1983-07-01

Exciting investigative research, widening the dimensions of conventional nuclear medicine, is being conducted in Pretoria where the development and evaluation of new radiopharmaceuticals in particular is attracting international attention. Additional to this, the development of new diagnostic techniques involving sophisticated data processing, is helping to place South Africa firmly in the front line of nuclear medical progress.

Physics and radiobiology of nuclear medicine

CERN Document Server

Saha, Gopal B

2010-01-01

From a distinguished author comes this new edition for technologists, practitioners, residents, and students in radiology and nuclear medicine. Encompassing major topics in nuclear medicine from the basic physics of radioactive decay to instrumentation and radiobiology, it is an ideal review for Board and Registry examinations. The material is well organized and written with clarity. The book is supplemented with tables and illustrations throughout. It provides a quick reference book that is concise but comprehensive, and offers a complete discussion of topics for the nuclear medicine and radi

Physics in nuclear medicine

CERN Document Server

Cherry, Simon R; Phelps, Michael E

2012-01-01

Physics in Nuclear Medicine - by Drs. Simon R. Cherry, James A. Sorenson, and Michael E. Phelps - provides current, comprehensive guidance on the physics underlying modern nuclear medicine and imaging using radioactively labeled tracers. This revised and updated fourth edition features a new full-color layout, as well as the latest information on instrumentation and technology. Stay current on crucial developments in hybrid imaging (PET/CT and SPECT/CT), and small animal imaging, and benefit from the new section on tracer kinetic modeling in neuroreceptor imaging.

Quality assurance in nuclear medicine

International Nuclear Information System (INIS)

Paras, P.

1978-01-01

Quality assurance practices must be followed throughout the entire nuclear medicine process, from the initial decision to perform a particular procedure, through the interpretation and reporting of the results. The various parameters that can be defined and measured in each area must be monitored by quality control tests to assure the excellence of the total nuclear medicine process. The presentation will discuss each of the major areas of nuclear medicine quality control and their interaction as a part of the entire system. Quality control testing results and recommendations for measurements of radioactivity distribution will be described with emphasis on imaging equipment and dose calibrating instrumentation. The role of the health physicist in a quality assurance program will be stressed. (author)

Draft report on the national seminar in nuclear medicine

International Nuclear Information System (INIS)

1977-01-01

The proceedings of the seminar on nuclear medicine have been conducted in four main sessions. In the first session a review of the current status of clinical nuclear medicine in India is reviewed. The use of radioisotopes in thyroid function studies, central nervous systems, liver disorders, lung and bone imaging, renal function studies, dynamic function studies, gastroenterology haematology etc. are described. The existing facilities and the future needs for radioimmunoassay and radiotherapy are discussed. In Session 2, the existing facilities in nuclear medicine in different states in India are reviewed. In Session 3, the available resources in nuclear medicine are reviewed. Radiation protection procedures are outlined. Various nuclear instruments developed at the Bhabha Atomic Research Centre, (BARC), Bombay, for use in nuclear medicine are briefly described. A list of radiopharmaceuticals developed by BARC and in current use, is given. The roles of the physicist, pharmacist and the nuclear medicine technologist in the hospitals having nuclear medicine units, are stressed. The importance of training and education for personnel in nuclear medicine and medical physics is pointed out. (A.K.)

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... physician who has specialized training in nuclear medicine will interpret the images and send a report to your referring physician. top of page What are the benefits vs. risks? Benefits The information provided by nuclear ...

European Association of Nuclear Medicine Congress, 14-18 September 1996, Copenhagen, Denmark. Abstracts

International Nuclear Information System (INIS)

Anon.

1996-01-01

The European Association of Nuclear Medicine Congress, held from 14-18 September 1996 in Copenhagen, Denmark, was devoted to all aspects of applications of nuclear medicine for diagnostic evaluation and therapy. The scientific programme and all in all 943 abstracts are presented in this issue, 474 abstracts of scientific lectures and 469 abstracts of poster presentations. There also is an author affiliations index. (VHE) [de

Ninth Argentine congress on biology and nuclear medicine; fourth Southernmost sessions of ALASBIMN (Latin-American Association of Biology and Nuclear Medicine); first Spanish-Argentine congress on nuclear medicine; first Argentine sessions on nuclear cardiology

International Nuclear Information System (INIS)

1991-01-01

This work deals with all the papers presented at the 9. Argentine congress on biology and nuclear medicine; IV Southernmost sessions of ALASBIMN; I Spanish-Argentine congress on nuclear medicine and I Sessions Argentine sessions on nuclear cardiology held in Buenos Aires, Argentina, from October 14 - 18, 1991

Medicine and ionizing rays: a help sheet in analysing risks in nuclear medicine

International Nuclear Information System (INIS)

Gauron, C.

2006-01-01

This document first proposes the various applicable legal and regulatory texts concerning radioprotection in the medical sector (European directives, institutions in charge of radioprotection, general arrangements, regulatory texts concerning worker protection against ionizing radiations, personnel specialized in medical radio-physics, electro-radiology operators, quality control of medical devices, and nuclear medicine and radiology). The second part proposes a synthesis of useful knowledge for radioprotection in the case of nuclear medicine when performing in vivo diagnosis, positron emission tomography or PET being excluded. Several aspects are considered: the concerned personnel, the course of treatment procedures, the hazards, the identification of the risk associated with ionizing radiation, the risk assessment and the determination of exposure levels, the strategy to control the risks (reduction of risks, technical measures concerning the installation or the personnel, teaching and information, prevention and medical monitoring), and risk control assessment. The next parts present the same kind of information but for positron emission tomography or PET with Fluorine 18, for therapeutic practice without hospitalization (activity of iodine 137 less than 740 MBq), for therapeutic practice in case of hospitalization (iodine 137 activity greater than 740 MBq), and when taking patients into care after treatment in a nuclear medicine (in this last case, legal and regulatory information focus on patients)

Proceedings of 1. Regional Meeting on Nuclear Applications

International Nuclear Information System (INIS)

1990-01-01

This Meeting describes nuclear methods and techniques, emphasizing the development or adaptation of methodologies and instrumentations for national conditions. The works present here comprise several field of nuclear application as agronomy; industry; nuclear medicine; dosimetry; radiological protection and instrumentation. (C.G.C.)

Physical bases of nuclear medicine

International Nuclear Information System (INIS)

Isabelle, D.B.; Ducassou, D.

1975-01-01

The physical bases of nuclear medicine are outlined in several chapters devoted successively to: atomic and nuclear structures; nuclear reactions; radioactiity laws; a study of different types of disintegration; the interactions of radiations with matter [fr

Children in nuclear medicine

International Nuclear Information System (INIS)

Fischer, S.

2002-01-01

With each study in paediatric nuclear medicine one must try to reach a high quality standard with a minimum of radiation exposure to the child. This is true for the indication for the study and the interpretation of the results as well as the preparation, the image acquisition, the processing and the documentation. A continuous evaluation of all aspects is necessary to receive optimal, clinically relevant information. In addition it is important that the child keeps nuclear medicine in a good mind, especially when it has to come back for a control study. (orig.) [de

Assessment of OEP health's risk in nuclear medicine

Energy Technology Data Exchange (ETDEWEB)

Santacruz-Gomez, K.; Manzano, C.; Melendrez, R.; Castaneda, B.; Barboza-Flores, M.; Pedroza-Montero, M. [Departamento de Fisica, Universidad de Sonora. A.P. 1626 Hermosillo, Sonora, Mexico and Centro de Investigacion en Materiales Avanzados CIMAV, A.C. Chihuahua, Chihuahua (Mexico); Centro de Diagnostico Integral del Noroeste, Luis Donaldo Colosio 23 83000 Centro Hermosillo, Sonora (Mexico); Departamento de Investigacion en Fisica, Universidad de Sonora. A. P. 5-088 Hermosillo, Sonora (Mexico); Departamento de Fisica, Universidad de Sonora. A.P. 1626 Hermosillo, Sonora (Mexico); Departamento de Investigacion en Fisica, Universidad de Sonora. A. P. 5-088 Hermosillo, Sonora (Mexico)

2012-10-23

The use of ionizing radiation has been increased in recent years within medical applications. Nuclear Medicine Department offers both treatment and diagnosis of diseases using radioisotopes to controlled doses. Despite the great benefits to the patient, there is an inherent risk to workers which remains in contact with radiation sources for long periods. These personnel must be monitored to avoid deterministic effects. In this work, we retrospectively evaluated occupationally exposed personnel (OEP) to ionizing radiation in nuclear medicine during the last five years. We assessed both area and personal dosimetry of this department in a known Clinic in Sonora. Our results show an annual equivalent dose average of 4.49 {+-} 0.70 mSv in OEP without showing alarming changes in clinical parameters analyzed. These results allow us to conclude that health of OEP in nuclear medicine of this clinic has not been at risk during the evaluated period. However, we may suggest the use of individual profiles based on specific radiosensitivity markers.

Safety assessment of nuclear medicine practice using the Risk Matrix Method

International Nuclear Information System (INIS)

Cruz, Dumenigo; Cruz, Yoanis; Soler, Karen; Guerrero, Mayka

2013-01-01

This paper presents the main results from the application of the methodology of Risk Matrices in a hypothetical service / department of the Nuclear medicine that realize metabolic radiotherapy treatment and diagnostic studies with 131 I and 99 m Tc and 18 F. We could identify major equipment failures and human errors that could potentially lead to a accident in practice. For each analyzed initiating events evaluated the frequency of occurrence, identified key existing defenses to avoid the accident and assessed the potential consequences of an accident if this comes to fruition. With this methodology we could identify which accident sequences increased risk and to propose means to reduce the risk in such cases. As a result of this work was developed the 'RMA Nuclear Medicine' computer tools that will apply this methodology in nuclear medicine services that need to do similar risk assessments

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... radioactive energy that is emitted from the patient's body and converts it into an image. The gamma camera itself does not emit any ... bear denotes child-specific content. Related Articles and Media General Nuclear ... (Pediatric) Nuclear Medicine Videos related ...

Materials of All-Polish Symposium Nuclear Techniques in Industry, Medicine, Agriculture and Environment Protection

International Nuclear Information System (INIS)

2005-01-01

The All-Polish Symposium Nuclear Techniques in Industry, Medicine, Agriculture and Environment Protection is cyclic (in 3 year period) conference being a broad review of state of art and development of all nuclear branches cooperated with industry and other branches of national economy and public life in Poland. The conference has been divided in one plenary session and 6 problem sessions as follow: Environmental protection, earth sciences, protection of cultural objects; Industrial applications; applications in medicine, medical apparatus; measurement methods, simulations, experiment planning; radiation techniques; laboratories, metrology

Economical scale of nuclear energy application

International Nuclear Information System (INIS)

2001-01-01

The nuclear energy industry is supported by two wheels of radiation and energy applications. When comparing both, they have some different sides, such as numbers of employees and researchers, numbers and scales of works, effect on society, affecting effects and regions of industrial actions, problems on safety, viewpoint on nuclear proliferation protection and safety guarantee, energy security, relationship to environmental problem, efforts on wastes disposal, and so on. Here described on economical scale of radiation application in fields of industry, agriculture, and medicine and medical treatment, and on economical scale of energy application in nuclear power generation and its instruments and apparatus. (G.K.)

Nuclear medicine resources in the internet

International Nuclear Information System (INIS)

Obaldo, J.M.

