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Sample records for brain injury ibi

  1. What neuroimaging should be performed in children in whom inflicted brain injury (iBI) is suspected? A systematic review

    International Nuclear Information System (INIS)

    Aims: To investigate the optimal neuroradiological investigation strategy to identify inflicted brain injury (iBI). Materials and methods: A systematic review of studies published between 1970-2008 in any language was conducted, searching 20 databases and four websites, using over 100 keywords/phrases, supplemented by hand-searching of references. All studies underwent two independent reviews (with disagreements adjudicated by a third reviewer) by trained reviewers from paediatrics, paediatric neuroradiology and related disciplines, using standardized critical appraisal tools, and strict inclusion/exclusion criteria. We included primary studies that evaluated the diagnostic yield of magnetic resonance imaging (MRI), in addition to initial computed tomography (CT), or follow-up CT or ultrasound in children with suspected iBI. Results: Of the 320 studies reviewed, 18 met the inclusion criteria, reflecting data on 367 children with iBI and 12 were published since 1998. When an MRI was conducted in addition to an abnormal early CT examination, additional information was found in 25% (95% CI: 18.3-33.16%) of children. The additional findings included further subdural haematoma, subarachnoid haemorrhage, shearing injury, ischaemia, and infarction; it also contributed to dating of injuries. Diffusion-weighted imaging (DWI) further enhanced the delineation of ischaemic changes, and assisted in prognosis. Repeat CT studies varied in timing and quality, and none were compared to the addition of an early MRI/DWI. Conclusions: In an acutely ill child, the optimal imaging strategy involves initial CT, followed by early MRI and DWI if early CT examination is abnormal, or there are ongoing clinical concerns. The role of repeat CT imaging, if early MRI is performed, is unclear, as is the place for MRI/DWI if initial CT examination is normal in an otherwise well child.

  2. What neuroimaging should be performed in children in whom inflicted brain injury (iBI) is suspected? A systematic review

    Energy Technology Data Exchange (ETDEWEB)

    Kemp, A.M. [Department of Child Health, Wales School of Medicine, Cardiff University, Cardiff (United Kingdom); Rajaram, S. [Department of Child Health, Sue Nicholls Centre, Aylesbury (United Kingdom); Mann, M. [Support Unit for Research Evidence, Cardiff University, Cardiff (United Kingdom); Tempest, V. [Department of Child Health, Wales School of Medicine, Cardiff University, Cardiff (United Kingdom); Farewell, D. [Department of Primary Care and Public Health, Cardiff University, Cardiff (United Kingdom); Gawne-Cain, M.L. [Department of Neuroradiology, Wessex Neurological Centre, Southampton University Hospitals Trust (United Kingdom); Jaspan, T. [Imaging Centre, University Hospital, Nottingham (United Kingdom); Maguire, S. [Department of Child Health, Wales School of Medicine, Cardiff University, Cardiff (United Kingdom)], E-mail: sabinemaguire@yahoo.co.uk

    2009-05-15

    Aims: To investigate the optimal neuroradiological investigation strategy to identify inflicted brain injury (iBI). Materials and methods: A systematic review of studies published between 1970-2008 in any language was conducted, searching 20 databases and four websites, using over 100 keywords/phrases, supplemented by hand-searching of references. All studies underwent two independent reviews (with disagreements adjudicated by a third reviewer) by trained reviewers from paediatrics, paediatric neuroradiology and related disciplines, using standardized critical appraisal tools, and strict inclusion/exclusion criteria. We included primary studies that evaluated the diagnostic yield of magnetic resonance imaging (MRI), in addition to initial computed tomography (CT), or follow-up CT or ultrasound in children with suspected iBI. Results: Of the 320 studies reviewed, 18 met the inclusion criteria, reflecting data on 367 children with iBI and 12 were published since 1998. When an MRI was conducted in addition to an abnormal early CT examination, additional information was found in 25% (95% CI: 18.3-33.16%) of children. The additional findings included further subdural haematoma, subarachnoid haemorrhage, shearing injury, ischaemia, and infarction; it also contributed to dating of injuries. Diffusion-weighted imaging (DWI) further enhanced the delineation of ischaemic changes, and assisted in prognosis. Repeat CT studies varied in timing and quality, and none were compared to the addition of an early MRI/DWI. Conclusions: In an acutely ill child, the optimal imaging strategy involves initial CT, followed by early MRI and DWI if early CT examination is abnormal, or there are ongoing clinical concerns. The role of repeat CT imaging, if early MRI is performed, is unclear, as is the place for MRI/DWI if initial CT examination is normal in an otherwise well child.

  3. Traumatic Brain Injury

    Science.gov (United States)

    Traumatic brain injury (TBI) happens when a bump, blow, jolt, or other head injury causes damage to the brain. Every year, millions of people in the U.S. suffer brain injuries. More than half are bad enough that ...

  4. Traumatic Brain Injury

    Science.gov (United States)

    Traumatic brain injury (TBI) happens when a bump, blow, jolt, or other head injury causes damage to the brain. Every year, millions of people in the U.S. suffer brain injuries. More than half are bad enough that people ...

  5. Neuropathophysiology of Brain Injury.

    Science.gov (United States)

    Quillinan, Nidia; Herson, Paco S; Traystman, Richard J

    2016-09-01

    Every year in the United States, millions of individuals incur ischemic brain injury from stroke, cardiac arrest, or traumatic brain injury. These acquired brain injuries can lead to death or long-term neurologic and neuropsychological impairments. The mechanisms of ischemic and traumatic brain injury that lead to these deficiencies result from a complex interplay of interdependent molecular pathways, including excitotoxicity, acidotoxicity, ionic imbalance, oxidative stress, inflammation, and apoptosis. This article reviews several mechanisms of brain injury and discusses recent developments. Although much is known from animal models of injury, it has been difficult to translate these effects to humans. PMID:27521191

  6. SECONDARY BRAIN INJURY

    OpenAIRE

    Ida Ayu Basmatika

    2013-01-01

    Secondary brain injury is a condision that occurs at some times after the primary impact and can be largely prevented and treated. Most brain injury ends with deadly consequences which is caused by secondary damage to the brain. Traumatic brain injured still represents the leading cause of morbidity and mortality in individuals under the age of 45 years in the world. The classification of secondary brain injured is divided into extracranial and intracranial causes. The cause of extracranial s...

  7. Severe Traumatic Brain Injury

    Science.gov (United States)

    ... inflicted traumatic brain injury (ITBI), is a leading cause of child maltreatment deaths in the United States. Meeting the ... Awareness Additional Prevention Resources Childhood Injuries Concussion in Children and Teens Injuries from Violence Injuries from Motor Vehicle Crashes Teen Driver Safety ...

  8. Mild traumatic brain injury.

    NARCIS (Netherlands)

    Vos, P.E.; Alekseenko, Y.; Battistin, L.; Ehler, E.; Gerstenbrand, F.; Muresanu, D.F.; Potapov, A.; Stepan, C.A.; Traubner, P.; Vecsei, L.; Wild, K. von

    2012-01-01

    Traumatic Brain Injury (TBI) is among the most frequent neurological disorders. Of all TBIs 90% are considered mild with an annual incidence of 100-300/100.000. Intracranial complications of Mild Traumatic Brain Injury (MTBI) are infrequent (10%), requiring neurosurgical intervention in a minority o

  9. SECONDARY BRAIN INJURY

    Directory of Open Access Journals (Sweden)

    Ida Ayu Basmatika

    2013-03-01

    Full Text Available Secondary brain injury is a condision that occurs at some times after the primary impact and can be largely prevented and treated. Most brain injury ends with deadly consequences which is caused by secondary damage to the brain. Traumatic brain injured still represents the leading cause of morbidity and mortality in individuals under the age of 45 years in the world. The classification of secondary brain injured is divided into extracranial and intracranial causes. The cause of extracranial such as hipoxia, hypotensi, hyponatremia, hypertermia, hypoglycemia or hyperglycemia. The cause of intracranial such as extradural, subdural, intraserebral, intraventrikular, dan subarachnoid hemorrhage. Beside that secondary injury can also be caused by edema and infection. Post-traumatic cerebral injured is characterized by direct tissue damage, impaired regulation of cerebral blood flow (cerebral blood flow / CBF, and disruption of metabolism. Manifestations of secondary brain injured include increased intracranial pressure, ischemic brain damage, cerebral hypoxia and hypercarbi, as well as disruption of cerebral autoregulation. The first priority is to stabilize the patient's cervical spine injury, relieve and maintain airway, ensure adequate ventilation (breathing, and making venous access for fluid resuscitation pathways (circulation and assessing the level of awareness and disability. This steps is crucial in patients with head injured to prevent hypoxia and hypotension, which is the main cause of secondary brain injury.

  10. Brain injury - discharge

    Science.gov (United States)

    ... 5, 2014. Chuang K, Stroud, NL, Zafonte R. Rehabilitation of patients with traumatic brain injury. In: Winn HR, ed. Youman's Neurological Surgery . 6th ed. Philadelphia, PA: Elsevier Saunders; 2011: ...

  11. Pediatric Traumatic Brain Injury.

    Science.gov (United States)

    Schaller, Alexandra L; Lakhani, Saquib A; Hsu, Benson S

    2015-10-01

    The purpose of this article is to provide a better understanding of pediatric traumatic brain injury and its management. Within the pediatric age group, ages 1 to 19, injuries are the number one cause of death with traumatic brain injury being involved in almost 50 percent of these cases. This, along with the fact that the medical system spends over $1 billion annually on pediatric traumatic brain injury, makes this issue both timely and relevant to health care providers. Over the course of this article the epidemiology, physiology, pathophysiology, and treatment of pediatric traumatic brain injury will be explored. Emphasis will be placed on the role of the early responder and the immediate interventions that should be considered and/or performed. The management discussed in this article follows the most recent recommendations from the 2012 edition of the Guidelines for the Acute Medical Management of Severe Traumatic Brain Injury in Infants, Children, and Adolescents. Despite the focus of this article, it is important not to lose sight of the fact that an ounce of prevention is worth a pound--or, to be more precise and use the average human's brain measurements, just above three pounds--of cure. PMID:26630835

  12. Hysteria following brain injury.

    OpenAIRE

    Eames, P

    1992-01-01

    Of 167 patients referred to a unit treating severe behaviour disorders after brain injury, 54 showed clinical features closely resembling those of gross hysteria as described by Charcot. Close correlation was found with very diffuse insults (hypoxia and hypoglycaemia), but not with severity of injury or with family or personal history of hysterical or other psychiatric disorder. The findings may have implications for the understanding of the nature of hysteria.

  13. TRAUMATIC BRAIN INJURY (TBI) DATABASE

    Science.gov (United States)

    The Traumatic Brain Injury National Data Center (TBINDC) at Kessler Medical Rehabilitation Research and Education Center is the coordinating center for the research and dissemination efforts of the Traumatic Brain Injury Model Systems (TBIMS) program funded by the National Instit...

  14. Radiation Injury to the Brain

    Science.gov (United States)

    ... Hits since January 2003 RADIATION INJURY TO THE BRAIN Radiation treatments affect all cells that are targeted. ... fractions, duration of therapy, and volume of [healthy brain] nervous tissue irradiated influence the likelihood of injury. ...

  15. Traumatic Brain Injury (TBI)

    Science.gov (United States)

    ... A. (2008). Mild traumatic brain injury in U.S. soldiers returning from Iraq. New England Journal of Medicine, 358, 453–463. ... and Spotlights U.S. hospitals miss followup for suspected child abuse Q&A with NICHD Acting Director Catherine ...

  16. Brain Injury Association of America

    Science.gov (United States)

    ... Only) 1-800-444-6443 Welcome to the Brain Injury Association of America (BIAA) Brain injury is not an event or an outcome. ... misunderstood, under-funded neurological disease. People who sustain brain injuries must have timely access to expert trauma ...

  17. PERSONALITY CHANGES IN BRAIN INJURY

    OpenAIRE

    Garcia, Patricia Gracia; Mielke, Michelle M.; Rosenberg, Paul; Bergey, Alyssa; Rao, Vani

    2011-01-01

    Traumatic brain injury (TBI) is frequently complicated by alterations in mood and behaviour and changes in personality. We report mild personality changes post-TBI as a possible indicator of traumatic brain injury, but not of injury severity or psychiatric complications.

  18. NONINVASIVE BRAIN STIMULATION IN TRAUMATIC BRAIN INJURY

    OpenAIRE

    Demirtas-Tatlidede, Asli; Vahabzadeh-Hagh, Andrew M.; Bernabeu, Montserrat; Tormos, Jose M.; Pascual-Leone, Alvaro

    2012-01-01

    Brain stimulation techniques have evolved in the last few decades with more novel methods capable of painless, noninvasive brain stimulation. While the number of clinical trials employing noninvasive brain stimulation continues to increase in a variety of medication-resistant neurological and psychiatric diseases, studies evaluating their diagnostic and therapeutic potential in traumatic brain injury (TBI) are largely lacking. This review introduces different techniques of noninvasive brain s...

  19. Evaluation after Traumatic Brain Injury

    Science.gov (United States)

    Trudel, Tina M.; Halper, James; Pines, Hayley; Cancro, Lorraine

    2010-01-01

    It is important to determine if a traumatic brain injury (TBI) has occurred when an individual is assessed in a hospital emergency room after a car accident, fall, or other injury that affects the head. This determination influences decisions about treatment. It is essential to screen for the injury, because the sooner they begin appropriate…

  20. Controversies in preterm brain injury.

    Science.gov (United States)

    Penn, Anna A; Gressens, Pierre; Fleiss, Bobbi; Back, Stephen A; Gallo, Vittorio

    2016-08-01

    In this review, we highlight critical unresolved questions in the etiology and mechanisms causing preterm brain injury. Involvement of neurons, glia, endogenous factors and exogenous exposures is considered. The structural and functional correlates of interrupted development and injury in the premature brain are under active investigation, with the hope that the cellular and molecular mechanisms underlying developmental abnormalities in the human preterm brain can be understood, prevented or repaired. PMID:26477300

  1. Traumatic Brain Injury (TBI): Moderate or Severe

    Science.gov (United States)

    Traumatic Brain Injury (TBI) Moderate or Severe Definition A TBI is classified as moderate or severe when a patient experiences ... skull and enters the brain Defense and Veterans Brain Injury Center PATFIAE MN TI LSI ES Traumatic Brain ...

  2. Traumatic Brain Injury Registry (TBI)

    Data.gov (United States)

    Department of Veterans Affairs — As the number of Operation Enduring Freedom/Operation Iraqi Freedom (OEF/OIF) Traumatic Brain Injury (TBI) patients has grown, so has the need to track and monitor...

  3. Traumatic Brain Injury (TBI) Data and Statistics

    Science.gov (United States)

    ... Submit Search The CDC Injury Prevention & Control: Traumatic Brain Injury & Concussion Note: Javascript is disabled or is not ... please visit this page: About CDC.gov . Traumatic Brain Injury & Concussion Basic Information Get the Facts Signs and ...

  4. Pediatric minor traumatic brain injury.

    Science.gov (United States)

    Gordon, Kevin E

    2006-12-01

    The literature surrounding minor traumatic brain injury is complex, methodologically challenging, and controversial. Although we lack a consistent standardized definition, the annual rate is likely in excess of 200 per 100,000 children. The proportion of children with minor traumatic brain injury who will require neurosurgery is certainly return to play is currently recommended. The recurrence risk for subsequent concussions is elevated, but there is limited documentation of the effectiveness of preventative efforts. Much remains to be learned. PMID:17178354

  5. Sleep in traumatic brain injury.

    Science.gov (United States)

    Vermaelen, James; Greiffenstein, Patrick; deBoisblanc, Bennett P

    2015-07-01

    More than one-half million patients are hospitalized annually for traumatic brain injury (TBI). One-quarter demonstrate sleep-disordered breathing, up to 50% experience insomnia, and half have hypersomnia. Sleep disturbances after TBI may result from injury to sleep-regulating brain tissue, nonspecific neurohormonal responses to systemic injury, ICU environmental interference, and medication side effects. A diagnosis of sleep disturbances requires a high index of suspicion and appropriate testing. Treatment starts with a focus on making the ICU environment conducive to normal sleep. Treating sleep-disordered breathing likely has outcome benefits in TBI. The use of sleep promoting sedative-hypnotics and anxiolytics should be judicious. PMID:26118920

  6. Traumatic Brain Injury Inpatient Rehabilitation

    Science.gov (United States)

    Im, Brian; Schrer, Marcia J.; Gaeta, Raphael; Elias, Eileen

    2010-01-01

    Traumatic brain injuries (TBI) can cause multiple medical and functional problems. As the brain is involved in regulating nearly every bodily function, a TBI can affect any part of the body and aspect of cognitive, behavioral, and physical functioning. However, TBI affects each individual differently. Optimal management requires understanding the…

  7. Brain Temperature: Physiology and Pathophysiology after Brain Injury

    OpenAIRE

    Ségolène Mrozek; Fanny Vardon; Thomas Geeraerts

    2012-01-01

    The regulation of brain temperature is largely dependent on the metabolic activity of brain tissue and remains complex. In intensive care clinical practice, the continuous monitoring of core temperature in patients with brain injury is currently highly recommended. After major brain injury, brain temperature is often higher than and can vary independently of systemic temperature. It has been shown that in cases of brain injury, the brain is extremely sensitive and vulnerable to small variatio...

  8. Traumatic brain injury-induced sleep disorders.

    Science.gov (United States)

    Viola-Saltzman, Mari; Musleh, Camelia

    2016-01-01

    Sleep disturbances are frequently identified following traumatic brain injury, affecting 30%-70% of persons, and often occur after mild head injury. Insomnia, fatigue, and sleepiness are the most frequent sleep complaints after traumatic brain injury. Sleep apnea, narcolepsy, periodic limb movement disorder, and parasomnias may also occur after a head injury. In addition, depression, anxiety, and pain are common brain injury comorbidities with significant influence on sleep quality. Two types of traumatic brain injury that may negatively impact sleep are acceleration/deceleration injuries causing generalized brain damage and contact injuries causing focal brain damage. Polysomnography, multiple sleep latency testing, and/or actigraphy may be utilized to diagnose sleep disorders after a head injury. Depending on the disorder, treatment may include the use of medications, positive airway pressure, and/or behavioral modifications. Unfortunately, the treatment of sleep disorders associated with traumatic brain injury may not improve neuropsychological function or sleepiness. PMID:26929626

  9. Brain injury - discharge

    Science.gov (United States)

    ... injuries do not happen. This includes making the bathroom safe, for either a child or an adult , and protecting against falls . Family and caregivers may need to help the person with the following: Exercising ...

  10. Neurobiology of premature brain injury

    OpenAIRE

    Salmaso, Natalina; Jablonska, Beata; Scafidi, Joseph; Vaccarino, Flora M.; Gallo, Vittorio

    2014-01-01

    Every year in the United States, an estimated 500,000 babies are born preterm (before 37 completed weeks of gestation), and this number is rising, along with the recognition of brain injuries due to preterm delivery. A common underlying pathogenesis appears to be perinatal hypoxia induced by immature lung development, which causes injury to vulnerable neurons and glia. Abnormal growth and maturation of susceptible cell types, particularly neurons and oligodendrocytes, in preterm babies with v...

  11. Brain injury requires lung protection

    OpenAIRE

    Lopez-Aguilar, Josefina; Blanch, Lluis

    2015-01-01

    The paper entitled “The high-mobility group protein B1-Receptor for advanced glycation endproducts (HMGB1-RAGE) axis mediates traumatic brain injury (TBI)-induced pulmonary dysfunction in lung transplantation” published recently in Science Translational Medicine links lung failure after transplantation with alterations in the axis HMGB1-RAGE after TBI, opening a new field for exploring indicators for the early detection of patients at risk of developing acute lung injury (ALI). The lung is on...

  12. Missile injuries of the brain

    International Nuclear Information System (INIS)

    Data was analyzed relating to a consecutive series of 16 patients of penetrating brain injuries received at forward defense lines. Characteristics studied were the cause of injury, level of consciousness and various neurological deficits presented on initial examination, CT scan findings, the surgical procedures performed and the final outcome after one year of follow-up. One out of 16 patients, died due to severe associated injuries to abdominal viscera and major vessels. Meningitis occurred in one patient during the immediate postoperative period. All patients with motor weakness speech deficits and incontinence showed significant improvement. Hearing loss of one ear persisted in one patient. Two patients developed delayed onset seizures. It is concluded that, patients with penetrating brain injuries should be evacuated to the tertiary care neurosurgical centres as soon as possible. In operation only obviously necrotic brain and easily accessible metal and bone pieces should be removed. There is no need to explore the normal brain as it would only result in increased neurological deficits. The patients with such injuries should receive broad-spectrum antibiotics to prevent the infective complications. (author)

  13. Brain Injury Safety Tips and Prevention

    Science.gov (United States)

    ... this? Submit Button Brain Injury Safety Tips and Prevention Recommend on Facebook Tweet Share Compartir There are ... More HEADS UP Video: Brain Injury Safety and Prevention frame support disabled and/or not supported in ...

  14. Family needs after brain injury

    DEFF Research Database (Denmark)

    Norup, Anne; Perrin, Paul B; Cuberos-Urbano, Gustavo;

    2015-01-01

    OBJECTIVE: The objective of this study was to explore differences by country in the importance of family needs after traumatic brain injury (TBI), as well as differences in met/unmet needs. METHOD: Two hundred and seventy-one family members of an individual with TBI in Mexico, Colombia, Spain...