1996-01-01

The internet is a global collection of networked computers linked by a set of protocols which allows the otherwise disperate computer systems to communicate with each other. In contrast to text-only data available previously, the World Wide Web allows multimedia content to be available on the internet. Graphics can now likewise be used as links. The development of World Wide Web client software such as Mosaic, or the currently more popular Netscape Navigator, makes linking from one document to another (colloquially referred to as 'surfing the Net') fast and simple. While these software are commonly called Web browsers their function extends to the other internet services such as e-mail, file transfer protocol, remote login, Gopher and WAIS. A prototype application being developed as a case-based teaching file which could include clinical data and case discussion, aside of course from the nuclear medicine and related images. Contributions from various institutions can be made available on their own servers and linked together through hypertext. Examples of these are websites of the Mallinckrodt Institute of Radiology and the Joint Program in Nuclear Medicine of the Harvard Medical School. The university of Iowa also has its Virtual Hospital, a collection of clinical cases with radiologic images. Most major universities and medical centers have websites where information on on-going research, facilities and personnel are made available. Links to various special interest discussion groups (e.g. those developing the common image file format) are also accessible and the documents often contain further links to related fields in nuclear technology. The very nature of the hypertext transfer protocol of the World Wide Web makes it a relatively simple matter for a developer of a teaching system to include links to necessary resources. It is envisioned that an internet-based teaching module will be incorporated in some nuclear medicine training programs in the United States

The situation of chinese nuclear medicine technologists and strategy in future

International Nuclear Information System (INIS)

Zhang Yongxue

2001-01-01

Nuclear medicine technologists is an important part of nuclear medicine professionals, and play an important role in the progress of nuclear medicine. The professional quality of nuclear medicine technologists must adapt to the development of nuclear medicine. There is a relatively great gap between China mainland and developed countries in the field of nuclear medicine. In future, it is urgent to improve the professional quality and the educational level of nuclear medicine technologists

Nuclear medicine training and practice in the Czech Republic

International Nuclear Information System (INIS)

Kaminek, Milan; Koranda, Pavel

2014-01-01

Nuclear medicine in the Czech Republic is a full specialty with an exclusive practice. Since the training program was organized and structured in recent years, residents have had access to the specialty of nuclear medicine, starting with a two-year general internship (in internal medicine or radiology). At present, nuclear medicine services are provided in 45 departments. In total, 119 nuclear medicine specialists are currently registered. In order to obtain the title of Nuclear Medicine Specialist, five years of training are necessary; the first two years consist of a general internship in internal medicine or radiology. The remaining three years consist of training in the nuclear medicine specialty itself, but includes three months of practice in radiology. Twenty-one physicians are currently in nuclear medicine training and a mean of three specialists pass the final exam per year. The syllabus is very similar to that of the European Union of Medical Specialists (UEMS), namely concerning the minimum recommended numbers for diagnostic and therapeutic procedures. In principle, the Czech law requires continuous medical education for all practicing doctors. The Czech Medical Chamber has provided a continuing medical education (CME) system. Other national CMEs are not accepted in Czech Republic. (orig.)

Nuclear medicine training and practice in the Czech Republic

Energy Technology Data Exchange (ETDEWEB)

Kaminek, Milan; Koranda, Pavel [University Hospital Olomouc, Department of Nuclear Medicine, Olomouc (Czech Republic)

2014-08-15

Nuclear medicine in the Czech Republic is a full specialty with an exclusive practice. Since the training program was organized and structured in recent years, residents have had access to the specialty of nuclear medicine, starting with a two-year general internship (in internal medicine or radiology). At present, nuclear medicine services are provided in 45 departments. In total, 119 nuclear medicine specialists are currently registered. In order to obtain the title of Nuclear Medicine Specialist, five years of training are necessary; the first two years consist of a general internship in internal medicine or radiology. The remaining three years consist of training in the nuclear medicine specialty itself, but includes three months of practice in radiology. Twenty-one physicians are currently in nuclear medicine training and a mean of three specialists pass the final exam per year. The syllabus is very similar to that of the European Union of Medical Specialists (UEMS), namely concerning the minimum recommended numbers for diagnostic and therapeutic procedures. In principle, the Czech law requires continuous medical education for all practicing doctors. The Czech Medical Chamber has provided a continuing medical education (CME) system. Other national CMEs are not accepted in Czech Republic. (orig.)

Computers for use in nuclear medicine

International Nuclear Information System (INIS)

Surova, H.

1991-01-01

Brief information is presented on computers for nuclear medicine that are currently available on the market. The treatment is based on print material by various manufacturers and commercial organizations and on the publication ''Nuclear Medicine Computers - A Personal Comparison Chart'' of May 1991, issued by the Reilly Publishing Company. (Z.S.)

The development of new radionuclide generator systems for nuclear medicine applications

International Nuclear Information System (INIS)

Knapp, F.F. Jr.; Callahan, A.P.; Mirzadeh, S.; Brihaye, C.; Guillaume, M.

1991-01-01

Radioisotope generator systems have traditionally played a central role in nuclear medicine in providing radioisotopes for both research and clinical applications. In this paper, the development of several tungsten-188/rhenium-188 prototype generators which provide rhenium-188 for radioimmunotherapy (RAIT) is discussed. The authors have recently demonstrated that carrier-free iridium-194 can be obtained from the activated carbon system from decay of reactor-produced osmium-194 for potential RAIT applications. Instrumentation advances such as the new generation of high-count-rate (fast) gamma camera systems for first-pass technology require the availability of generator-produced ultra short-lived radioisotopes for radionuclide angiography (RNA). The activated carbon generator is an efficient system to obtain ultra short-lived iridium-191 m from osmium-191 for RNA. In addition, the growing number of PET centers has stimulated research in generators which provide positron-emitting radioisotopes. Copper-62, obtained from the zinc-62 generator, is currently used for PET evaluation of organ perfusion. The availability of the parent radioisotopes, the fabrication and use of these generators, and the practical factors for use of these systems in the radiopharmacy are discussed. 74 refs., 6 figs., 5 tabs

Synthesis, evaluation and application of radioiodine labeled compounds in nuclear medicine

International Nuclear Information System (INIS)

Ahmed, M. O. M.

2006-01-01

This study reviews synthesis, evaluation,diagnostic and therapeutic applications of iodine radiopharmaceutical especially with 13I I and 123 I in contemporary nuclear medicine. It is well Known that iodine is used in thyroid diagnostic and therapy with sodium iodide and played an important role in diagnostic procedures using single photon emission tomography (SPECT). The study covers the general chemistry of iodine, physical properties, biological role of iodine, general uses of iodine compounds , production and decay schemes of 131 I, 125 I and 123 I in the first chapter. Preparation of radioiodine labeled compounds, quality control of radiopharmaceuticals and safety of radioiodination are dealt with in detail in two chapters. These were followed by chapters dealing in length with the chemistry, preparation, quality control, pharmacokinetics and radiation dosimetry of some iodine radiopharmaceuticals, and then current trends in diagnostic and therapeutic applications of iodine radiopharmaceuticals particularly 131 / 123 I-MIBG and 123 I-IMP. We found that the iodine radiopharmaceuticals are considered amongst principal indicators in single photon emission tomography (SPECT), and 131 / 123 I-MIBG and 123 I-IMP appear to be appropriate diagnostic and therapeutic agents for variety of diseases.(Author)

Nuclear tele medicine

International Nuclear Information System (INIS)

Vargas, L.; Hernandez, F.; Fernandez, R.

2005-01-01

The great majority of the digital images of nuclear medicine are susceptible of being sent through internet. This has allowed that the work in diagnosis cabinets by image it can benefit of this modern technology. We have presented in previous congresses works related with tele medicine, however, due to the speed in the evolution of the computer programs and the internet, becomes necessary to make a current position in this modality of work. (Author)

The state of the art of nuclear medicine in 1980

International Nuclear Information System (INIS)

Tamat, S.R.

1982-01-01

The second congress of World Federation of Nuclear Medicine and Biology proved that nuclear medicine is returning to physiology. Around 1951, when motorized detector was introduced and when GM tube was replaced by scintillation crystal detector, physiologic nuclear medicine moved to anatomic nuclear medicine. Since 1970, when research on cardiology developed, nuclear medicine has been returning to physiology. Since 1963 Kuhl has been doing research on quantitative tomography which develops to emission computerized tomography emphasizing the physiological aspects of medicine. The recent contribution of nuclear medicine to medical science is the concept that human body is a unity of dynamic structure consisting of millions of cubes moving physio-chemically. (RUW)

Study of nuclear medicine practices in Portugal from an internal dosimetry perspective

International Nuclear Information System (INIS)

Bento, J.; Teles, P.; Neves, M.; Santos, A. I.; Cardoso, G.; Barreto, A.; Alves, F.; Guerreiro, C.; Rodrigues, A.; Santos, J. A. M.; Capelo, C.; Parafita, R.; Martins, B.

2012-01-01

Nuclear medicine practices involve the handling of a wide range of pharmaceuticals labelled with different radionuclides, for diagnostic and therapeutic purposes. This work intends to evaluate the potential risks of internal contamination of nuclear medicine staff in several Portuguese nuclear medicine services and to conclude about the requirement of a routine internal monitoring. A methodology proposed by the International Atomic Energy Agency (IAEA), providing a set of criteria to determine the need, or not, for an internal monitoring programme, was applied. The evaluation of the risk of internal contaminations in a given set of working conditions is based on the type and amount of radionuclides being handled, as well as the safety conditions with which they are manipulated. The application of the IAEA criteria showed that 73.1 % of all the workers included in this study should be integrated in a routine monitoring programme for internal contaminations; more specifically, 100 % of workers performing radioimmunoassay techniques should be monitored. This study suggests that a routine monitoring programme for internal exposures should be implemented in Portugal for most nuclear medicine workers. (authors)

Boron in nuclear medicine: New synthetic approaches to PET, SPECT, and BNCT agents

International Nuclear Information System (INIS)

Kabalka, G.W.

1991-09-01

The primary objective of the DOE Nuclear Medicine Program at The University of Tennessee is the creation of new methods for introducing short-lived isotopes into agents for use in computerized tomography. A portion of the research effort is directed toward the development of new synthetic methods for the preparation of boron-containing neutron therapy agents. The uniqueness of the UT program is its focus on the design of new chemistry and technology as opposed to the application of known reactions to the synthesis of specific radiopharmaceuticals. The versatile organic boron reagents are utilized in most of the new chemistry. This new technology is then used in nuclear medicine research at the UT Biomedical Imaging Center and in collaborative research programs with colleagues at other DOE facilities. An important goal of the DOE Nuclear Medicine Program at UT is to provide training for students (predoctoral and postdoctoral) in the scientific aspects of nuclear medicine. 83 refs., 12 figs

Advanced Bayesian processing of clinical data in nuclear medicine

International Nuclear Information System (INIS)

Jirsa, L.

1999-11-01

The Bayesian methodology was applied with a view to improving the quality of thyroid gland disease treatment at a nuclear medicine department. The specific tasks included: formulation of the estimation tasks from the theoretical point of view; elaborating algorithms to estimate various physical, medical and dosimetric quantities used in radiodiagnosis and radiotherapy of thyroid gland diseases; testing their numerical precision; testing their numerical stability on a large set of clinical data; implementation of the algorithms at a level applicable in routine conditions of the nuclear medicine department and replace by them the data processing methods used there so far; exploring and testing the quality improvement of the estimates; and in dependence on the results, proposing hints where improvement of the data measurement methodology is necessary

Evaluation of radiation protection in nuclear medicine diagnostic procedures

International Nuclear Information System (INIS)

Mohammed, Ezzeldien Mohammed Nour

2013-05-01

This study conducted to evaluate the radiation protection in nuclear medicine diagnostic procedures in four nuclear medicine departments in Sudan. The evaluated procedures followed in these departments were in accordance with the standards, International Recommendations and code of practice for radiation protection in nuclear medicine. The evolution included the optimum design for diagnostic nuclear medicine departments, dealing with radioactive sources, quality assurance and quality control, training and responsibilities for radiation worker taking into account economic factors in Sudan. Evaluation of radiation protection procedures in diagnostic investigations was carried out by taken direct measurements of dose rate and the contamination level in some areas where radiation sources, radiation workers and public are involved. Designated questionnaires covered thirteen areas of radiation protection based on inspection check list for nuclear medicine prepared by the International Atomic Energy Agency (IAEA) and American Association of Physicist in Medicine (AAPM) were used in the evaluation. This questionnaire has been Filled by Radiation Protection Officer (RPO), nuclear medicine technologist, nuclear medicine specialist in the nuclear medicine departments. Four hospitals, two governmental hospital and two private hospitals, have been assisted, the assessment shows that although the diagnostic nuclear medicine department in Sudan are not applying a fully safety and radiation protection procedures, but the level of radiation dose and the contamination level were found within acceptable limits. The private hospital D scored the higher level of protection (85.25%) while the governmental hospital C scored the lower level of protection (59.02%). Finally, this study stated some recommendations that if implemented could improve the level of radiation protection in nuclear medicine department. One of the most important recommendations is that a proper radiation protection

Radiosanitary control in nuclear medicine

International Nuclear Information System (INIS)

Degrossi, O.J.

1987-01-01

Nuclear Medicine has recently modified radiosanitary control standards for the three sectors involved: patients, personnel and general population. Nuclear Medicine does not constitute an important source of radiation, including patients and population, compared with radiology. The basic problems of radiosanitary controls are: the absorbed dose and the patient. Low risk deferred stochastic effects may appear with correct use of these controls. On the other hand, risk of stochastic consequences and non stochastic complications appear with incorrect applications. The following aspects should be considered for correct uses: A-1- The critical organ, which is not always the one under study. 2-The rest of the organism, specially the more sensitive organs. B- The radiopharmaceutical used, considering the following periods: physical, biological and effective. C-Technical and human resources that include quality control for the equipment. Radiosanitary control aims at a common objetive: dose limitation to the patient, personnel and general population. For this, it is necessary to accomplish the training programme for proffesional and technical personnel about quality control and to stablish basic standards for the equipment. Current law and regulations assign to the National Atomic Energy Comission the responsibility for controlling the use of radioisotopes and radiations in order to safeguard the health and life of the population. (M.E.L.) [es

Distribution of nuclear medicine service in Brazil

International Nuclear Information System (INIS)

Silva, Ana Carolina Costa da; Duarte, Alessandro; Santos, Bianca Maciel dos

2011-01-01

The Brazil does not posses a good distribution of nuclear medicine service por all his territory. This paper shows the difference among country regions as far the number of clinics of nuclear medicine as is concerning, and also doctors licensed in the area and radioprotection supervisors, both licensed by the Brazilian Nuclear Energy Commission (CNEN)

Nuclear medicine imaging. An encyclopedic dictionary

International Nuclear Information System (INIS)

Thie, Joseph A.

2012-01-01

The rapidly growing and somewhat complex area of nuclear medicine imaging receives only limited attention in broad-based medical dictionaries. This encyclopedic dictionary is intended to fill the gap. More than 400 entries of between one and three paragraphs are included, defining and carefully explaining terms in an appropriate degree of detail. The dictionary encompasses concepts used in planar, SPECT, and PET imaging protocols and covers both scanner operations and popular data analysis approaches. In spite of the mathematical complexities in the acquisition and analysis of images, the explanations given are kept simple and easy to understand; in addition, many helpful concrete examples are provided. Nuclear Medicine Imaging: An Encyclopedic Dictionary will be ideal for those who wish to obtain a rapid grasp of a concept beyond a definition of a few words but do not want to resort to a time-consuming search of the reference literature. The almost tutorial-like style accommodates the needs of students, nuclear medicine technologists, and varieties of other medical professionals who interface with specialists within nuclear medicine.

Workshop on radiation protection of patient. Workshop on radiation protection of worker in nuclear medicine and biomedicine

International Nuclear Information System (INIS)

1998-01-01

In these workshops, information on the following subjects was presented: biological and prenatal effects of ionizing radiation, excretion of radiopharmaceuticals in human breast milk, fetal doses assessment, final disposal of radioactive waste in medical applications, regulatory functions for installations in nuclear medicine, workers doses in nuclear medicine and biomedicine, radioprotection of their nuclear installations, programs of quality assurance, etc

Quality control of nuclear medicine instruments, 1991

International Nuclear Information System (INIS)

1996-12-01

This document gives detailed guidance on the quality control of various instruments used in nuclear medicine. A first preliminary document was drawn up in 1979. A revised and extended version, incorporating recommended procedures, test schedules and protocols was prepared in 1982. The first edition of 'Quality Control of Nuclear Medicine Instruments', IAEA-TECDOC-317, was printed in late 1984. Recent advances in the field of nuclear medicine imaging made it necessary to add a chapter on Camera-Computer Systems and another on SPECT Systems

Quality control of nuclear medicine instruments 1991

International Nuclear Information System (INIS)

1991-05-01

This document gives detailed guidance on the quality control of various instruments used in nuclear medicine. A first preliminary document was drawn up in 1979. A revised and extended version, incorporating recommended procedures, test schedules and protocols was prepared in 1982. The first edition of ''Quality Control of Nuclear Medicine Instruments'', IAEA-TECDOC-317, was printed in late 1984. Recent advances in the field of nuclear medicine imaging made it necessary to add a chapter on Camera-Computer Systems and another on SPECT Systems. Figs and tabs

Radiopharmaceutical prescription in nuclear medicine departments

International Nuclear Information System (INIS)

Biechlin-Chassel, M.L.; Lao, S.; Bolot, C.; Francois-Joubert, A.

2010-01-01

In France, radiopharmaceutical prescription is often discussed depending to which juridical structure the nuclear medicine department is belonging. According to current regulation, this prescription is an obligation in a department linked to hospital with a pharmacy department inside. But situation remains unclear for independent nuclear medicine departments where physicians are not constrained to prescribe radiopharmaceuticals. However, as radiographers and nurses are only authorized to realize theirs acts in front of a medical prescription, one prescription must be realized. Nowadays, computerized prescription tools have been developed but only for radiopharmaceutical drugs and not for medical acts. In the aim to achieve a safer patient care, the prescription regulation may be applied whatever differences between nuclear medicines departments. (authors)

22. French language symposium on nuclear medicine

International Nuclear Information System (INIS)

1981-01-01

The 80 papers presented in summary form at the Congress are given. These papers cover three main topics: broncho-pulmonary investigation with radioaerosols; role of nuclear medicine in pharmacokinetics; role of Nuclear Medicine in metabolic investigations [fr

A DICOM based PACS for nuclear medicine

International Nuclear Information System (INIS)

Lassmann, M.; Reiners, C.

2002-01-01

The installation of a radiology information system (RIS) connected to a hospital information system (HIS) and a picture archiving and communications system (PACS) seems mandatory for a nuclear medicine department in order to guarantee a high patient throughput. With these systems a fast transmission of reports, images to the in- and out-patients' wards and private practitioners is realized. Therefore, since April 2000, at the department of nuclear medicine of the university of Wuerzburg a completely DICOM based PACS has been implemented in addition to the RIS. With this system a DICOM based workflow is realized throughout the department of nuclear medicine for reporting and archiving. The PACS is connected to six gamma-cameras, a PET scanner, a bone densitometry system and an ultrasound device. The volume of image data archived per month is 4 GByte. Patient demographics are provided to the modalities via DICOM-Worklist. With these PACS components a department specific archive purely based on DICOM can be realized. During the installation process problems occurred mainly because of the complex DICOM standard for nuclear medicine. Related to that is the problem that most of the software implementations still contain bugs or are not adapted to the needs of a nuclear medicine department (particularly for PET). A communication software for the distribution of nuclear medicine reports and images based on techniques used for the worldwide web is currently tested. (orig.) [de

Pulmonary explorations in nuclear medicine

International Nuclear Information System (INIS)

Beck, C.

1987-01-01

Ten years ago specialists in Nuclear Medicine from the South of France formed an Association called ACOMEN. The objectives were to create a permanent exchange of ideas between members and a close collaboration with physicians. The group objectives have led to a combination of efforts on the behalf of each one to clarify our techniques for physicians having recourse to this speciality as well as the various categories of students passing through the Nuclear Medicine Departments. Different groups within the ACOMEN were assigned to specific subjects. Each group was in charge of building the framework of a certain topic, which was then illustrated by selected documents contributed by all members. A slide collection, complete with an explanatory booklet is the final result of this collaboration. Thus anyone concerned in any way, with nuclear medicine, is able to quickly become familiar with the techniques of the speciality, to be aware of its possibilities and its limitations and to update his hnowledge. One realizes that the first theme selected was not the easiest; pulmonary radionuclide explorations are, as everyone knows, variable and even personalized. However, the choice was deliberate. The difficulty should stimulate those responsible for the other themes as well as the people working with them. There is already a slide collection available to anyone who wishes to learn about the use of nuclear medicine in the diagnosis of respiratory diseases [fr

Quality control in nuclear medicine

International Nuclear Information System (INIS)

Kostadinova, I.

2007-01-01

Nuclear medicine comprises diagnosis and therapy of the diseases with radiopharmaceuticals. The ambition of all specialists in our country is their activity to reach European standards. In this connection, a Commission for external audit was formed to evaluate the quality of work in the centers of nuclear medicine. This Commission create a long-lasting programme based on the objective European criteria and the national standard of nuclear medicine, having in mind to increase quality of the work and the expert evaluation of activity in every center. The program comprises measures for quality control of instrumentation, radiopharmaceuticals, performed investigations, obtained results and the whole organization from the receiving of the isotopes to the results of the patients. The ambition is most of the centers to fulfill the requirements. As a conclusion it could be said that not only the quality of everyday nuclear medicine work is enough to increase the prestige of the specialty. It is also necessary we to have understanding expert and financial support from corresponding institutions, incl. Ministry of health for a delivery of a new, contemporary instrumentation with new possibilities. Thus it would be possible Bulgarian patients to reach the high technology apparatuses for an early functional diagnosis of the diseases and optimal treatment, which possibility have the patients from the developed countries. (author)

Radiation exposure of workers in nuclear medicine

International Nuclear Information System (INIS)

Bujnova, A.

2008-01-01

Nuclear medicine is an interdisciplinary department that deals with diagnosis and therapy using open sources. Therefore workers in nuclear medicine are in daily contact with ionizing radiation and thus it is essential to monitor a radiation load. Each work must therefore carry out monitoring of workers. It monitors compliance with the radiation limits set by law, allows an early detection of deviations from normal operation and to demonstrate whether the radiation protection at the workplace is optimized. This work describes the principles of monitoring of workers in nuclear medicine and monitoring methods for personal dosimetry. In the next section the author specifically deals with personal dosimetry at the Department of Nuclear Medicine St. Elizabeth Cancer Institute, Bratislava (KNM-Ba-OUSA). The main part of the work is to evaluate the results of a one-year monitoring of radiation workers KNM-Ba-OUSA. (author)

Hand Dose in Nuclear Medicine Staff Members

International Nuclear Information System (INIS)

Taha, T.M.; Shahein, A.Y.; Hassan, R.

2009-01-01

Measurement of the hand dose during preparation and injection of radiopharmaceuticals is useful in the assessment of the extremity doses received by nuclear medicine personnel. Hand radiation doses to the occupational workers that handling 99m Tc-labeled compounds, 131 I for diagnostic in nuclear medicine were measured by thermoluminescence dosimetry. A convenient method is to use a TLD ring dosimeter for measuring doses of the diagnostic units of different nuclear medicine facilities . Their doses were reported in millisieverts that accumulated in 4 weeks. The radiation doses to the hands of nuclear medicine staff at the hospitals under study were measured. The maximum expected annual dose to the extremities appeared to be less than the annual limit (500 mSv/y) because all of these workers are on rotation and do not constantly handle radioactivity throughout the year

Production and radioiodination of monoclonal antibodies and its applications in nuclear medicine

International Nuclear Information System (INIS)

Toledo e Souza, I.T. de; Okada, H.