  15. Hypopituitarism in Traumatic Brain Injury

    DEFF Research Database (Denmark)

    Klose, Marianne; Feldt-Rasmussen, Ulla

    2015-01-01

    While hypopituitarism after traumatic brain injury (TBI) was previously considered rare, it is now thought to be a major cause of treatable morbidity among TBI survivors. Consequently, recommendations for assessment of pituitary function and replacement in TBI were recently introduced. Given the...

  16. Knowledge of Traumatic Brain Injury among Educators

    Science.gov (United States)

    Ernst, William J.; Gallo, Adrienne B.; Sellers, Amanda L.; Mulrine, Jessica; MacNamara, Luciana; Abrahamson, Allison; Kneavel, Meredith

    2016-01-01

    The purpose of this study is to determine knowledge of traumatic brain injury among educators. Few studies have examined knowledge of traumatic brain injury in this population and fewer still have included a substantial proportion of general education teachers. Examining knowledge of traumatic brain injury in educators is important as the vast…

  17. Assessment of Students with Traumatic Brain Injury

    Science.gov (United States)

    Chesire, David J.; Buckley, Valerie A.; Canto, Angela I.

    2011-01-01

    The incidence of brain injuries, as well as their impact on individuals who sustain them, has received growing attention from American media in recent years. This attention is likely the result of high profile individuals suffering brain injuries. Greater public awareness of traumatic brain injuries (TBIs) has also been promoted by sources such as…

  18. Preconditioning for traumatic brain injury

    Science.gov (United States)

    Yokobori, Shoji; Mazzeo, Anna T; Hosein, Khadil; Gajavelli, Shyam; Dietrich, W. Dalton; Bullock, M. Ross

    2016-01-01

    Traumatic brain injury (TBI) treatment is now focused on the prevention of primary injury and reduction of secondary injury. However, no single effective treatment is available as yet for the mitigation of traumatic brain damage in humans. Both chemical and environmental stresses applied before injury, have been shown to induce consequent protection against post-TBI neuronal death. This concept termed “preconditioning” is achieved by exposure to different pre-injury stressors, to achieve the induction of “tolerance” to the effect of the TBI. However, the precise mechanisms underlying this “tolerance” phenomenon are not fully understood in TBI, and therefore even less information is available about possible indications in clinical TBI patients. In this review we will summarize TBI pathophysiology, and discuss existing animal studies demonstrating the efficacy of preconditioning in diffuse and focal type of TBI. We will also review other non-TBI preconditionng studies, including ischemic, environmental, and chemical preconditioning, which maybe relevant to TBI. To date, no clinical studies exist in this field, and we speculate on possible futureclinical situation, in which pre-TBI preconditioning could be considered. PMID:24323189

  19. Traumatic brain injury-induced sleep disorders

    Directory of Open Access Journals (Sweden)

    Viola-Saltzman M

    2016-02-01

    Full Text Available Mari Viola-Saltzman, Camelia Musleh Department of Neurology, NorthShore University HealthSystem, Evanston, IL, USA Abstract: Sleep disturbances are frequently identified following traumatic brain injury, affecting 30%–70% of persons, and often occur after mild head injury. Insomnia, fatigue, and sleepiness are the most frequent sleep complaints after traumatic brain injury. Sleep apnea, narcolepsy, periodic limb movement disorder, and parasomnias may also occur after a head injury. In addition, depression, anxiety, and pain are common brain injury comorbidities with significant influence on sleep quality. Two types of traumatic brain injury that may negatively impact sleep are acceleration/deceleration injuries causing generalized brain damage and contact injuries causing focal brain damage. Polysomnography, multiple sleep latency testing, and/or actigraphy may be utilized to diagnose sleep disorders after a head injury. Depending on the disorder, treatment may include the use of medications, positive airway pressure, and/or behavioral modifications. Unfortunately, the treatment of sleep disorders associated with traumatic brain injury may not improve neuropsychological function or sleepiness. Keywords: traumatic brain injury, insomnia, hypersomnia, sleep apnea, periodic limb movement disorder, fatigue

  20. TRAUMATIC BRAIN INJURY SURVEILLANCE SYSTEM (TBISS)

    Science.gov (United States)

    The National Center for Injury Prevention and Control (NCIPC), Centers for Disease Control and Prevention (CDC) had developed and maintains a surveillance system to understand the magnitude and characteristics of hospitalized and fatal traumatic brain injuries in the United State...

  1. How woodpecker avoids brain injury?

    Science.gov (United States)

    Wu, C. W.; Zhu, Z. D.; Zhang, W.

    2015-07-01

    It has long been recognized that woodpecker is an excellent anti-shock organism, as its head and brain can bear high deceleration up to 1500 g under fast pecking. To investigate the mechanism of brain protection of woodpecker, we built a finite element model of a whole woodpecker using computed topography scanning technique and geometry modeling. Numerical results show that the periodical changing Young's modulus around the skull affects the stress wave propagation in head and makes the stress lowest at the position of the brain. Modal analysis reveals the application of pre-tension force to the hyoid bone can increase the natural frequency of woodpecker's head. The large gap between the natural and working frequencies enable the woodpecker to effectively protect its brain from the resonance injury. Energy analyses indicate the majority of the impact energy (99.7%) is stored in the bulk of body and is utilized in the next pecking. There is only a small fraction of it enters into the head (0.3%). The whole body of the woodpecker gets involved in the energy conversion and forms an efficient anti-shock protection system for the brain.

  2. [Mild brain injuries in emergency medicine].

    Science.gov (United States)

    Liimatainen, Suvi; Niskakangas, Tero; Ohman, Juha

    2011-01-01

    Diagnostics and correct classification of mild brain injuries is challenging. Problems caused by insufficient documentation at the acute phase become more obvious in situations in which legal insurance issues are to be considered. A small proportion of patients with mild brain injury suffer from prolonged symptoms. Medical recording and classification of the brain injury at the initial phase should therefore be carried out in a structured manner. The review deals with the diagnostic problems of mild brain injuries and presents a treatment protocol for adult patients at the acute phase, aiming at avoiding prolonged problems. PMID:22238915

  3. Quality of Life Following Brain Injury: Perspectives from Brain Injury Association of America State Affiliates

    Science.gov (United States)

    Degeneffe, Charles Edmund; Tucker, Mark

    2012-01-01

    Objective: to examine the perspectives of brain injury professionals concerning family members' feelings about the quality of life experienced by individuals with brain injuries. Participants: participating in the study were 28 individuals in leadership positions with the state affiliates of the Brain Injury Association of America (BIAA). Methods:…

  4. Brain protection by magnesium ion against radioaction brain injury

    International Nuclear Information System (INIS)

    Radiation brain injury is a serious complication among the radiotherapy of brain tumors. It is demonstrated that the protective action of magnesium ion in the brain injury from some experimental studies recent years, which is the prospective neuro protective agents overall merits. This article is summarized the causes and the variance of magnesium ion in the brain tissue afterwards the radioactive brain injury, additionally the defense mechanism of magnesium ion from the aspects of inflammation reduction, encephaledema alleviation, anti-apoptosis and improvement of nerve function. (authors)

  5. Support Network Responses to Acquired Brain Injury

    Science.gov (United States)

    Chleboun, Steffany; Hux, Karen

    2011-01-01

    Acquired brain injury (ABI) affects social relationships; however, the ways social and support networks change and evolve as a result of brain injury is not well understood. This study explored ways in which survivors of ABI and members of their support networks perceive relationship changes as recovery extends into the long-term stage. Two…

  6. Treatment of very severe brain injuries

    Institute of Scientific and Technical Information of China (English)

    杨振九; 杨佳勇; 冯承宣; 宋伟健; 孙强

    2004-01-01

    Objective: To sum up the experience in treating very severe traumatic brain injuries.Methods: Retrospective analysis of 68 patients with very severe traumatic brain injuries treated in our hospital from 1997 to 2002 was done.Results: Forty-one (60%) patients died. In the 50 patients treated surgically 27 (40%) survived, 8 recovered well, 9 had moderate disability and 10 had sever deficits. The 18 patients treated non-operatively all died.Conclusions: Much attention should be given to the observation of the changes of severe brain injuries with cranial base injury. Timely operative decompression, basic life support, keeping effective brain blood perfusion and effective oxygen supply, improving cerebral microcirculation and preventing or controlling complications are the main methods to raise the successful rate of treating very severe brain injuries and the life quality of the patients.

  7. Respiratory mechanics in brain injury: A review

    OpenAIRE

    Koutsoukou, Antonia; Katsiari, Maria; Orfanos, Stylianos E; Kotanidou, Anastasia; Daganou, Maria; Kyriakopoulou, Magdalini; Koulouris, Nikolaos G.; Rovina, Nikoletta

    2016-01-01

    Several clinical and experimental studies have shown that lung injury occurs shortly after brain damage. The responsible mechanisms involve neurogenic pulmonary edema, inflammation, the harmful action of neurotransmitters, or autonomic system dysfunction. Mechanical ventilation, an essential component of life support in brain-damaged patients (BD), may be an additional traumatic factor to the already injured or susceptible to injury lungs of these patients thus worsening lung injury, in case ...

  8. Effect of AVP on brain edema following traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    XU Miao; SU Wei; HUANG Wei-dong; LU Yuan-qiang; XU Qiu-ping; CHEN Zhao-jun

    2007-01-01

    Objective: To evaluate plasma arginine vasopressin (AVP) level in patients with traumatic brain injury and investigate the role of AVP in the process of brain edema. Methods: A total of 30 patients with traumatic brain injury were involved in our study. They were divided into two groups by Glasgow Coma Scale: severe traumatic brain injury group (STBI, GCS≤ 8) and moderate traumatic brain injury group (MTBI, GCS>8).Samples of venous blood were collected in the morning at rest from 15 healthy volunteers (control group)and within 24 h after traumatic brain injury from these patients for AVP determinations by radioimmunoassay. The severity and duration of the brain edema were estimated by head CT scan.Results: plasma AVP levels (ng/L) were (mean±SD): control, 3.06±1.49; MTBI, 38.12±7.25; and STBI, 66.61±17.10.The plasma level of AVP was significantly increased within 24 h after traumatic brain injury and followed by the reduction of GCS, suggesting the deterioration of cerebral injury (P<0.01). And the AVP level was correlated with the severity (STBI r=0.919, P<0.01; MTBI r=0.724, P<0.01) and the duration of brain edema (STBI r=0.790, P<0.01; MTBI r=0.712, P<0.01). Conclusions: The plasma AVP level is closely associated with the severity of traumatic brain injury. AVP may play an important role in pathogenesis of brain edema after traumatic brain injury.

  9. Ibis DDT test results

    Data.gov (United States)

    US Fish and Wildlife Service, Department of the Interior — This document contains test results from a study done to determine the organochlorine levels in the livers of white-faced ibis from Stillwater Wildlife Management...

  10. Cognitive impairments in patients with brain injury

    OpenAIRE

    Vladimir Vladimirovich Zakharov; E. A. Drozdova

    2013-01-01

    The paper gives the data of Russian and foreign authors and the results of this paper authors’ investigation of higher cerebral functions in patients who have sustained brain injury (BI). It shows their high prevalence, the predominance of cognitive impairments (CI) over neurological disorders in patients with mild and moderate injury, presents their quantitative and qualitative features (a preponderance of focal symptoms in severe injury and neurodynamic disorders in mild injury), describes ...

  11. 45 CFR 1308.16 - Eligibility criteria: Traumatic brain injury.

    Science.gov (United States)

    2010-10-01

    ... 45 Public Welfare 4 2010-10-01 2010-10-01 false Eligibility criteria: Traumatic brain injury. 1308... DISABILITIES Health Services Performance Standards § 1308.16 Eligibility criteria: Traumatic brain injury. A child is classified as having traumatic brain injury whose brain injuries are caused by an...

  12. Aquaporin 9 in rat brain after severe traumatic brain injury

    OpenAIRE

    Hui Liu; Mei Yang; Guo-ping Qiu; Fei Zhuo; Wei-hua Yu; Shan-quan Sun; Yun Xiu

    2012-01-01

    OBJECTIVE: To reveal the expression and possible roles of aquaporin 9 (AQP9) in rat brain, after severe traumatic brain injury (TBI). METHODS: Brain water content (BWC), tetrazolium chloride staining, Evans blue staining, immunohistochemistry (IHC), immunofluorescence (IF), western blot, and real-time polymerase chain reaction were used. RESULTS: The BWC reached the first and second (highest) peaks at 6 and 72 hours, and the blood brain barrier (BBB) was severely destroyed at six hours after ...

  13. Cognitive impairments in patients with brain injury

    Directory of Open Access Journals (Sweden)

    Vladimir Vladimirovich Zakharov

    2013-01-01

    Full Text Available The paper gives the data of Russian and foreign authors and the results of this paper authors’ investigation of higher cerebral functions in patients who have sustained brain injury (BI. It shows their high prevalence, the predominance of cognitive impairments (CI over neurological disorders in patients with mild and moderate injury, presents their quantitative and qualitative features (a preponderance of focal symptoms in severe injury and neurodynamic disorders in mild injury, describes the predictors of their course and prognosis (the degree of injury is one of the most important predictors, and discusses current trends in the medical correction of detected abnormalities.

  14. Nonsurgical interventions after mild traumatic brain injury

    DEFF Research Database (Denmark)

    Nygren-de Boussard, Catharina; Holm, Lena W; Cancelliere, Carol;

    2014-01-01

    OBJECTIVE: To synthesize the best available evidence regarding the impact of nonsurgical interventions on persistent symptoms after mild traumatic brain injury (MTBI). DATA SOURCES: MEDLINE and other databases were searched (2001-2012) with terms including "rehabilitation." Inclusion criteria were...

  15. Traumatic brain injury and forensic neuropsychology.

    Science.gov (United States)

    Bigler, Erin D; Brooks, Michael

    2009-01-01

    As part of a special issue of The Journal of Head Trauma Rehabilitation, forensic neuropsychology is reviewed as it applies to traumatic brain injury (TBI) and other types of acquired brain injury in which clinical neuropsychologists and rehabilitation psychologists may be asked to render professional opinions about the neurobehavioral effects and outcome of a brain injury. The article introduces and overviews the topic focusing on the process of forensic neuropsychological consultation and practice as it applies to patients with TBI or other types of acquired brain injury. The emphasis is on the application of scientist-practitioner standards as they apply to legal questions about the status of a TBI patient and how best that may be achieved. This article introduces each topic area covered in this special edition. PMID:19333063

  16. Health psychology in brain injury rehabilitation services

    OpenAIRE

    Eldred, C.E.

    2006-01-01

    The work carried out in this portfolio was completed while working as a Health Psychologist in Training within a vocational rehabilitation service for adults with acquired brain injury All pieces of work were carried out within this setting expect for the consultancy unit which was carried out within a pilot service delivered by an Adult Disability Team ofa local Social Services. Individuals with acquired brain injury often do not have full understanding of the nature. degree or impact of the...

  17. Traumatic Brain Injury: Looking Back, Looking Forward

    Science.gov (United States)

    Bartlett, Sue; Lorenz, Laura; Rankin, Theresa; Elias, Eileen; Weider, Katie

    2011-01-01

    This article is the eighth of a multi-part series on traumatic brain injury (TBI). Historically, TBI has received limited national attention and support. However, since it is the signature injury of the military conflicts in Iraq and Afghanistan, TBI has gained attention of elected officials, military leaders, policymakers, and the public. The…

  18. Plasticity and Inflammation following Traumatic Brain Injury

    OpenAIRE

    Hånell, Anders

    2011-01-01

    Traumatic Brain Injury (TBI) mainly affects young persons in traffic accidents and the elderly in fall accidents. Improvements in the clinical management have significantly improved the outcome following TBI but survivors still suffer from depression, memory problems, personality changes, epilepsy and fatigue. The initial injury starts a series of events that give rise to a secondary injury process and despite several clinical trials there is no drug available for clinical use that targets se...

  19. Functional level after Traumatic Brain Injury

    OpenAIRE

    Sandhaug, Maria

    2012-01-01

    Objectives: The objectives of the thesis were to describe the functional level (papers I and II) and self awareness of functional deficits (paper III) after moderate and severe Traumatic Brain Injury (TBI), and to evaluate the predictive impact of pre-injury and injury-related factors on functional level (papers I, II) and awareness of functional deficits (paper III). Material and methods: Papers I-II were cohort studies of 55 TBI patients (moderate = 21, severe = 34) and 65...

  20. 'Hidden' Brain Injury a Challenge for Military Doctors

    Science.gov (United States)

    ... nih.gov/medlineplus/news/fullstory_159316.html 'Hidden' Brain Injury a Challenge for Military Doctors Potentially fatal ... may suffer from a distinctive pattern of "hidden" brain injury, a small study finds. "Blast-related brain ...

  1. Traumatic brain injuries: Forensic and expertise aspects

    Directory of Open Access Journals (Sweden)

    Vuleković Petar

    2008-01-01

    Full Text Available Introduction. Traumatic brain injuries have major socio-economic importance due to their frequency, high mortality and serious consequences. According to their nature the consequences of these injuries may be classified as neurological, psychiatric and esthetic. Various lesions of brain structures cause neurological consequences such as disturbance of motor functions, sensibility, coordination or involuntary movements, speech disturbances and other deviations, as well as epilepsy. Psychiatric consequences include cognitive deficit, emotional disturbances and behavior disturbances. Criminal-legal aspect of traumatic brain injuries and litigation. Criminal-legal aspect of traumatic brain injuries expertise understands the qualification of these injuries as mild, serious and qualified serious body injuries as well as the expertise about the mechanisms of their occurrence. Litigation expertise includes the estimation of pain, fear, diminished, i.e. lost vital activity and disability, esthetic marring, and psychological suffer based on the diminished general vital activity and esthetic marring. Competence and timing of expertise. Evaluation of consequences of traumatic brain injuries should be performed only when it can be positively confirmed that they are permanent, i.e. at least one year after the injury. Expertise of these injuries is interdisciplinary. Among clinical doctors the most competent medical expert is the one who is in charge for diagnostics and injury treatment, with the recommendation to avoid, if possible, the doctor who conducted treatment. For the estimation of general vital activity, the neurological consequences, pain and esthetic marring expertise, the most competent doctors are neurosurgeon and neurologist. Psychological psychiatric consequences and fear expertise have to be performed by the psychiatrist. Specialists of forensic medicine contribute with knowledge of criminal low and legal expertise.

  2. Centralized rehabilitation after servere traumatic brain injury

    DEFF Research Database (Denmark)

    Engberg, Aase Worså; Liebach, Annette; Nordenbo, Annette Mosbæk

    2006-01-01

    OBJECTIVES: To present results from the first 3 years of centralized subacute rehabilitation after very severe traumatic brain injury (TBI), and to compare results of centralized versus decentralized rehabilitation. MATERIAL AND METHODS: Prospectively, the most severely injured group of adults from...... an uptake area of 2.4 million in Denmark were included at admission to a regional brain injury unit (BIU), on average 19 days after injury. Patients in the retrospective study used for comparison were randomly chosen from the national hospital register. RESULTS AND CONCLUSIONS: Out of 117 patients in...

  3. Recovery after Brain Injury: Mechanisms and Principles

    Directory of Open Access Journals (Sweden)

    Randolph J. Nudo

    2013-12-01

    Full Text Available The past 20 years have represented an important period in the development of principles underlying neuroplasticity, especially as they apply to recovery from neurological injury. It is now generally accepted that acquired brain injuries, such as occur in stroke or trauma, initiate a cascade of regenerative events that last for at least several weeks, if not months. Many investigators have pointed out striking parallels between post-injury plasticity and the molecular and cellular events that take place during normal brain development. As evidence for the principles and mechanisms underlying post-injury neuroplasticity has been gleaned from both animal models and human populations, novel approaches to therapeutic intervention have been proposed. One important theme has persisted as the sophistication of clinicians and scientists in their knowledge of neuroplasticity mechanisms has grown: Behavioral experience is the most potent modulator of brain plasticity. While there is substantial evidence for this principle in normal, healthy brains, the injured brain is particularly malleable. Based on the quantity and quality of motor experience, the brain can be reshaped after injury in either adaptive or maladaptive ways. This paper reviews selected studies that have demonstrated the neurophysiological and neuroanatomical changes that are triggered by motor experience, by injury, and the interaction of these processes. In addition, recent studies using new and elegant techniques are providing novel perspectives on the events that take place in the injured brain, providing a real-time window into post-injury plasticity. These new approaches are likely to accelerate the pace of basic research, and provide a wealth of opportunities to translate basic principles into therapeutic methodologies.

  4. Manganese: Brain Species and Mechanisms of Brain Injury

    OpenAIRE

    Neth, Katharina

    2016-01-01

    Manganism is a Parkinson-related disease, which can arise by accumulation of the essential trace element manganese (Mn) in the brain by overexposure. Versatile Mn-species and imbalances of trace elements in serum and brain tissue of Mn-exposed rats were analyzed by methods of metallomics. Additionally, non-targeted metabolomics of brain tissue served for analysis of the multilateral mechanisms, which can lead to the neuronal injury. Finally, results from metallomics were correlated to the fin...