1988-12-01

The basis of the monoclonal antibody production methodology, some immunological concepts which are important for the understanding of what is a Monoclonal Antibody, its radioiodination and acceptance as receptor-specific radiopharmaceuticals in nuclear medicine are reviewed. (author) [pt

Lessons from other areas of medical imaging - nuclear medicine

International Nuclear Information System (INIS)

McCready, V.R.

1981-01-01

Ultrasound and nuclear medicine are similar in that they both have been developed for clinical use in the past decade. Unlike X-ray techniques the success or failure of ultrasound and nuclear medicine depend more upon both the operator and the method of display. Since both ultrasound and nuclear medicine use relatively complicated methods of gathering and displaying information some of the lessons learnt during the development of nuclear medicine can be equally applied to ultrasound techniques. (Auth.)

Radioactive waste management of the nuclear medicine services; Gestao de rejeitos radioativos em servicos de medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Barboza, Alex

2009-07-01

Radioisotope applications in nuclear medicine services, for diagnosis and therapy, generate radioactive wastes. The general characteristics and the amount of wastes that are generated in each facility are function of the number of patients treated, the procedures adopted, and the radioisotopes used. The management of these wastes embraces every technical and administrative activity necessary to handle the wastes, from the moment of their generation, till their final disposal, must be planned before the nuclear medicine facility is commissioned, and aims at assuring people safety and environmental protection. The regulatory framework was established in 1985, when the National Commission on Nuclear Energy issued the regulation CNEN-NE-6.05 'Radioactive waste management in radioactive facilities'. Although the objective of that regulation was to set up the rules for the operation of a radioactive waste management system, many requirements were broadly or vaguely defined making it difficult to ascertain compliance in specific facilities. The objective of the present dissertation is to describe the radioactive waste management system in a nuclear medicine facility and provide guidance on how to comply with regulatory requirements. (author)

Radioactive waste management of the nuclear medicine services; Gestao de rejeitos radioativos em servicos de medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Barboza, Alex

2009-07-01

Radioisotope applications in nuclear medicine services, for diagnosis and therapy, generate radioactive wastes. The general characteristics and the amount of wastes that are generated in each facility are function of the number of patients treated, the procedures adopted, and the radioisotopes used. The management of these wastes embraces every technical and administrative activity necessary to handle the wastes, from the moment of their generation, till their final disposal, must be planned before the nuclear medicine facility is commissioned, and aims at assuring people safety and environmental protection. The regulatory framework was established in 1985, when the National Commission on Nuclear Energy issued the regulation CNEN-NE-6.05 'Radioactive waste management in radioactive facilities'. Although the objective of that regulation was to set up the rules for the operation of a radioactive waste management system, many requirements were broadly or vaguely defined making it difficult to ascertain compliance in specific facilities. The objective of the present dissertation is to describe the radioactive waste management system in a nuclear medicine facility and provide guidance on how to comply with regulatory requirements. (author)

Protection of the patient in nuclear medicine

International Nuclear Information System (INIS)

1987-01-01

In ICRP Publication 52, the 'Protection of the Patient in Nuclear Medicine', is concerned with exposures of patients resulting from the administration of radiopharmaceuticals for diagnostic, therapeutic and research purposes. The report includes guidelines for nuclear medicine physicians, radiologists, medical physicists and technologists on the factors that influence absorbed doses to patients from different types of nuclear medicine examinations. Other topics in the report include education and training, estimates of absorbed dose, design of facilities, instrumentation, quality assurance and control and preparation, quality assurance and control of radiopharmaceuticals. (U.K.)

Applications of nuclear techniques and research 1990

International Nuclear Information System (INIS)

1990-01-01

The application of nuclear techniques, i.e. those techniques where use is made of isotopes and radiation, continues to contribute to progress in science, technology, agriculture, industry and medicine. Nuclear applications found their way into the IAEA's activities from the very beginning, and their promotion constitutes today a substantial fraction of the IAEA's Technical Co-operation and Research Contract Programmes. The 1990 selection is opened by a review of the role and function of the IAEA's Research Contract Programme, which is one of the Agency's most effective tools for promoting and developing nuclear applications. Applications in agriculture are covered in two articles dealing respectively with issues affecting the acceptance of food irradiation by governments, the food industry and consumers and with the use of radiation to induce plant mutation, a practical tool available to plant breeders in their effort to develop better quality crops. The following article deals with a typical nuclear application in medicine, i.e. the use of radionuclides in the diagnosis of lung diseases and in investigations related to the respiratory function. The use of environmental isotopes to assess the energy potential of geothermal fields is the next subject, a good example of nuclear methods applied to the evaluation of natural resources. The 1990 review concludes with a presentation prepared by the Third World Academy of Sciences on magnetic fusion research activity in the developing countries and its connection with the IAEA's own fusion programme

Research and career opportunities for chemists in nuclear medicine

International Nuclear Information System (INIS)

Welch, M.J.

1989-01-01

Two recent publications [Training Requirements for Chemists in Nuclear Medicine, Nuclear Industry, and Related Areas: Report of a Workshop National Academy Press, Washington, D.C., 1988, and Report of the Society of Nuclear Medicine Manpower Committee, Journal of Nuclear Medicine, January, 1989] have emphasized the opportunities for Chemists in Nuclear Medicine. These opportunities exist in Medical Centers, the Radiopharmaceutical Drug Industry as well as the Ethical Drug Industry of particular importance of the need for organic and inorganic chemists with knowledge and experience in radiochemistry to develop and prepare the radiopharmaceuticals needed for the Nuclear Medicine community. The number of positions available at present and anticipated in the future will be compared and the number of training programs listed. Examples of the types of opportunities in this area will be given

Radiation doses to patients from nuclear medicine examinations

International Nuclear Information System (INIS)

Boehm, K.; Boehmova, I.

2014-01-01

Public Health Authority of the Slovak Republic, Bratislava The exposure of the population to ionizing radiation is rising rapidly, nearly exclusively due to increasing medical use of radiation, including diagnostic methods of nuclear medicine. In 2012 Public health authority of the Slovak republic (PHA SR) performed a survey about the population exposure from nuclear medicine procedures. The primary objectives of this survey were to assess the frequency of different nuclear medicine procedures, determine the average activities administered by nuclear medicine procedures and compare them with the national diagnostic reference levels and determine the annual collective effective dose to the Slovak population from nuclear medicine. The effective dose calculation was based on the methodology of the ICRP32, ICRP80 and ICRP106. In Slovak republic are 11 nuclear medicine departments. The collected data of activities administered by different procedures correspond to 100 % of nuclear medicine departments. The total number of procedures included in the study was 36 250. The most commonly performed procedure was bone scintigraphy (35.9%), followed by lung perfusion and ventilation scintigraphy (17.0%), static and dynamic renal scintigraphy (13.0%), whole-body positron emission tomography of tumors with PET radiopharmaceuticals (11.6%), myocardial perfusion (8.8%), thyroid scintigraphy (6.2%), parathyroid scintigraphy (2.1%), scintigraphy of tumors (2.1%), scintigraphy of the liver and spleen (0.8%), brain perfusion (0.7%) and examination of the gastrointestinal system (0.3%). (authors)

The multiple applications of the nuclear techniques in Argentina; Las multiples aplicaciones de la tecnologia nuclear en Argentina

Energy Technology Data Exchange (ETDEWEB)

Manzini, Alberto C [Comision Nacional de Energia Atomica, Buenos Aires (Argentina). Programa de Radioisotopos y Aplicaciones

2001-07-01

A review is given of the use of nuclear technology in Argentina, especially in the field of the production of radioisotopes and radiopharmaceuticals, nuclear medicine, and industrial applications. The applications of ionizing radiation are also reviewed.

Advanced Nuclear Applications in Medicinr at Chiang Mai University

International Nuclear Information System (INIS)

Vilasdechanon, Nonglak

2015-01-01

The atomic energy applications in Faculty of Medicine, Chiang Mai University (CMU) are mainly performed by department of Radiology that is divided into three dicisions: 1) Diagnostic Radiology Division for the applications of X-rays, ultrasound, and magnetic resonance, 2) Therapeutic Radiology and Oncology Division for cancer treatments by photon accelrator and external radionuclides therapy or brachytherapy, 3) Nuclear Meddicine Division for clinical dignosis by using radionuclide scintigraphy, targeted molecular imaging and internal radionuclide therapy. In the last decade, many advanced medical images for clinical diagnosis included of digital & computed radiology (DR & CR), digital subtraction angiography (DSA) and images (DSI), computed tomography (CT) with dual X-rays energies, manetic resonance imaging (MRI), and hybrid images of SPECT/CT were established in Radiology Department and PET/CT Cyclitron Center Chiang Mai University (PCCMU), respectively. For cancer treatments, the frontier technologies in radiation oncligy therapy such as tomotherapy, IMRT, 3D conformal radiation treatment, stereotactic radiationtherapy (SRT), stereotactic radiation surgery (SRS), and radiation biology laboratory were implemented in the department as well. As far as fast development of nuclear technology in medicine, future implementation of advanced nuclear applications in medicine strongly need an intergrated knoowledge from many specialties e.g. computer softeare in image reconstruction, accuracy and and precision technology, production of specific radiotracers for molecular imaging and therapy, techniques in radionuclide productions, innovation of new wquipment or materials for radiationprotection and safety, etc. However the most important factors of nuclear applications in medicine are the vision, mission and the value statements of the organization on the high cost in radiology investment and human resources development. We have to emphasize that people who are involved

Application of radioactive substances in research in nuclear medicine: current trends and radiation exposure to the study subjects

International Nuclear Information System (INIS)

Minkov, V.; Schwarz, E.R.; Bauer, B.; Nosske, D.; Erzberger, A.; Brix, G.

2001-01-01

Aim: Analysis of the application of radioactive substances in research in the field of nuclear medicine in human beings and of the resulting radiation exposure to study subjects. Methods: Assessment of applications for approval submitted in accordance with Paragraph 41 of the Radiation Protection Ordinance, evaluated by the Federal office for Radiation Protection together with the Federal Institute for Pharmaceuticals and Medical Products, within the period from 1997 to 1999. Results: The focus of the studies on the diagnostic application of radioactive substances in medicine evaluated has, since 1998, shifted from oncological to neurological and psychological aspects, while, at the same time, the number of PET studies increased constantly The proportion of healthy study subjects included in the diagnostic studies increased from 7 to 22%. The number of therapeutic applications of radioactive substances has, since 1997, undergone a three-fold increase, and in the process of this, the focus of attention lay within the area of radioimmuno-therapy and endovascular brachytherapy. The effective dose was, among up to 49% of the investigated healthy study subjects higher than 5 mSv, and among up to 6% of these subjects was at levels of over 20 mSv. Up to 22% of the patients received, within the scope of diagnostic studies, an effective dose of between 20 and 50 mSv. An exceeding of the 50 mSv limit occurred among up to 3% of the patients. Conclusions: In spite of the increasing numbers of PET applications, conventional nuclear medicine has maintained its importance in the field of medical research. Further developments in the areas of radiochemistry and molecular biology led to an increase in the importance of radio-immuno therapy. The evaluation of new radiopharmaceuticals and the extension of basic biomedical research, resulted in an increase in the proportion of healthy study subjects included in the studies. The radiation exposure among subjects resulting directly from

Nuclear Medicine on the net

International Nuclear Information System (INIS)

Graney, K.; Lin, P.C.; Chu, J.; Sathiakumur, C.