  5. Traumatic brain injury, neuroimaging, and neurodegeneration

    Directory of Open Access Journals (Sweden)

    Erin D. Bigler

    2013-08-01

    Full Text Available Depending on severity, traumatic brain injury (TBI induces immediate neuropathological effects that in the mildest form may be transient but as severity increases results in neural damage and degeneration. The first phase of neural degeneration is explainable by the primary acute and secondary neuropathological effects initiated by the injury; however, neuroimaging studies demonstrate a prolonged period of pathological changes that progressively occur even during the chronic phase. This review examines how neuroimaging may be used in TBI to understand (1 the dynamic changes that occur in brain development relevant to understanding the effects of TBI and how these relate to developmental stage when the brain is injured, (2 how TBI interferes with age-typical brain development and the effects of aging thereafter, and (3 how TBI results in greater frontotemporolimbic damage, results in cerebral atrophy, and is more disruptive to white matter neural connectivity. Neuroimaging quantification in TBI demonstrates degenerative effects from brain injury over time. An adverse synergistic influence of TBI with aging may predispose the brain injured individual for the development of neuropsychiatric and neurodegenerative disorders long after surviving the brain injury.

  6. Minocycline Attenuates Iron-Induced Brain Injury.

    Science.gov (United States)

    Zhao, Fan; Xi, Guohua; Liu, Wenqaun; Keep, Richard F; Hua, Ya

    2016-01-01

    Iron plays an important role in brain injury after intracerebral hemorrhage (ICH). Our previous study found minocycline reduces iron overload after ICH. The present study examined the effects of minocycline on the subacute brain injury induced by iron. Rats had an intracaudate injection of 50 μl of saline, iron, or iron + minocycline. All the animals were euthanized at day 3. Rat brains were used for immunohistochemistry (n = 5-6 per each group) and Western blotting assay (n = 4). Brain swelling, blood-brain barrier (BBB) disruption, and iron-handling proteins were measured. We found that intracerebral injection of iron resulted in brain swelling, BBB disruption, and brain iron-handling protein upregulation (p < 0.05). The co-injection of minocycline with iron significantly reduced iron-induced brain swelling (n = 5, p < 0.01). Albumin, a marker of BBB disruption, was measured by Western blot analysis. Minocycline significantly decreased albumin protein levels in the ipsilateral basal ganglia (p < 0.01). Iron-handling protein levels in the brain, including ceruloplasmin and transferrin, were reduced in the minocycline co-injected animals. In conclusion, the present study suggests that minocycline attenuates brain swelling and BBB disruption via an iron-chelation mechanism. PMID:26463975

  7. Managing traumatic brain injury secondary to explosions

    Directory of Open Access Journals (Sweden)

    Burgess Paula

    2010-01-01

    Full Text Available Explosions and bombings are the most common deliberate cause of disasters with large numbers of casualties. Despite this fact, disaster medical response training has traditionally focused on the management of injuries following natural disasters and terrorist attacks with biological, chemical, and nuclear agents. The following article is a clinical primer for physicians regarding traumatic brain injury (TBI caused by explosions and bombings. The history, physics, and treatment of TBI are outlined.

  8. Time dysperception perspective for acquired brain injury

    Directory of Open Access Journals (Sweden)

    Federica ePiras

    2014-01-01

    Full Text Available Distortions of time perception are presented by a number of neuropsychiatric disorders. Here we survey timing abilities in clinical populations with acquired brain injuries in key cerebral areas recently implicated in human studies of timing. We purposely analyzed the complex relationship between cognitive and contextual factors involved in time estimation, as to characterize the correlation between timed and other cognitive behaviors in each group. We assume that interval timing is a solid construct to study cognitive dysfunctions following brain injury, as timing performance is a sensitive metric of information processing, while temporal cognition has the potential of influencing a wide range of cognitive processes. Moreover, temporal performance is a sensitive assay of damage to the underlying neural substrate after a brain insult. Further research in neurological and psychiatric patients will definitively answer the question of whether time distortions are manifestations of cognitive and behavioral symptoms of brain damage and definitively clarify their mechanisms.

  9. Prehospital Care of Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    TVSP Murthy

    2008-01-01

    Full Text Available Traumatic brain injury (TBI occurs when a sudden trauma causes brain damage. Depending on the severity, outcome can be anything from complete recovery to permanent disability or death. Emergency medical services play a dominant role in provision of primary care at the site of injury. Since little can be done to reverse the initial brain damage due to trauma, attempts to prevent further brain damage and stabilize the patient before he can be brought to a specialized trauma care centre play a pivotal role in the final outcome. Recognition and early treatment of hypoten-sion, hypoxemia, and hypoglycemia, objective neurological assessment based on GCS and pupils, and safe transport to an optimal care centre are the key elements of prehospital care of a TBI patient.

  10. Brain SPECT in severs traumatic head injury

    International Nuclear Information System (INIS)

    The aim of this work was to compare the results of the early brain scintigraphy in traumatic brain injury to the long term neuropsychological behavior. Twenty four patients had an ECD-Tc99m SPECT, within one month after the trauma; scintigraphic abnormalities were evaluated according to a semi-quantitative analysis. The neuropsychological clinical investigation was interpreted by a synthetic approach to evaluate abnormalities related to residual motor deficit, frontal behavior, memory and language disorders. Fourteen patients (58%) had sequela symptoms. SPECT revealed 80 abnormalities and CT scan only 31. Statistical analysis of uptake values showed significantly lower uptake in left basal ganglia and brain stem in patients with sequela memory disorders. We conclude that the brain perfusion scintigraphy is able to detect more lesions than CT and that it could really help to predict the neuropsychological behavior after severe head injury. Traumatology could become in the future a widely accepted indication of perfusion SPECT. (authors)

  11. Progress in imaging of brain radiation injury

    International Nuclear Information System (INIS)

    The mechanisms of brain radiation injury mainly include three hypotheses: vascular injury, glial cells damage and immune response. Most scholars' studies have recently supported the former two ones. Vascular injury plays a major role in the effect of delayed radiation injury. Focal brain injury and diffuse white matter injury can be definitely diagnosed by CT and MRI. T2-weighted imaging (T2WI) in MRI shows high sensitivity in water contents, and is not affected by the beam hardening artifacts from the cranial base. Compared with CT, the sensitivity of MR for detecting white matter lesions is two to threefold higher. When lesions occurs at the site of an irradiated cerebral tumor, tumor recurrence and focal cerebral necrosis cannot be differentiated by CT or MR, PET and MRS now present a certain advantage of differential diagnosis. Tumor presents high metabolism and necrosis demonstrates low metabolism by utilizing PET scanning, however PET's sensitivity and specificity are far from satisfactory. The amount or ratio of metabolic products in the region of interest measured by MRS contributes to the deferential diagnosis. In addition, PET functional imaging and MRS can also predict the early asymptomatic reversible radiation injury so as to allow the early therapy of steroids and possibly other drugs, prior to the development of irreversible changes

  12. Resting Network Plasticity Following Brain Injury

    OpenAIRE

    Toru Nakamura; Hillary, Frank G.; Biswal, Bharat B.

    2009-01-01

    The purpose of this study was to examine neural network properties at separate time-points during recovery from traumatic brain injury (TBI) using graph theory. Whole-brain analyses of the topological properties of the fMRI signal were conducted in 6 participants at 3 months and 6 months following severe TBI. Results revealed alterations of network properties including a change in the degree distribution, reduced overall strength in connectivity, and increased "small-worldness" from 3 months ...

  13. Plasticity and Injury in the Developing Brain

    OpenAIRE

    Johnston, Michael V.; Ishida, Akira; ISHIDA, Wako Nakajima; MATSUSHITA, Hiroko Baber; NISHIMURA, Akira; Tsuji, Masahiro

    2008-01-01

    The child’s brain is more malleable or plastic than that of adults and this accounts for the ability of children to learn new skills quickly or recovery from brain injuries. Several mechanisms contribute to this ability including overproduction and deletion of neurons and synapses, and activity-dependent stabilization of synapses. The molecular mechanisms for activity dependent synaptic plasticity are being discovered and this is leading to a better understanding of the pathogenesis of severa...

  14. Modeling premature brain injury and recovery

    OpenAIRE

    Scafidi, Joey; Fagel, Devon M.; Ment, Laura R.; Vaccarino, Flora M.

    2009-01-01

    Premature birth is a growing and significant public health problem because of the large number of infants that survive with neurodevelopmental sequelae from brain injury. Recent advances in neuroimaging have shown that although some neuroanatomical structures are altered, others improve over time. This review outlines recent insights into brain structure and function in these preterm infants at school age and relevant animal models. These animal models have provided scientists with an opportu...

  15. Interleukin-1 and acute brain injury

    Directory of Open Access Journals (Sweden)

    Katie N Murray

    2015-02-01

    Full Text Available Inflammation is the key host-defense response to infection and injury, yet also a major contributor to a diverse range of diseases, both peripheral and central in origin. Brain injury as a result of stroke or trauma is a leading cause of death and disability worldwide, yet there are no effective treatments, resulting in enormous social and economic costs. Increasing evidence, both preclinical and clinical, highlights inflammation as an important factor in stroke, both in determining outcome and as a contributor to risk. A number of inflammatory mediators have been proposed as key targets for intervention to reduce the burden of stroke, several reaching clinical trial, but as yet yielding no success. Many factors could explain these failures, including the lack of robust preclinical evidence and poorly designed clinical trials, in addition to the complex nature of the clinical condition. Lack of consideration in preclinical studies of associated co-morbidities prevalent in the clinical stroke population is now seen as an important omission in previous work. These co-morbidities (atherosclerosis, hypertension, diabetes, infection have a strong inflammatory component, supporting the need for greater understanding of how inflammation contributes to acute brain injury. Interleukin (IL-1 is the prototypical pro-inflammatory cytokine, first identified many years ago as the endogenous pyrogen. Research over the last 20 years or so reveals that IL-1 is an important mediator of neuronal injury and blocking the actions of IL-1 is beneficial in a number of experimental models of brain damage. Mechanisms underlying the actions of IL-1 in brain injury remain unclear, though increasing evidence indicates the cerebrovasculature as a key target. Recent literature supporting this and other aspects of how IL-1 and systemic inflammation in general contribute to acute brain injury are discussed in this review.

  16. Brain injury biomechanics in closed-head impact : Studies on injury epidemiology, tolerance criteria, biomechanics and traffic injury prevention

    OpenAIRE

    Viano, David

    1997-01-01

    Permanent disability from traumatic brain injury is a devastating consequence of traffic crashes. Injury prevention is a fruitful approach to reduce the incidence and severity of disabling brain injury. However, the development of effective prevention techniques requires better knowledge on the mechanisms and biomechanics of brain injury in closed-head impact. The overall aim of this study is focused on brain injury mechanisms, biomechanics, and tolerances in closed-head ...