2003-01-01

Full text: To gain insight into Internet usage as a potential means of communicating with clinicians. Method: 200 clinicians within the South Western Sydney Health Area were surveyed by mail. Questionnaire details included Internet access, frequency of access, interest in department web site, suitability of content and interest in electronic bookings. The total response rate was 37% (74/200). General Practitioners comprised 46% of the respondents, and specialists 54%. All respondents had access to the Internet (44% from home only, 8% from work, 48% from both locations), with 57% accessing the Web daily. There was a high overall interest by respondents in accessing a Nuclear medicine web site, particularly for information and results, but a relative reluctance to consider electronic bookings. The following table outlines the respondents in detail. Our results indicate that a Nuclear Medicine web site has the potential to be an effective means of communicating with clinicians. Copyright (2003) The Australian and New Zealand Society of Nuclear Medicine Inc

Interventional studies in nuclear medicine

International Nuclear Information System (INIS)

Saha, G.B.; Swanson, D.P.; Hladik, W.B. III

1987-01-01

Pharmacological interventions in nuclear medicine studies have been in practice for a long time. The triiodothyronine (T/sub 3/) suppression, Thyroid-stimulating hormone (TSH) stimulation, and perchlorate discharge tests are common examples of well-established diagnostic interventional studies. In recent years, pharmacologic and physiologic interventions in other nuclear medicine procedures have drawn considerable attention. The primary purpose of these interventions is to augment, complement or, more often, differentiate the information obtained from conventional nuclear medicine diagnostic studies. Pharmacologic interventions involve the administration of a specific drug before, during, or after the administration of radiopharmaceutical for a given study. The change in information due to intervention of the drug offers clues to differentiating various disease conditions. These changes can be brought about by physiologic interventions also, e.g., exercise in radionuclide ventriculography. In the latter interventions, the physiologic function of an organ is enhanced or decreased by physical maneuvers, and the changes observed can be used to differentiate various disease conditions

Radiation protection in nuclear medicine

International Nuclear Information System (INIS)

Seeburrun, V.

2013-04-01

Radiation protection in nuclear medicine in this project is concerned with the reduction of doses to workers, patients and members of the public. Protection of workers is achieved by adopting good personal habits, good housekeeping, proper use of personal protective devices and equipment, attend training and have continuous education. Exposure to radiation of workers and the members of the public are minimised by proper management of radioactive waste and safe transport of radioactive material. The design and shielding of a nuclear medicine department shall further provide for the protection of the worker, the patient and the general public. Protection of patient is achieved by justifying the procedure, delivering the minimum radiation dose possible to the patient while obtaining the best image quality and applying guidance levels. Special considerations shall be given to pregnant and breast-feeding patients. Quality assurance programme through image quality, radiopharmaceutical quality and patient records on nuclear medicine procedures shall provide assurance to the patient. (au)

Checklists for quality assurance and audit in nuclear medicine

International Nuclear Information System (INIS)

Williams, E.D.; Harding, L.K.; McKillop, J.H.

1989-01-01

A series of checklists are given which aim to provide some guidance to staff in determining whether their working procedures in nuclear medicine are likely to produce a good service and avoid mistakes. The checklists relate to the special equipment used in nuclear medicine departments, radiopharmaceuticals, nuclear medicine staff, services to medical and other hospital staff and finally the service to patients. The checklists are relevant to an average nuclear medicine department performing less than 2000 imaging studies per year. (U.K.)

Highlights of articles published in annals of nuclear medicine 2016

International Nuclear Information System (INIS)

Jadvar, Hossein

2017-01-01

This article is the first installment of highlights of selected articles published during 2016 in the Annals of Nuclear Medicine, an official peer-reviewed journal of the Japanese Society of Nuclear Medicine. A companion article highlighting selected articles published during 2016 in the European Journal of Nuclear Medicine and Molecular Imaging, which is the official peer-reviewed journal of the European Association of Nuclear Medicine, will also appear in the Annals Nuclear Medicine. This new initiative by the respective journals will continue as an annual endeavor and is anticipated to not only enhance the scientific collaboration between Europe and Japan but also facilitate global partnership in the field of nuclear medicine and molecular imaging. (orig.)

Highlights of articles published in annals of nuclear medicine 2016

Energy Technology Data Exchange (ETDEWEB)

Jadvar, Hossein [University of Southern California, Division of Nuclear Medicine, Department of Radiology, Keck School of Medicine, Los Angeles, CA (United States)

2017-10-15

This article is the first installment of highlights of selected articles published during 2016 in the Annals of Nuclear Medicine, an official peer-reviewed journal of the Japanese Society of Nuclear Medicine. A companion article highlighting selected articles published during 2016 in the European Journal of Nuclear Medicine and Molecular Imaging, which is the official peer-reviewed journal of the European Association of Nuclear Medicine, will also appear in the Annals Nuclear Medicine. This new initiative by the respective journals will continue as an annual endeavor and is anticipated to not only enhance the scientific collaboration between Europe and Japan but also facilitate global partnership in the field of nuclear medicine and molecular imaging. (orig.)

Quality assurance of nuclear medicine instruments

International Nuclear Information System (INIS)

Soni, P.S.

1998-01-01

Quality assurance in nuclear medicine refers collectively to all aspects of a nuclear medicine programme that may contribute directly or indirectly to the quality of the results obtained. For examples, patients scheduling; preparation and dispensing of radiopharmaceutical; the protection of patients, staff and the general public against radiation hazards and accidents caused by faulty instruments; methodology, data interpretation and record keeping

Nuclear Medicine Imaging Devices. Chapter 11

Energy Technology Data Exchange (ETDEWEB)

Lodge, M. A.; Frey, E. C. [Russell H. Morgan Department of Radiology and Radiological Sciences, Johns Hopkins University, Baltimore, MD (United States)

2014-12-15

Imaging forms an important part of nuclear medicine and a number of different imaging devices have been developed. This chapter describes the principles and technological characteristics of the main imaging devices used in nuclear medicine. The two major categories are gamma camera systems and positron emission tomography (PET) systems. The former are used to image γ rays emitted by any nuclide, while the latter exploit the directional correlation between annihilation photons emitted by positron decay. The first section of this chapter discusses the principal components of gamma cameras and how they are used to form 2-D planar images as well as 3-D tomographic images (single photon emission computed tomography (SPECT)). The second section describes related instrumentation that has been optimized for PET data acquisition. A major advance in nuclear medicine was achieved with the introduction of multi-modality imaging systems including SPECT/computed tomography (CT) and PET/CT. In these systems, the CT images can be used to provide an anatomical context for the functional nuclear medicine images and allow for attenuation compensation. The third section in this chapter provides a discussion of the principles of these devices.

Technetium-99m: From nuclear medicine applications to fine sediment transport studies

Directory of Open Access Journals (Sweden)

Bandeira Jefferson V.

2017-12-01

Full Text Available The present work is a contribution to rescue the history of development of the application of 99mTc, widely used in nuclear medicine, to its use as tracer for the study of the transport of fine sediment in suspension, in water environment. It addresses the usefulness of its application in obtaining important parameters in environmental studies, illustrating them with some applications already performed and the results obtained. This kind of study, when associated with information on hydrodynamic parameters, for example, river, tidal, wind and wave currents, are powerful tools for the understanding and quantification of fine sediment transport in suspension. Fine sediment is an important vector in the transportation of heavy metals, organic matter and nutrients in water environment, and the quantitative knowledge of its behaviour is mandatory for studies of environmental impacts. Fine sediment labelled with 99mTc, can also be used to study the effect of human interventions, such as dredging of reservoirs, access channels and harbours, and the dumping of dredged materials in water bodies. Besides that, it can be used to optimize dredging works, evaluating the technical and economic feasibility of dumping sites and their environmental impact. It is a valuable support in the calibration and validation of mathematical models for sediment dynamics.

1. A brief history of nuclear medicine

International Nuclear Information System (INIS)

Dienstbier, Z.

1989-01-01

The milestones of history of nuclear medicine are dealt with. A brief account is given of the history of nuclear medicine abroad, and a more in-depth treatment is devoted to Czechoslovakia, where the beginning of this branch of science dates to 1951. (Z.S.)

Present-day problems of nuclear medicine in immunology

International Nuclear Information System (INIS)

Agranat, V.Z.; Rossel's, A.N.; Balyura, A.V.

1990-01-01

The authors describe in a systemic order the potentialities of the use of nuclear medicine methods in immunology. Two fields of their application were singled out: experimental and clinical immunology, each one including in vivo and in vitro methods. The authors cited examples of their use, emphasizing the importance and prospects of radioimmunoassays for determination of the level of hormones in patients with various immunological pathology

Nuclear medicine in the countries of Latin America

International Nuclear Information System (INIS)

Touya, Eh.

1987-01-01

The role of nuclear medicine in protection of health in Latin America states is shown. Nuclear medicine methods are applied in Latin America countries for diagnosis of coronary disease, cancer, malfunctioning of separate organs and transplants, kidney transplants in particular. The present situation in protection of health in the region is evaluated. It is emphasized that nuclear medicine should play its role in the course of public health improvement in those countries

Case assessments for nuclear medicine registrars

International Nuclear Information System (INIS)

Farlow, D.

1994-01-01

Westmead Hospital set some of the recent nuclear medicine cases for registrar training. These case assessments have been completed by the registrars and he thought it might be interesting for the general nuclear medicine community to attempt the cases themselves and compare their answers with the model reports and patient follow-ups. Edited versions of two cases and model answers are presented. 35 refs

Historic images in nuclear medicine

DEFF Research Database (Denmark)

Hess, Søren; Høilund-Carlsen, Poul Flemming; Alavi, Abass

2014-01-01

In 1976, 2 major molecular imaging events coincidentally took place: Clinical Nuclear Medicine was first published in June, and in August researchers at the Hospital of the University of Pennsylvania created the first images in humans with F-FDG. FDG was initially developed as part of an evolution...... set in motion by fundamental research studies with positron-emitting tracers in the 1950s by Michel Ter-Pegossian and coworkers at the Washington University. Today, Clinical Nuclear Medicine is a valued scientific contributor to the molecular imaging community, and FDG PET is considered the backbone...

Course on internal dosimetry in nuclear medicine; Curso de dosimetria interna en medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

NONE

2004-07-01

This documentation was distributed to the participants in the Course of Internal Dosimetry in Nuclear Medicine organised by the Nuclear Regulatory Authority (ARN) of Argentina and held in Buenos Aires, Argentina, August 9-13, 2004. The course was intended for people from IAEA Member States in the Latin American and Caribbean region, and for professionals and workers in medicine, related with the radiation protection. Spanish and English were the languages of the course. The following subjects were covered: radioprotection of the patient in nuclear medicine; injuries by ionizing radiations; MIRD methodology; radiation dose assessment in nuclear medicine; small scale and microdosimetry; bone and marrow dose modelling; medical internal dose calculations; SPECT and image reconstruction; principles of the gamma camera; scattering and attenuation correction in SPECT; tomography in nuclear medicine.

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... variety of diseases, including many types of cancers, heart disease, gastrointestinal, endocrine, neurological disorders and other abnormalities within the body. Because nuclear medicine procedures are ...

Application for internal dosimetry using biokinetic distribution of photons based on nuclear medicine images.

Science.gov (United States)

Leal Neto, Viriato; Vieira, José Wilson; Lima, Fernando Roberto de Andrade

2014-01-01

This article presents a way to obtain estimates of dose in patients submitted to radiotherapy with basis on the analysis of regions of interest on nuclear medicine images. A software called DoRadIo (Dosimetria das Radiações Ionizantes [Ionizing Radiation Dosimetry]) was developed to receive information about source organs and target organs, generating graphical and numerical results. The nuclear medicine images utilized in the present study were obtained from catalogs provided by medical physicists. The simulations were performed with computational exposure models consisting of voxel phantoms coupled with the Monte Carlo EGSnrc code. The software was developed with the Microsoft Visual Studio 2010 Service Pack and the project template Windows Presentation Foundation for C# programming language. With the mentioned tools, the authors obtained the file for optimization of Monte Carlo simulations using the EGSnrc; organization and compaction of dosimetry results with all radioactive sources; selection of regions of interest; evaluation of grayscale intensity in regions of interest; the file of weighted sources; and, finally, all the charts and numerical results. The user interface may be adapted for use in clinical nuclear medicine as a computer-aided tool to estimate the administered activity.