  17. Recovery of resting brain connectivity ensuing mild traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Rose Dawn Bharath

    2015-09-01

    Full Text Available Brains reveal amplified plasticity as they recover from an injury. We aimed to define time dependent plasticity changes in patients recovering from mild traumatic brain injury (mTBI. 25 subjects with mild head injury were longitudinally evaluated within 36 hours, 3 and 6 months using resting state functional connectivity (RSFC. Region of interest (ROI based connectivity differences over time within the patient group and in comparison with a healthy control group were analyzed at p<0.005. We found 33 distinct ROI pairs that revealed significant changes in their connectivity strength with time. Within three months, the majority of the ROI pairs had decreased connectivity in mTBI population, which increased and became comparable to healthy controls at 6 months. Initial imaging within 36 hours of injury revealed hyper connectivity predominantly involving the salience network and default mode network, which reduced at 3 months when lingual, inferior frontal and fronto-parietal networks revealed hyper connectivity. At six months all the evaluated networks revealed hyper connectivity and became comparable to the healthy controls. Our findings in a fairly homogenous group of patients with mTBI evaluated during the 6 month window of recovery defines time varying brain connectivity changes as the brain recovers from an injury. A majority of these changes were seen in the frontal and parietal lobes between 3-6 months after injury. Hyper connectivity of several networks supported normal recovery in the first six months and it remains to be seen in future studies whether this can predict an early and efficient recovery of brain function.

  18. Cerebral Blood Flow and Autoregulation after Pediatric Traumatic Brain Injury

    OpenAIRE

    Udomphorn, Yuthana; Armstead, William M.; Vavilala, Monica S.

    2008-01-01

    Traumatic brain injury is a global health concern and is the leading cause of traumatic morbidity and mortality in children. Despite a lower overall mortality than in adult traumatic brain injury, the cost to society from the sequelae of pediatric traumatic brain injury is very high. Predictors of poor outcome after traumatic brain injury include altered systemic and cerebral physiology, including altered cerebral hemodynamics. Cerebral autoregulation is often impaired following traumatic bra...

  19. Working with Students with Traumatic Brain Injury

    Science.gov (United States)

    Lucas, Matthew D.

    2010-01-01

    The participation of a student with Traumatic Brain Injury (TBI) in general physical education can often be challenging and rewarding for the student and physical education teacher. This article addresses common characteristics of students with TBI and presents basic solutions to improve the education of students with TBI in the general physical…

  20. Mild Traumatic Brain Injury: Facilitating School Success.

    Science.gov (United States)

    Hux, Karen; Hacksley, Carolyn

    1996-01-01

    A case study is used to demonstrate the effects of mild traumatic brain injury on educational efforts. Discussion covers factors complicating school reintegration, ways to facilitate school reintegration, identification of cognitive and behavioral consequences, minimization of educators' discomfort, reintegration program design, and family…

  1. Group Treatment in Acquired Brain Injury Rehabilitation

    Science.gov (United States)

    Bertisch, Hilary; Rath, Joseph F.; Langenbahn, Donna M.; Sherr, Rose Lynn; Diller, Leonard

    2011-01-01

    The current article describes critical issues in adapting traditional group-treatment methods for working with individuals with reduced cognitive capacity secondary to acquired brain injury. Using the classification system based on functional ability developed at the NYU Rusk Institute of Rehabilitation Medicine (RIRM), we delineate the cognitive…

  2. New Antioxidant Drugs for Neonatal Brain Injury

    Directory of Open Access Journals (Sweden)

    Maria Luisa Tataranno

    2015-01-01

    Full Text Available The brain injury concept covers a lot of heterogeneity in terms of aetiology involving multiple factors, genetic, hemodynamic, metabolic, nutritional, endocrinological, toxic, and infectious mechanisms, acting in antenatal or postnatal period. Increased vulnerability of the immature brain to oxidative stress is documented because of the limited capacity of antioxidant enzymes and the high free radicals (FRs generation in rapidly growing tissue. FRs impair transmembrane enzyme Na+/K+-ATPase activity resulting in persistent membrane depolarization and excessive release of FR and excitatory aminoacid glutamate. Besides being neurotoxic, glutamate is also toxic to oligodendroglia, via FR effects. Neuronal cells die of oxidative stress. Excess of free iron and deficient iron/binding metabolising capacity are additional features favouring oxidative stress in newborn. Each step in the oxidative injury cascade has become a potential target for neuroprotective intervention. The administration of antioxidants for suspected or proven brain injury is still not accepted for clinical use due to uncertain beneficial effects when treatments are started after resuscitation of an asphyxiated newborn. The challenge for the future is the early identification of high-risk babies to target a safe and not toxic antioxidant therapy in combination with standard therapies to prevent brain injury and long-term neurodevelopmental impairment.

  3. Traumatic Brain Injury: Nuclear Medicine Neuroimaging

    NARCIS (Netherlands)

    Sánchez-Catasús, Carlos A; Vállez Garcia, David; Le Riverend Morales, Eloísa; Galvizu Sánchez, Reinaldo; Dierckx, Rudi; Dierckx, Rudi AJO; Otte, Andreas; de Vries, Erik FJ; van Waarde, Aren; Leenders, Klaus L

    2014-01-01

    This chapter provides an up-to-date review of nuclear medicine neuroimaging in traumatic brain injury (TBI). 18F-FDG PET will remain a valuable tool in researching complex mechanisms associated with early metabolic dysfunction in TBI. Although evidence-based imaging studies are needed, 18F-FDG PET i

  4. Narrative Language in Traumatic Brain Injury

    Science.gov (United States)

    Marini, Andrea; Galetto, Valentina; Zampieri, Elisa; Vorano, Lorenza; Zettin, Marina; Carlomagno, Sergio

    2011-01-01

    Persons with traumatic brain injury (TBI) often show impaired linguistic and/or narrative abilities. The present study aimed to document the features of narrative discourse impairment in a group of adults with TBI. 14 severe TBI non-aphasic speakers (GCS less than 8) in the phase of neurological stability and 14 neurologically intact participants…

  5. Traumatic Brain Injury and Personality Change

    Science.gov (United States)

    Fowler, Marc; McCabe, Paul C.

    2011-01-01

    Traumatic brain injury (TBI) is the leading cause of death and lifelong disability in the United States for individuals below the age of 45. Current estimates from the Center for Disease Control (CDC) indicate that at least 1.4 million Americans sustain a TBI annually. TBI affects 475,000 children under age 14 each year in the United States alone.…

  6. Interviewing Children with Acquired Brain Injury (ABI)

    Science.gov (United States)

    Boylan, Anne-Marie; Linden, Mark; Alderdice, Fiona

    2009-01-01

    Research into the lives of children with acquired brain injury (ABI) often neglects to incorporate children as participants, preferring to obtain the opinions of the adult carer (e.g. McKinlay et al., 2002). There has been a concerted attempt to move away from this position by those working in children's research with current etiquette…

  7. Monitoring Agitated Behavior After acquired Brain Injury

    DEFF Research Database (Denmark)

    Aadal, Lena; Mortensen, Jesper; Nielsen, Jørgen Feldbaek

    2015-01-01

    Purpose: To describe the onset, duration, intensity, and nursing shift variation of agitated behavior in patients with acquired brain injury (ABI) at a rehabilitation hospital. Design: Prospective descriptive study. Methods: A total of 11 patients with agitated behavior were included. Agitated...

  8. Relatives of patients with severe brain injury

    DEFF Research Database (Denmark)

    Norup, Anne; Petersen, Janne; Lykke Mortensen, Erik

    2015-01-01

    PRIMARY OBJECTIVE: To investigate trajectories and predictors of trajectories of anxiety and depression in relatives of patients with a severe brain injury during the first year after injury. RESEARCH DESIGN: A prospective longitudinal study with four repeated measurements. SUBJECTS: Ninety...... relatives of patients with severe brain injury. METHODS: The relatives were assessed on the anxiety and depression scales from the Symptom Checklist-90-Revised and latent variable growth curve models were used to model the trajectories. The effects of patient's age, patient's Glasgow Coma Score, level of...... function and consciousness, gender and relationship of the relatives were modelled. RESULTS: Improvement was found in both symptoms of anxiety and depression during the 12-month study period. The analysis revealed different trajectories for symptoms of anxiety and depression, as anxiety had a more rapid...

  9. Resting network plasticity following brain injury.

    Directory of Open Access Journals (Sweden)

    Toru Nakamura

    Full Text Available The purpose of this study was to examine neural network properties at separate time-points during recovery from traumatic brain injury (TBI using graph theory. Whole-brain analyses of the topological properties of the fMRI signal were conducted in 6 participants at 3 months and 6 months following severe TBI. Results revealed alterations of network properties including a change in the degree distribution, reduced overall strength in connectivity, and increased "small-worldness" from 3 months to 6 months post injury. The findings here indicate that, during recovery from injury, the strength but not the number of network connections diminishes, so that over the course of recovery, the network begins to approximate what is observed in healthy adults. These are the first data examining functional connectivity in a disrupted neural system during recovery.

  10. Clinics in diagnostic imaging (153). Severe hypoxic ischaemic brain injury.

    OpenAIRE

    Chua, Wynne; Lim, Boon Keat; Lim, Tchoyoson Choie Cheio

    2014-01-01

    A 58-year-old Indian woman presented with asystole after an episode of haemetemesis, with a patient downtime of 20 mins. After initial resuscitation efforts, computed tomography of the brain, obtained to evaluate neurological injury, demonstrated evidence of severe hypoxic ischaemic brain injury. The imaging features of hypoxic ischaemic brain injury and the potential pitfalls with regard to image interpretation are herein discussed.

  11. Defense Centers of Excellence for Psychological Health & Traumatic Brain Injury

    Science.gov (United States)

    ... Defense Centers of Excellence For Psychological Health & Traumatic Brain Injury U.S. Department of Defense About DCoE Centers Leadership ... PTSD Suicide Prevention Provider Resources DCoE Resources Traumatic Brain Injury About Traumatic Brain Injury Tips for Treating mTBI ...