Challenges for nuclear medicine in the 1990s

International Nuclear Information System (INIS)

Ell, P.J.

1992-01-01

This article discusses the problems facing nuclear medicine in the coming decade and outlines the areas in which new developments or expansion can be expected. The questions considered include legislative requirements, the need to educate the public and the medical profession on the strengths of nuclear medicine, approaches to cost-benefit analysis, and development of new technologies and new radiopharmaceuticals. There is also an evaluation of expansion in nuclear medicine using both existing methodology and new methodologies. (author)

Quality assurance in nuclear medicine

International Nuclear Information System (INIS)

Kaul, A.

1986-01-01

'Quality Assurance in Nuclear Medicine' is the title of the English language original that has been translated into German. The manual very extensively deals with quality control of nuclear medical equipment. Tests are explained for checking radioactivity measuring devices, manual and automatic in-vitro sample measuring systems, in-vivo measuring systems with single or multiple detectors, rectlinear scanners, and gamma cameras, including the phantoms required for the methods. Other chapters discuss the quality control of radiopharmaceuticals, or the quality assurance in data recording and evaluation of results. Helpful comments on the organisation of quality assurance programms are given. The book is intended as a practical guide for introducing quality assurance principles in nuclear medicine in the Federal Republic of Germany. With 13 figs., 22 tabs [de

The practice of nuclear medicine in the Philippines

International Nuclear Information System (INIS)

San Luis, T.O.L.

1996-01-01

The advent of nuclear medicine in the early 1940's came with the use of radioiodine in the study of thyroid physiology and eventual treatment of hyperthyroidism. Instrumentation to detect radionuclides introduced into the human body, and the production of various radiopharmaceuticals as tracers or as therapy agents provided the impetus for the rapid development of nuclear medicine as a distinct specialty. In the Philippines, nuclear medicine formally began in 1956 with the establishment of the Radioisotope Laboratory at the Philippine General Hospital. Acquisition of nuclear instrumentation by various institutions, training of medical staff and personnel, sourcing of radiopharmaceuticals proceeded thereafter

Scope of nuclear medicine in the developing countries

International Nuclear Information System (INIS)

Ganatra, R.D.

1992-01-01

What should a developing country do to promote nuclear medicine? Practice of nuclear medicine requires sophisticated electronic instruments and a variety of radiopharmaceuticals. Ideal situation would be when both are obtainable from local sources. It is not an easy task for developing countries to produce these electronic marvels locally. It anticipates a widespread electronics industry in a country so that various components which go in the big machines are also made locally. One, who has worked in a developing country would realize how exasperating a task it is to maintain, service and repair imported instruments. They break down often in the tropics, are difficult to service due to lack of spare parts and their down-time unusually long. Many of the modern instruments have lots of ''frills and laces'' and as a policy, it is prudent to purchase something which is ''bare to bones'' and simple to use but still capable of providing the essential range of applications

Scope of nuclear medicine in the developing countries

Energy Technology Data Exchange (ETDEWEB)

Ganatra, R D

1993-12-31

What should a developing country do to promote nuclear medicine? Practice of nuclear medicine requires sophisticated electronic instruments and a variety of radiopharmaceuticals. Ideal situation would be when both are obtainable from local sources. It is not an easy task for developing countries to produce these electronic marvels locally. It anticipates a widespread electronics industry in a country so that various components which go in the big machines are also made locally. One, who has worked in a developing country would realize how exasperating a task it is to maintain, service and repair imported instruments. They break down often in the tropics, are difficult to service due to lack of spare parts and their down-time unusually long. Many of the modern instruments have lots of ``frills and laces`` and as a policy, it is prudent to purchase something which is ``bare to bones`` and simple to use but still capable of providing the essential range of applications

Guidelines for patient information in nuclear medicine

International Nuclear Information System (INIS)

Anon.

2010-01-01

This guide for patients information in nuclear medicine is organised in the following manner: what is a medical examination in nuclear medicine, the preparation and the duration of the examination, the possible risks and the radiation doses, pregnancy, delayed menstruation and nursing and what to do after the examination. (N.C.)

Application of radioisotopes in the field of nuclear medicine

International Nuclear Information System (INIS)

Nayak, D.; Lahiri, S.

1999-01-01

A comprehensive review has been made to discuss the role of various radionuclides of lanthanide series elements in the field of nuclear medicine. The role of several pharmaceuticals labeled with radiolanthanides and used for investigative purposes like measurement of cerebral blood flow, bone density measurement, bone marrow imaging, etc., have been described. The role of lanthanide radionuclides in radiation synovectomy, radioimmunotherapy, etc., have also been discussed. Methods of preparation of some representative radiopharmaceuticals like 153 Sm-EDTMP, 153 Sm-HYP, have been presented. An outline on the production of carrier free radioisotopes of lanthanide series elements has been given. (author)

Complementary alternative medicine and nuclear medicine

International Nuclear Information System (INIS)

Werneke, Ursula; McCready, V.Ralph

2004-01-01

Complementary alternative medicines (CAMs), including food supplements, are taken widely by patients, especially those with cancer. Others take CAMs hoping to improve fitness or prevent disease. Physicians (and patients) may not be aware of the potential side-effects and interactions of CAMs with conventional treatment. Likewise, their known physiological effects could interfere with radiopharmaceutical kinetics, producing abnormal treatment responses and diagnostic results. Nuclear medicine physicians are encouraged to question patients on their intake of CAMs when taking their history prior to radionuclide therapy or diagnosis. The potential effect of CAMs should be considered when unexpected therapeutic or diagnostic results are found. (orig.)

Introduction to nuclear medicine

International Nuclear Information System (INIS)

Denhartog, P.; Wilmot, D.M.

1987-01-01

In this chapter, the fundamentals of nuclear medicine, the advantages and disadvantages of this modality (compared with radiography and ultrasound), and some of the areas in diagnosis and treatment in which it has found widest acceptance will be discussed. Nuclear medicine procedures can be broadly categorized into three groups: in vivo imaging, usually requiring the injection of an organ-specific radiopharmaceutical; in vitro procedures, in which the radioactive agent is mixed with the patient's blood in a test tube; and in vivo nonimaging procedures, in which the patient receives the radiopharmaceutical (intravenously or orally) after which a measurement of the amount appearing in a particular biological specimen (blood, urine, stool) is performed. In vivo imaging procedures will be the principal topics of this chapter

Quality Management Audits in Nuclear Medicine Practices. 2. Ed

International Nuclear Information System (INIS)

2015-01-01

Quality management systems are essential and should be maintained with the intent to continuously improve effectiveness and efficiency, enabling nuclear medicine to achieve the expectations of its quality policy, satisfy its customers and improve professionalism. The quality management (QM) audit methodology in nuclear medicine practice, introduced in this publication, is designed to be applied to a variety of economic circumstances. A key outcome is a culture of reviewing all processes of the clinical service for continuous improvement in nuclear medicine practice. Regular quality audits and assessments are vital for modern nuclear medicine services. More importantly, the entire QM and audit process has to be systematic, patient oriented and outcome based. The management of services should also take into account the diversity of nuclear medicine services around the world and multidisciplinary contributions. The latter include clinical, technical, radiopharmaceutical, medical physics and radiation safety procedures

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... Because the doses of radiotracer administered are small, diagnostic nuclear medicine procedures result in low radiation exposure, acceptable for diagnostic exams. Thus, the radiation risk is very low ...

Metabolic radiopharmaceutical therapy in nuclear medicine; Terapia metabolica mediante radiofarmacos en medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Reguera, L.; Lozano, M. L.; Alonso, J. C.

2016-08-01

In 1986 the National Board of Medical Specialties defined the specialty of nuclear medicine as a medical specialty that uses radioisotopes for prevention, diagnosis, therapy and medical research. Nowadays, treatment with radiopharmaceuticals has reached a major importance within of nuclear medicine. The ability to treat tumors with radiopharmaceutical, Radiation selective therapy has become a first line alternative. In this paper, the current situation of the different therapies that are sued in nuclear medicine, is reviewed. (Author)

Nuclear radiation and its role in general nuclear medicine

International Nuclear Information System (INIS)

Kempaiah, A.; Ravi, C.

2012-01-01

Radiation is really nothing more than the emission of energy through space, as well as through physical objects. Nuclear radiations are emitted due to decay of nuclei of radioactive materials and damage cells and the DNA inside them through its ionizing effect. That causes melanoma and other cancers. Nuclear radiation has a number of beneficial uses especially in medical field with low levels of radioactive compounds, better than X-rays. There are some 440 nuclear reactors worldwide, people around will be under the effect of radiation. In nuclear medicine (medical imaging) small amount of radioactive materials were used to diagnose and determine the severity of or treat a variety of disease, including many types of cancers, heart disease, gastrointestinal, endocrine, neurological disorders and other abnormalities within the body it is painless and cost-effective techniques and provides information about both structure and function. Nuclear medicine diagnostic procedures called Gamma camera, single photon emission computed tomography (SPECT) and positron emission tomography (PET) were discussed in this paper. (author)

Round table discussion: Quality control and standardization of nuclear medicine software

International Nuclear Information System (INIS)

Anon.

1988-01-01

In summary the round table came to the following important conclusions: Nuclear medicine software systems need better documentation, especially regarding details of algorithms and limitations, and user friendliness could be considerably improved. Quality control of software is an integral part of quality assurance in nuclear medicine and should be performed at all levels of the software. Quality control of applications software should preferably be performed with assistance of generally accepted software phantoms. A basic form of standardization was welcomed and partly regarded as essential by all participants. Some areas such as patient study files could be standardized in the near future, whereas other areas such as the standardization of clinical applications programs or acquisition protocols still present major difficulties. An international cooperation in the field of standardization of software and other topics has already been started on the European level and should be continued and supported. (orig.)

Highlights of the Annual Congress of the European Association of Nuclear Medicine, Istanbul, 2005: the incremental value of nuclear medicine for patient management and care

Energy Technology Data Exchange (ETDEWEB)

Cuocolo, Alberto; Acampa, Wanda; Varrone, Andrea; Salvatore, Marco [University of Naples Federico II, Department of Biomorphological and Functional Sciences, Napoli (Italy); Institute of Biostructures and Bioimages of the National Council of Research, Naples (Italy)

2006-03-15

The 2005 Annual Congress of the European Association of Nuclear Medicine (EANM) took place in Istanbul on October 15-19, under the chairmanship of Professor Hatice Durak. The programme was of excellent quality and represented a further step towards the achievement of a standardized EANM congress structure. A large industrial exhibition demonstrated the latest technological innovations and developments within the field. The congress was a great success: there were more than 4,000 participants, and 1,670 abstracts were received. Of these, 1,399 were accepted for oral or poster presentations, with a rejection rate of 16.2%. The original investigations presented were related to different areas of nuclear medicine, and addressed particularly advances in instrumentation and data processing, progress in radiochemistry and pharmacy, novel diagnostics and therapeutics, and new insights in well-established areas of clinical application, such as oncology, cardiology, neurology, psychiatry, endocrinology, paediatrics, nephrology, and infection and inflammation. It is noteworthy that a number of studies presented at this congress focussed on the quantitative interpretation of the imaging data and on pragmatic endpoints, such as adverse outcomes, and identified when nuclear medicine procedures achieved clinical effectiveness for patient care and management. These and many other studies presented at the congress demonstrate once more the crucial role that nuclear medicine has to play in contemporary medicine. This highlights lecture is only a brief summary of the large amount of data presented and discussed, which can be found in much greater detail in the congress proceedings book, published as volume 32, supplement 1 of the Eur J Nucl Med Mol Imaging in September 2005. (orig.)

Proceedings of the Korean Society Nuclear Medicine Autumn Meeting 2001

International Nuclear Information System (INIS)

2001-01-01

This proceedings contains articles of 2001 autumn meeting of the Korean Society Nuclear Medicine. It was held on November 16-17, 2001 in Seoul, Korea. This proceedings is comprised of 6 sessions. The subject titles of session are as follows: Cancer, Physics of nuclear medicine, Neurology, Radiopharmacy and biology, Nuclear cardiology, General nuclear medicine. (Yi, J. H.)

XXIVth days of nuclear medicine

International Nuclear Information System (INIS)

1986-01-01

Abstracts are presented of papers submitted to the 24th Days of Nuclear Medicine held in Opava, Czechoslovakia between Oct 9 and 11, 1985. The conference proceeded in three sessions, namely nuclear pediatrics, miscellaneous and technicians' session. The publication also contains abstracts of posters. (L.O.)

Applications of extraction chromatography in the development of radionuclide generator systems for nuclear medicine

International Nuclear Information System (INIS)

Dietz, M.L.; Horwitz, E.P.

2000-01-01

Numerous methods have been described for the separation and purification of radionuclides for application in diagnostic and therapeutic nuclear medicine, among them ion exchange, solvent extraction, and various forms of chromatography. Although extraction chromatography has previously been shown to provide a means of performing a number of separations of potential use in radionuclide generator systems, the application of the technique to generator development has thus far been limited. Recent work directed at improved methods for the determination of radionuclides in biological and environmental samples has led to the development of a series of novel extraction chromatographic resins exhibiting enhanced metal ion retention from strongly acidic media and excellent selectivity, among them materials suitable for the isolation of 212 Bi, 90 Y, and 213 Bi. These resins, along with extraction chromatographic materials employing functionalized supports to improve their physical stability or metal ion retention properties, are shown to offer promise in the development of improved radionuclide generators

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... endocrine, neurological disorders and other abnormalities within the body. Because nuclear medicine procedures are able to pinpoint molecular activity within the body, they offer the potential to identify disease in ...

The role of general nuclear medicine in breast cancer

International Nuclear Information System (INIS)

Greene, Lacey R; Wilkinson, Deborah

2015-01-01

The rising incidence of breast cancer worldwide has prompted many improvements to current care. Routine nuclear medicine is a major contributor to a full gamut of clinical studies such as early lesion detection and stratification; guiding, monitoring, and predicting response to therapy; and monitoring progression, recurrence or metastases. Developments in instrumentation such as the high-resolution dedicated breast device coupled with the diagnostic versatility of conventional cameras have reinserted nuclear medicine as a valuable tool in the broader clinical setting. This review outlines the role of general nuclear medicine, concluding that targeted radiopharmaceuticals and versatile instrumentation position nuclear medicine as a powerful modality for patients with breast cancer

Recent developments and future trends in nuclear medicine instrumentation

International Nuclear Information System (INIS)

Zaidi, H.

2006-01-01

Molecular imaging using high-resolution single-photon emission computed tomography (SPECT) and positron emission tomography (PET) has advanced elegantly and has steadily gained importance in the clinical and research arenas. Continuous efforts to integrate recent research findings for the design of different geometries and various detector technologies of SPECT and PET cameras have become the goal of both the academic community and nuclear medicine industry. As PET has recently become of more interest for clinical practice, several different design trends seem to have developed. Systems are being designed for ''low cost'' clinical applications, very high-resolution research applications (including small-animal imaging), and just about everywhere in-between. The development of dual-modality imaging systems has revolutionized the practice of nuclear medicine. The major advantage being that SPECT/PET data are intrinsically aligned to anatomical information from the X-ray computed tomography (CT), without the use of external markers or internal landmarks. On the other hand, combining PET with magnetic resonance imaging (MRI) technology is scientifically more challenging owing to the strong magnetic fields. Nevertheless, significant progress has been made resulting in the design of a prototype small animal PET scanner coupled to three multichannel photomultipliers via optical fibers, so that the PET detector can be operated within a conventional MR system. Thus, many different design paths are being pursued - which ones are likely to be the main stream of future commercial systems? It will be interesting, indeed, to see which technologies become the most popular in the future. This paper briefly summarizes state-of-the art developments in nuclear medicine instrumentation. Future prospects will also be discussed. (orig.)

The future of nuclear medicine; El futuro de la medicina nuclear

Energy Technology Data Exchange (ETDEWEB)

Carrera, J. L.

2003-07-01

Nuclear Medicine (NM) is dedicated to medical applications of molecules labeled with radionuclides. The NM diagnostic images can surpass or complement other diagnostic imaging techniques in some clinical situations. The clinical usefulness of Positron Emission Tomography is more and more evident, especially in Oncology. PET-TAC and PET{sub N}MR hybrid images after new chances in diagnosis and Radiotherapy planning and new relations between the radiological specialties. Radio guided surgery and radionuclide therapy are other development techniques of the NM. (Author) 11 refs.

Introduction of nuclear medicine research in Japan

Energy Technology Data Exchange (ETDEWEB)

Inubushi, Masayuki [Kawasaki Medical School, Division of Nuclear Medicine, Department of Radiology, Kurashiki, Okayama (Japan); Higashi, Tatsuya [National Institutes of Quantum and Radiological Science and Technology, National Institute of Radiological Sciences, Chiba, Chiba (Japan); Kuji, Ichiei [Saitama Medical University International Medical Center, Department of Nuclear Medicine, Hidaka-shi, Saitama (Japan); Sakamoto, Setsu [Dokkyo University School of Medicine, PET Center, Mibu, Tochigi (Japan); Tashiro, Manabu [Tohoku University, Division of Cyclotron Nuclear Medicine, Cyclotron and Radioisotope Center, Sendai, Miyagi (Japan); Momose, Mitsuru [Tokyo Women' s Medical University, Department of Diagnostic Imaging and Nuclear Medicine, Tokyo (Japan)

2016-12-15

There were many interesting presentations of unique studies at the Annual Meeting of the Japanese Society of Nuclear Medicine, although there were fewer attendees from Europe than expected. These presentations included research on diseases that are more frequent in Japan and Asia than in Europe, synthesis of original radiopharmaceuticals, and development of imaging devices and methods with novel ideas especially by Japanese manufacturers. In this review, we introduce recent nuclear medicine research conducted in Japan in the five categories of Oncology, Neurology, Cardiology, Radiopharmaceuticals and Technology. It is our hope that this article will encourage the participation of researchers from all over the world, in particular from Europe, in scientific meetings on nuclear medicine held in Japan. (orig.)

Regulation and quality in nuclear medicine 2 october 1998

International Nuclear Information System (INIS)

Kouchner, B.; Huriet, C.; Le Deaut, J.Y.

1999-01-01

The aim of this meeting is to examine how the regulations are liable to decrease the patient taking charge. The problem of the public information and opinion in the nuclear medicine domain is also presented. The nineteen presentations are proposed in 2 sessions. The first one deals with the state of the art of the nuclear medicine in France (techniques and regulations). The second one deals with the environment of the nuclear medicine (irradiation limits, public opinion, doctors and medicine quality). (A.L.B.)

Application for internal dosimetry using biokinetic distribution of photons based on nuclear medicine images*

Science.gov (United States)

Leal Neto, Viriato; Vieira, José Wilson; Lima, Fernando Roberto de Andrade

2014-01-01

Objective This article presents a way to obtain estimates of dose in patients submitted to radiotherapy with basis on the analysis of regions of interest on nuclear medicine images. Materials and Methods A software called DoRadIo (Dosimetria das Radiações Ionizantes [Ionizing Radiation Dosimetry]) was developed to receive information about source organs and target organs, generating graphical and numerical results. The nuclear medicine images utilized in the present study were obtained from catalogs provided by medical physicists. The simulations were performed with computational exposure models consisting of voxel phantoms coupled with the Monte Carlo EGSnrc code. The software was developed with the Microsoft Visual Studio 2010 Service Pack and the project template Windows Presentation Foundation for C# programming language. Results With the mentioned tools, the authors obtained the file for optimization of Monte Carlo simulations using the EGSnrc; organization and compaction of dosimetry results with all radioactive sources; selection of regions of interest; evaluation of grayscale intensity in regions of interest; the file of weighted sources; and, finally, all the charts and numerical results. Conclusion The user interface may be adapted for use in clinical nuclear medicine as a computer-aided tool to estimate the administered activity. PMID:25741101

Application for internal dosimetry using biokinetic distribution of photons based on nuclear medicine images

International Nuclear Information System (INIS)

Leal Neto, Viriato; Vieira, Jose Wilson; Lima, Fernando Roberto de Andrade

2014-01-01

Objective: this article presents a way to obtain estimates of dose in patients submitted to radiotherapy with basis on the analysis of regions of interest on nuclear medicine images. Materials and methods: a software called DoRadIo (Dosimetria das Radiacoes Ionizantes [Ionizing Radiation Dosimetry]) was developed to receive information about source organs and target organs, generating graphical and numerical results. The nuclear medicine images utilized in the present study were obtained from catalogs provided by medical physicists. The simulations were performed with computational exposure models consisting of voxel phantoms coupled with the Monte Carlo EGSnrc code. The software was developed with the Microsoft Visual Studio 2010 Service Pack and the project template Windows Presentation Foundation for C ⧣ programming language. Results: with the mentioned tools, the authors obtained the file for optimization of Monte Carlo simulations using the EGSnrc; organization and compaction of dosimetry results with all radioactive sources; selection of regions of interest; evaluation of grayscale intensity in regions of interest; the file of weighted sources; and, finally, all the charts and numerical results. Conclusion: the user interface may be adapted for use in clinical nuclear medicine as a computer-aided tool to estimate the administered activity. (author)

Application for internal dosimetry using biokinetic distribution of photons based on nuclear medicine images

Energy Technology Data Exchange (ETDEWEB)

Leal Neto, Viriato, E-mail: viriatoleal@yahoo.com.br [Instituto Federal de Educacao, Ciencia e Tecnologia de Pernambuco (IFPE), Recife, PE (Brazil); Vieira, Jose Wilson [Universidade Federal de Pernambuco (UPE), Recife, PE (Brazil); Lima, Fernando Roberto de Andrade [Centro Regional de Ciencias Nucleares (CRCN-NE/CNEN-PE), Recife, PE (Brazil)

2014-09-15

Objective: this article presents a way to obtain estimates of dose in patients submitted to radiotherapy with basis on the analysis of regions of interest on nuclear medicine images. Materials and methods: a software called DoRadIo (Dosimetria das Radiacoes Ionizantes [Ionizing Radiation Dosimetry]) was developed to receive information about source organs and target organs, generating graphical and numerical results. The nuclear medicine images utilized in the present study were obtained from catalogs provided by medical physicists. The simulations were performed with computational exposure models consisting of voxel phantoms coupled with the Monte Carlo EGSnrc code. The software was developed with the Microsoft Visual Studio 2010 Service Pack and the project template Windows Presentation Foundation for C ⧣ programming language. Results: with the mentioned tools, the authors obtained the file for optimization of Monte Carlo simulations using the EGSnrc; organization and compaction of dosimetry results with all radioactive sources; selection of regions of interest; evaluation of grayscale intensity in regions of interest; the file of weighted sources; and, finally, all the charts and numerical results. Conclusion: the user interface may be adapted for use in clinical nuclear medicine as a computer-aided tool to estimate the administered activity. (author)

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... the procedure? How does the nuclear medicine procedure work? What does the equipment look like? How is the procedure performed? What will my child experience during and after the procedure? How should ...