  12. The Impact of Traumatic Brain Injury on the Aging Brain.

    Science.gov (United States)

    Young, Jacob S; Hobbs, Jonathan G; Bailes, Julian E

    2016-09-01

    Traumatic brain injury (TBI) has come to the forefront of both the scientific and popular culture. Specifically, sports-related concussions or mild TBI (mTBI) has become the center of scientific scrutiny with a large amount of research focusing on the long-term sequela of this type of injury. As the populace continues to age, the impact of TBI on the aging brain will become clearer. Currently, reports have come to light that link TBI to neurodegenerative disorders such as Alzheimer's and Parkinson's diseases, as well as certain psychiatric diseases. Whether these associations are causations, however, is yet to be determined. Other long-term sequelae, such as chronic traumatic encephalopathy (CTE), appear to be associated with repetitive injuries. Going forward, as we gain better understanding of the pathophysiological process involved in TBI and subclinical head traumas, and individual traits that influence susceptibility to neurocognitive diseases, a clearer, more comprehensive understanding of the connection between brain injury and resultant disease processes in the aging brain will become evident. PMID:27432348

  13. Chronic cerebrovascular dysfunction after traumatic brain injury.

    Science.gov (United States)

    Jullienne, Amandine; Obenaus, Andre; Ichkova, Aleksandra; Savona-Baron, Catherine; Pearce, William J; Badaut, Jerome

    2016-07-01

    Traumatic brain injuries (TBI) often involve vascular dysfunction that leads to long-term alterations in physiological and cognitive functions of the brain. Indeed, all the cells that form blood vessels and that are involved in maintaining their proper function can be altered by TBI. This Review focuses on the different types of cerebrovascular dysfunction that occur after TBI, including cerebral blood flow alterations, autoregulation impairments, subarachnoid hemorrhage, vasospasms, blood-brain barrier disruption, and edema formation. We also discuss the mechanisms that mediate these dysfunctions, focusing on the cellular components of cerebral blood vessels (endothelial cells, smooth muscle cells, astrocytes, pericytes, perivascular nerves) and their known and potential roles in the secondary injury cascade. © 2016 Wiley Periodicals, Inc. PMID:27117494

  14. Clinical Outcomes after Traumatic Brain Injury.

    Science.gov (United States)

    Sandsmark, Danielle K

    2016-06-01

    Traumatic brain injury (TBI) is a major cause of death and disability that often affects young people. After injury, the degree of recovery can be highly variable, with some people regaining near complete function while others remain severely disabled. Understanding what factors influence recovery is important for counseling patients and families in the acute period after injury and can help guide therapeutic decisions in the acute period following injury. In this review, prognostic algorithms useful for clinicians are discussed. Tools for grading patient outcomes, their role in clinical care and research studies, and their limitations are reviewed. Ongoing work focusing on the development of biomarkers to track TBI recovery and the refinement of clinical outcome metrics is summarized. PMID:27072952

  15. Forensic Pathology of Traumatic Brain Injury.

    Science.gov (United States)

    Finnie, J W

    2016-09-01

    Traumatic brain injury constitutes a significant proportion of cases requiring forensic examination, and it encompasses (1) blunt, nonmissile head injury, especially involving motor vehicle accidents, and (2) penetrating, missile injury produced by a range of high- and lower-velocity projectiles. This review examines the complex pathophysiology and biomechanics of both types of neurotrauma and assesses the macroscopic and histologic features of component lesions, which may be used to determine the cause and manner of death resulting from an intentional assault or accident. Estimation of the survival time postinjury by pathologic examination is also important where malicious head injury is suspected, in an attempt to ascertain a time at which the traumatic event might have been committed, thereby evaluating the authenticity of statements made by the alleged perpetrator. PMID:26578643

  16. Simvastatin Treatment in Traumatic Brain Injury: Operation Brain Trauma Therapy.

    Science.gov (United States)

    Mountney, Andrea; Bramlett, Helen M; Dixon, C Edward; Mondello, Stefania; Dietrich, W Dalton; Wang, Kevin K W; Caudle, Krista; Empey, Philip E; Poloyac, Samuel M; Hayes, Ronald L; Povlishock, John T; Tortella, Frank C; Kochanek, Patrick M; Shear, Deborah A

    2016-03-15

    Simvastatin, the fourth drug selected for testing by Operation Brain Trauma Therapy (OBTT), is a 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor used clinically to reduce serum cholesterol. In addition, simvastatin has demonstrated potent antineuroinflammatory and brain edema reducing effects and has shown promise in promoting functional recovery in pre-clinical models of traumatic brain injury (TBI). The purpose of this study was to assess the potential neuroprotective effects of oral administration of simvastatin on neurobehavioral, biomarker, and histopathological outcome measures compared across three pre-clinical TBI animal models. Adult male Sprague-Dawley rats were exposed to either moderate fluid percussion injury (FPI), controlled cortical impact injury (CCI), or penetrating ballistic-like brain injury (PBBI). Simvastatin (1 or 5 mg/kg) was delivered via oral gavage at 3 h post-injury and continued once daily out to 14 days post-injury. Results indicated an intermediate beneficial effect of simvastatin on motor performance on the gridwalk (FPI), balance beam (CCI), and rotarod tasks (PBBI). No significant therapeutic benefit was detected, however, on cognitive outcome across the OBTT TBI models. In fact, Morris water maze (MWM) performance was actually worsened by treatment in the FPI model and scored full negative points for low dose in the MWM latency and swim distance to locate the hidden platform. A detrimental effect on cortical tissue loss was also seen in the FPI model, and there were no benefits on histology across the other models. Simvastatin also produced negative effects on circulating glial fibrillary acidic protein biomarker outcomes that were evident in the FPI and PBBI models. Overall, the current findings do not support the beneficial effects of simvastatin administration over 2 weeks post-TBI using the oral route of administration and, as such, it will not be further pursued by OBTT. PMID:26541177

  17. Respiratory mechanics in brain injury: A review.

    Science.gov (United States)

    Koutsoukou, Antonia; Katsiari, Maria; Orfanos, Stylianos E; Kotanidou, Anastasia; Daganou, Maria; Kyriakopoulou, Magdalini; Koulouris, Nikolaos G; Rovina, Nikoletta

    2016-02-01

    Several clinical and experimental studies have shown that lung injury occurs shortly after brain damage. The responsible mechanisms involve neurogenic pulmonary edema, inflammation, the harmful action of neurotransmitters, or autonomic system dysfunction. Mechanical ventilation, an essential component of life support in brain-damaged patients (BD), may be an additional traumatic factor to the already injured or susceptible to injury lungs of these patients thus worsening lung injury, in case that non lung protective ventilator settings are applied. Measurement of respiratory mechanics in BD patients, as well as assessment of their evolution during mechanical ventilation, may lead to preclinical lung injury detection early enough, allowing thus the selection of the appropriate ventilator settings to avoid ventilator-induced lung injury. The aim of this review is to explore the mechanical properties of the respiratory system in BD patients along with the underlying mechanisms, and to translate the evidence of animal and clinical studies into therapeutic implications regarding the mechanical ventilation of these critically ill patients. PMID:26855895

  18. Magnetic resonance imaging in diffuse brain injury

    International Nuclear Information System (INIS)

    Forty cases diagnosed as diffuse brain injury (DBI) were studied by magnetic resonance imaging (MRI) performed within 3 days after injury. These cases were divided into two groups, which were the concussion group and diffuse axonal injury (DAI) group established by Gennarelli. There were no findings on computerized tomography (CT) in the concussion group except for two cases which had a brain edema or subarachnoid hemorrhage. But on MRI, high intensity areas on T2 weighted imaging were demonstrated in the cerebral white matter in this group. Many lesions in this group were thought to be edemas of the cerebral white matter, because of the fact that on serial MRI, they were isointense. In mild types of DAI, the lesions on MRI were located only in the cerebral white matter, whereas, in the severe types of DAI, lesions were located in the basal ganglia, the corpus callosum, the dorsal part of the brain stem as well as in the cerebral white matter. As for CT findings, parenchymal lesions were not visualized especially in mild DAI. Our results suggested that the lesions in cerebral concussion were edemas in cerebral white matter. In mild DAI they were non-hemorrhagic contusion; and in severe DAI they were hemorrhagic contusions in the cerebral white matter, the basal ganglia, the corpus callosum or the dorsal part of the brain stem. (author)

  19. Magnetic resonance imaging in diffuse brain injury

    Energy Technology Data Exchange (ETDEWEB)

    Yokota, Hiroyuki; Yasuda, Kazuhiro; Mashiko, Kunihiro; Henmi, Hiroshi; Otsuka, Toshibumi; Kobayashi, Shiro; Nakazawa, Shozo (Nippon Medical School, Tokyo (Japan))

    1992-01-01

    Forty cases diagnosed as diffuse brain injury (DBI) were studied by magnetic resonance imaging (MRI) performed within 3 days after injury. These cases were divided into two groups, which were the concussion group and diffuse axonal injury (DAI) group established by Gennarelli. There were no findings on computerized tomography (CT) in the concussion group except for two cases which had a brain edema or subarachnoid hemorrhage. But on MRI, high intensity areas on T2 weighted imaging were demonstrated in the cerebral white matter in this group. Many lesions in this group were thought to be edemas of the cerebral white matter, because of the fact that on serial MRI, they were isointense. In mild types of DAI, the lesions on MRI were located only in the cerebral white matter, whereas, in the severe types of DAI, lesions were located in the basal ganglia, the corpus callosum, the dorsal part of the brain stem as well as in the cerebral white matter. As for CT findings, parenchymal lesions were not visualized especially in mild DAI. Our results suggested that the lesions in cerebral concussion were edemas in cerebral white matter. In mild DAI they were non-hemorrhagic contusion; and in severe DAI they were hemorrhagic contusions in the cerebral white matter, the basal ganglia, the corpus callosum or the dorsal part of the brain stem. (author).

  20. Traumatic brain injury and olfactory deficits

    DEFF Research Database (Denmark)

    Fortin, Audrey; Lefebvre, Mathilde Beaulieu; Ptito, Maurice

    2010-01-01

    PRIMARY OBJECTIVE: Olfactory functions are not systematically evaluated following traumatic brain injury (TBI). This study aimed at comparing two smell tests that are used in a clinical setting. RESEARCH DESIGN: The University of Pennsylvania Smell Identification Test (UPSIT) and the Alberta Smell....... RESULTS: The scores of the two smell tests were significantly correlated. Both tests indicated that patients with frontal lesion performed significantly worse than patients with other types of lesion. Mood and injury severity were not associated with olfactory impairment when age was taken into account...... Alberta Smell test. To refine their diagnosis, the UPSIT can also be used....

  1. Surviving severe traumatic brain injury in Denmark

    DEFF Research Database (Denmark)

    Odgaard, Lene; Poulsen, Ingrid; Kammersgaard, Lars Peter;

    2015-01-01

    PURPOSE: To identify all hospitalized patients surviving severe traumatic brain injury (TBI) in Denmark and to compare these patients to TBI patients admitted to highly specialized rehabilitation (HS-rehabilitation). PATIENTS AND METHODS: Patients surviving severe TBI were identified from The...... severe TBI were admitted to HS-rehabilitation. Female sex, older age, and non-working status pre-injury were independent predictors of no HS-rehabilitation among patients surviving severe TBI. CONCLUSION: The incidence rate of hospitalized patients surviving severe TBI was stable in Denmark and the...