In vivo diagnostic nuclear medicine. Pediatric experience

International Nuclear Information System (INIS)

Goetz, W.A.; Hendee, W.R.; Gilday, D.L.

1983-01-01

The use of radiopharmaceuticals for diagnostic tests in children is increasing and interest in these is evidenced by the addition of scientific sessions devoted to pediatric medicine at annual meetings of The Society of Nuclear Medicine and by the increase in the literature on pediatric dosimetry. Data presented in this paper describe the actual pediatric nuclear medicine experience from 26 nationally representative U.S. hospitals and provide an overview of the pediatric procedures being performed the types of radiopharmaceuticals being used, and the activity levels being administered

Proceedings of the Eighth Conference of Nuclear Sciences and Applications

International Nuclear Information System (INIS)

2004-02-01

The publication has been set up as a textbook for researching dealing with radioisotope production during work with Human needs of Nuclear Science and applications. The book consists of the following chapters: chemistry; radioisotope production, trace analysis; environment monitoring; environmental effect; waste management; physics; reactors; nuclear safety and safeguards; materials; radiation protection ; agriculture; hydrology; nuclear medicine; medical applications; radiation chemistry; environmental studies; biological effects of ionizing radiation on agriculture;

Nuclear Medicine in Pediatric Cardiology.

Science.gov (United States)

Milanesi, Ornella; Stellin, Giovanni; Zucchetta, Pietro

2017-03-01

Accurate cardiovascular imaging is essential for the successful management of patients with congenital heart disease (CHD). Echocardiography and angiography have been for long time the most important imaging modalities in pediatric cardiology, but nuclear medicine has contributed in many situations to the comprehension of physiological consequences of CHD, quantifying pulmonary blood flow symmetry or right-to-left shunting. In recent times, remarkable improvements in imaging equipments, particularly in multidetector computed tomography and magnetic resonance imaging, have led to the progressive integration of high resolution modalities in the clinical workup of children affected by CHD, reducing the role of diagnostic angiography. Technology has seen a parallel evolution in the field of nuclear medicine, with the advent of hybrid machines, as SPECT/CT and PET/CT scanners. Improved detectors, hugely increased computing power, and new reconstruction algorithms allow for a significant reduction of the injected dose, with a parallel relevant decrease in radiation exposure. Nuclear medicine retains its distinctive capability of exploring at the tissue level many functional aspects of CHD in a safe and reproducible way. The lack of invasiveness, the limited need for sedation, the low radiation burden, and the insensitivity to body habitus variations make nuclear medicine an ideal complement of echocardiography. This is particularly true during the follow-up of patients with CHD, whose increasing survival represent a great medical success and a challenge for the health system in the next decades. Metabolic imaging using 18 FDG PET/CT has expanded its role in the management of infection and inflammation in adult patients, particularly in cardiology. The same expansion is observed in pediatric cardiology, with an increasing rate of studies on the use of FDG PET for the evaluation of children with vasculitis, suspected valvular infection or infected prosthetic devices. The

Basic science of nuclear medicine the bare bone essentials

CERN Document Server

Lee, Kai H

2015-01-01

Through concise, straightforward explanations and supporting graphics that bring abstract concepts to life, the new Basic Science of Nuclear Medicine—the Bare Bone Essentials is an ideal tool for nuclear medicine technologist students and nuclear cardiology fellows looking for an introduction to the fundamentals of the physics and technologies of modern day nuclear medicine.

Gamma-ray imaging. Applications in nuclear non-proliferation and homeland security

International Nuclear Information System (INIS)

Vetter, Kai; Mihailescu, Lucian

2010-01-01

This paper provides the motivation and describes implementations of gamma-ray imaging for homeland security applications and more general for national and international nuclear security. As in nuclear medicine and astrophysics, the goal of gamma-ray imaging is the detection and localization of nuclear materials, however, here in a terrestrial environment with distances between nuclear medicine and astrophysics, i.e. in the range of 1-100 meters. Due to the recently increased threat of nuclear terrorism, the detection of illicit nuclear materials and the prevention of nuclear proliferation through the development of advanced gamma-ray imaging concepts and technologies has become and active research field. (author)

Asian School of Nuclear Medicine

International Nuclear Information System (INIS)

Sundram, Felix X.

2004-01-01

The Asian School of Nuclear Medicine (ASNM) was formed in February 2003, with the ARCCNM as the parent body. Aims of ASNM: 1. To foster Education in Nuclear Medicine among the Asian countries, particularly the less developed ones. 2. To promote training of Nuclear Medicine Physicians in cooperation with government agencies, IAEA and universities and societies. 3. To assist in national and regional training courses, award continuing medical education (CME) points and provide regional experts for advanced educational programmes. 4. To work towards awarding of diplomas or degrees in association with recognized universities by distance learning and practical attachments, with examinations. The ASNM works toward a formal training courses leading to the award of a certificate in the long term. The most fundamental job of the ASNM remains the transfer of knowledge from the more developed countries to the less developed ones in the Asian region. The ASNM could award credit hours to the participants of training courses conducted in the various countries and conduct electronic courses and examinations. CME programmes may also be conducted as part of the regular ARCCNM meetings and the ASNM will award CME credit points for such activities

Diagnostic interventions in nuclear medicine

International Nuclear Information System (INIS)

Thrall, J.H.; Swanson, D.P.

1989-01-01

Diagnostic interventions in nuclear medicine may be defined as the coadministration of a nonradioactive drug or application of a physical stimulus or physiologic maneuver to enhance the diagnostic utility of a nuclear medicine test. The rationale for each interventional maneuver follows from the physiology or metabolism of the particular organ or organ system under evaluation. Diagnostic inference is drawn from the pattern of change in the biodistribution of the tracer in response to the intervention-induced change in metabolism or function. In current practice, the most commonly performed interventional maneuvers are aimed at studies of the heart, genitourinary system, hepatobiliary system, and gastrointestinal tract. The single most commonly performed interventional study in the United States is the stress Thallium-201 myocardial perfusion scan aimed at the diagnosis of coronary artery disease. The stress portion of the study is accomplished with dynamic leg exercise on a treadmill and is aimed at increasing myocardial oxygen demands. Areas of myocardium distal to hemodynamically significant lesions in the coronary arteries become ischemic at peak stress due to the inability of the stenotic vessel to respond to the oxygen demand/blood flow needs of the myocardium. Ischemic areas are readily recognized as photopenic defects on scans obtained immediately after exercise, with normalization upon delayed imaging. Diuresis renography is aimed at the differential diagnosis of hydroureteronephrosis. By challenging the urinary tract collecting structures with an augmented urine flow, dilated, unobstructed systems can be differentiated from systems with significant mechanical obstruction. 137 references

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available Toggle navigation Test/Treatment Patient Type Screening/Wellness Disease/Condition Safety En Español More Info Images/Videos About Us News Physician Resources Professions Site Index A-Z Children's (Pediatric) Nuclear Medicine ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... kidneys and bladder. bones. liver and gallbladder. gastrointestinal tract. heart. lungs. brain. thyroid. Nuclear medicine scans are typically used to help diagnose and evaluate: urinary blockage in the kidney. backflow of urine from ...

Tomography in nuclear medicine

International Nuclear Information System (INIS)

Levi de Cabrejas, Mariana

1999-01-01

This book is a contribution to the training and diffusion of the tomography method image diagnosis in nuclear medicine, which principal purpose is the information to professionals and technical personnel, specially for the spanish speaking staff

Nuclear Medicine Imaging in Pediatric Infection or Chronic Inflammatory Diseases

NARCIS (Netherlands)

Signore, Alberto; Glaudemans, Andor W. J. M.; Gheysens, Olivier; Lauri, Chiara; Catalano, Onofrio A.

In this review article, we focus on the most recent applications of nuclear medicine techniques (mainly (99m)Tc/(111)In white blood cells (WBC) scan, [(18)F]-FDG-PET/CT, [(18)F]-FDG-PET/MRI, and (99m)Tc-IL-2 scintigraphy) in the study of children affected by peripheral bone osteomyelitis, fungal

Training in nuclear medicine: Based on the recommendations of IAEA/WHO Seminar, 8-12 August 1988, Vienna, Austria

International Nuclear Information System (INIS)

1992-01-01

Nuclear Medicine is defined as a clinical specialty that utilizes the radionuclides for diagnosis, therapy and medical research. The radionuclides are used as unsealed sources of radioactivity. The diagnostic applications include both in vivo and in vitro uses of radioisotopes. There is hardly any medical research which does not use radioactive compounds. Only clinical research is considered within the purview of nuclear medicine. The Recommendations of IAEA/WHO seminar reviewed the needs of training in nuclear medicine mainly for the physicians with special emphasis on the needs of the developing countries

Training in nuclear medicine: Based on the recommendations of IAEA/WHO Seminar, 8-12 August 1988, Vienna, Austria

Energy Technology Data Exchange (ETDEWEB)

NONE

1993-12-31

Nuclear Medicine is defined as a clinical specialty that utilizes the radionuclides for diagnosis, therapy and medical research. The radionuclides are used as unsealed sources of radioactivity. The diagnostic applications include both in vivo and in vitro uses of radioisotopes. There is hardly any medical research which does not use radioactive compounds. Only clinical research is considered within the purview of nuclear medicine. The Recommendations of IAEA/WHO seminar reviewed the needs of training in nuclear medicine mainly for the physicians with special emphasis on the needs of the developing countries

Molecular methods in nuclear medicine therapy

International Nuclear Information System (INIS)

Lee, Kyung Han

2001-01-01

Nuclear medicine has traditionally contributed to molecular oncology by allowing noninvasive monitoring of tumor metabolism, growth and genetic changes, thereby providing a basis for appropriate biology-based treatment planning. However, NM techniques are now being applied as an active therapeutic tool in novel molecular approaches for cancer treatment. Such areas include research on cancer therapy with radiolabeled ligands or oligonucleotides, and utilization of synergism between NM radiotherapy and gene transfer techniques. Here we will focus on novel aspects of nuclear medicine therapy

Czechoslovak nuclear medicine, development and present state

Energy Technology Data Exchange (ETDEWEB)

Hupka, S [Ustav Klinickej Onkologie, Bratislava (Czechoslovakia)

1981-01-01

The growth is described of nuclear medicine departments and units in Czechoslovakia in the past 25 years of the existence of the Czechoslovak Society for Nuclear Medicine and Radiation Hygiene, the numbers of personnel and their qualifications. While only three nuclear medicine units were involved in the use of radioisotopes for diagnostic and therapeutic purposes in the 1950's, 29 specialized departments and 15 laboratories are now in existence with a staff of 299 medical doctors and other university graduates and 365 technicians and nurses. They operate all possible instruments, from simple detector devices via gamma cameras to computer tomographs. Briefly, the involvement of the Society is described in coordinated research programs, both with institutions in the country and with the other CMEA countries and IAEA.

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... leaving the nuclear medicine facility. Through the natural process of radioactive decay, the small amount of radiotracer ... possible charges you will incur. Web page review process: This Web page is reviewed regularly by a ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... diagnoses. In addition, manufacturers are now making single photon emission computed tomography/computed tomography (SPECT/CT) and ... nuclear medicine include the gamma camera and single-photon emission-computed tomography (SPECT). The gamma camera, also ...

Children's (Pediatric) Nuclear Medicine

Medline Plus

Full Text Available ... top of page What are the benefits vs. risks? Benefits The information provided by nuclear medicine examinations ... diagnosis or to determine appropriate treatment, if any. Risks Because the doses of radiotracer administered are small, ...