  2. Fatigue in adults with traumatic brain injury

    DEFF Research Database (Denmark)

    Mollayeva, Tatyana; Kendzerska, Tetyana; Mollayeva, Shirin;

    2013-01-01

    BACKGROUND: Despite strong indications that fatigue is the most common and debilitating symptom after traumatic brain injury, little is known about its frequency, natural history, or relation to other factors. The current protocol outlines a strategy for a systematic review that will identify......, assess, and critically appraise studies that assessed predictors for fatigue and the consequences of fatigue on at least two separate time points following traumatic brain injury. METHODS/DESIGN: MEDLINE, EMBASE, the Cochrane Database of Systematic Reviews, CINAHL, and PsycINFO will be systematically...... quality appraisal. Randomized control trial data will be treated as a cohort. The quality will be assessed using the criteria defined by Hayden and colleagues. The review will be conducted and reported in compliance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines...

  3. Standardizing Data Collection in Traumatic Brain Injury

    OpenAIRE

    Maas, Andrew I.R.; Harrison-Felix, Cynthia L.; Menon, David; Adelson, P. David; Balkin, Tom; Bullock, Ross; Engel, Doortje C.; Gordon, Wayne; Langlois-Orman, Jean; Lew, Henry L.; Robertson, Claudia; Temkin, Nancy; Valadka, Alex; VERFAELLIE, MIEKE; Wainwright, Mark

    2011-01-01

    Collaboration among investigators, centers, countries, and disciplines is essential to advancing the care for traumatic brain injury (TBI). It is thus important that we “speak the same language.” Great variability, however, exists in data collection and coding of variables in TBI studies, confounding comparisons between and analysis across different studies. Randomized controlled trials can never address the many uncertainties concerning treatment approaches in TBI. Pooling data from differen...

  4. Traumatic Brain Injury, Boredom and Depression

    OpenAIRE

    James Danckert; Yael Goldberg

    2013-01-01

    Traumatic brain injury (TBI) often presents with co-morbid depression and elevated levels of boredom. We explored the relationship between boredom and depression in a group of mild (n = 38), moderate-to-severe TBI patients (n = 14) and healthy controls (n = 88), who completed the Beck Depression Inventory and Boredom Proneness Scales as part of a larger study. Results showed that the relationship between boredom and depression was strongest in moderate-to-severe TBI patients. We explored two ...

  5. Cooking breakfast after a brain injury

    OpenAIRE

    Tanguay, Annick N.; Davidson, Patrick S. R.; K. Vanessa eGuerrero Nuñez; Ferland, Mark B.

    2014-01-01

    Acquired brain injury (ABI) often compromises the ability to carry out instrumental activities of daily living such as cooking. ABI patients' difficulties with executive functions and memory result in less independent and efficient meal preparation. Accurately assessing safety and proficiency in cooking is essential for successful community reintegration following ABI, but in vivo assessment of cooking by clinicians is time-consuming, costly, and difficult to standardize. Accordingly, we exam...

  6. Anemia and brain oxygen after severe traumatic brain injury

    OpenAIRE

    Oddo, Mauro; Levine, Joshua M.; Kumar, Monisha; Iglesias, Katia; Frangos, Suzanne; Maloney-Wilensky, Eileen; Le Roux, Peter D.

    2016-01-01

    Purpose To investigate the relationship between hemoglobin (Hgb) and brain tissue oxygen tension (PbtO2) after severe traumatic brain injury (TBI) and to examine its impact on outcome. Methods This was a retrospective analysis of a prospective cohort of severe TBI patients whose PbtO2 was monitored. The relationship between Hgb—categorized into four quartiles (≤9; 9–10; 10.1–11; >11 g/dl)—and PbtO2 was analyzed using mixed-effects models. Anemia with compromised PbtO2 was defined as episodes...

  7. Inflammatory neuroprotection following traumatic brain injury.

    Science.gov (United States)

    Russo, Matthew V; McGavern, Dorian B

    2016-08-19

    Traumatic brain injury (TBI) elicits an inflammatory response in the central nervous system (CNS) that involves both resident and peripheral immune cells. Neuroinflammation can persist for years following a single TBI and may contribute to neurodegeneration. However, administration of anti-inflammatory drugs shortly after injury was not effective in the treatment of TBI patients. Some components of the neuroinflammatory response seem to play a beneficial role in the acute phase of TBI. Indeed, following CNS injury, early inflammation can set the stage for proper tissue regeneration and recovery, which can, perhaps, explain why general immunosuppression in TBI patients is disadvantageous. Here, we discuss some positive attributes of neuroinflammation and propose that inflammation be therapeutically guided in TBI patients rather than globally suppressed. PMID:27540166

  8. Traumatic brain injury in modern war

    Science.gov (United States)

    Ling, Geoffrey S. F.; Hawley, Jason; Grimes, Jamie; Macedonia, Christian; Hancock, James; Jaffee, Michael; Dombroski, Todd; Ecklund, James M.

    2013-05-01

    Traumatic brain injury (TBI) is common and especially with military service. In Iraq and Afghanistan, explosive blast related TBI has become prominent and is mainly from improvised explosive devices (IED). Civilian standard of care clinical practice guidelines (CPG) were appropriate has been applied to the combat setting. When such CPGs do not exist or are not applicable, new practice standards for the military are created, as for TBI. Thus, CPGs for prehospital care of combat TBI CPG [1] and mild TBI/concussion [2] were introduced as was a DoD system-wide clinical care program, the first large scale system wide effort to address all severities of TBI in a comprehensive organized way. As TBI remains incompletely understood, substantial research is underway. For the DoD, leading this effort are The Defense and Veterans Brain Injury Center, National Intrepid Center of Excellence and the Defense Centers of Excellence for Psychological Health and Traumatic Brain Injury. This program is a beginning, a work in progress ready to leverage advances made scientifically and always with the intent of providing the best care to its military beneficiaries.

  9. Neonatal ischemic brain injury: what every radiologist needs to know

    International Nuclear Information System (INIS)

    We present a pictorial review of neonatal ischemic brain injury and look at its pathophysiology, imaging features and differential diagnoses from a radiologist's perspective. The concept of perinatal stroke is defined and its distinction from hypoxic-ischemic injury is emphasized. A brief review of recent imaging advances is included and a diagnostic approach to neonatal ischemic brain injury is suggested. (orig.)

  10. Secondary Damage after Traumatic Brain Injury: Epidemiology, Pathophysiology and Therapy

    NARCIS (Netherlands)

    D.C. Engel (Doortje Caroline)

    2008-01-01

    textabstractTraumatic brain injury (TBI) is defined as a microscopic or macroscopic injury to the brain caused by external physical forces. Road traffic accidents, falls, sports injuries (i.e. boxing), recreational accidents (i.e. parachute jumping), the use of firearms, assault, child abuse, and se

  11. Imaging assessment of traumatic brain injury.

    Science.gov (United States)

    Currie, Stuart; Saleem, Nayyar; Straiton, John A; Macmullen-Price, Jeremy; Warren, Daniel J; Craven, Ian J

    2016-01-01

    Traumatic brain injury (TBI) constitutes injury that occurs to the brain as a result of trauma. It should be appreciated as a heterogeneous, dynamic pathophysiological process that starts from the moment of impact and continues over time with sequelae potentially seen many years after the initial event. Primary traumatic brain lesions that may occur at the moment of impact include contusions, haematomas, parenchymal fractures and diffuse axonal injury. The presence of extra-axial intracranial lesions such as epidural and subdural haematomas and subarachnoid haemorrhage must be anticipated as they may contribute greatly to secondary brain insult by provoking brain herniation syndromes, cranial nerve deficits, oedema and ischaemia and infarction. Imaging is fundamental to the management of patients with TBI. CT remains the imaging modality of choice for initial assessment due to its ease of access, rapid acquisition and for its sensitivity for detection of acute haemorrhagic lesions for surgical intervention. MRI is typically reserved for the detection of lesions that may explain clinical symptoms that remain unresolved despite initial CT. This is especially apparent in the setting of diffuse axonal injury, which is poorly discerned on CT. Use of particular MRI sequences may increase the sensitivity of detecting such lesions: diffusion-weighted imaging defining acute infarction, susceptibility-weighted imaging affording exquisite data on microhaemorrhage. Additional advanced MRI techniques such as diffusion tensor imaging and functional MRI may provide important information regarding coexistent structural and functional brain damage. Gaining robust prognostic information for patients following TBI remains a challenge. Advanced MRI sequences are showing potential for biomarkers of disease, but this largely remains at the research level. Various global collaborative research groups have been established in an effort to combine imaging data with clinical and

  12. Aquaporin 9 in rat brain after severe traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Hui Liu

    2012-03-01

    Full Text Available OBJECTIVE: To reveal the expression and possible roles of aquaporin 9 (AQP9 in rat brain, after severe traumatic brain injury (TBI. METHODS: Brain water content (BWC, tetrazolium chloride staining, Evans blue staining, immunohistochemistry (IHC, immunofluorescence (IF, western blot, and real-time polymerase chain reaction were used. RESULTS: The BWC reached the first and second (highest peaks at 6 and 72 hours, and the blood brain barrier (BBB was severely destroyed at six hours after the TBI. The worst brain ischemia occurred at 72 hours after TBI. Widespread AQP9-positive astrocytes and neurons in the hypothalamus were detected by means of IHC and IF after TBI. The abundance of AQP9 and its mRNA increased after TBI and reached two peaks at 6 and 72 hours, respectively, after TBI. CONCLUSIONS: Increased AQP9 might contribute to clearance of excess water and lactate in the early stage of TBI. Widespread AQP9-positive astrocytes might help lactate move into neurons and result in cellular brain edema in the later stage of TBI. AQP9-positive neurons suggest that AQP9 plays a role in energy balance after TBI.

  13. Cushing's ulcer in traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Biteghe-bi-Nzeng Alain; WANG Yun-jie

    2008-01-01

    Traumatic brain injury(TBI)remains a complicated and urgent disease in our modernized cities. It becomes now a public health disease. We have got more and more patients in Neurosurgery Intensive Care Unit following motor vehicle accidents and others causes. TBI brings multiple disorders,from the primary injury to secondary injury. The body received the disturbances in the brain,in the hypothalamo-pituitary-adrenocortical(HPA)axis,in the gastric mucosa,in the immune and neuroendocrine systems.The mortality of TBI is more than 50 000 deaths/year, the third of the mortality of all iniuries. Cushing ulcer is one of the severe complications of TBI and its mortality rate is more than 50%. Many studies have improved the management of TBI and the associated complications to give patients a better outcome. Furthers studies need to be done based on the similar methodology to clarify the different steps of the HPA axis and the neuroendocrine change associated. The aim of the present review is to assess the clinical and endocrinal features of hypopituitarism and stress ulcer following TBI.

  14. Electrophysiologic monitoring in acute brain injury.

    Science.gov (United States)

    Claassen, Jan; Vespa, Paul

    2014-12-01

    To determine the optimal use and indications of electroencephalography (EEG) in critical care management of acute brain injury (ABI). An electronic literature search was conducted for articles in English describing electrophysiological monitoring in ABI from January 1990 to August 2013. A total of 165 studies were included. EEG is a useful monitor for seizure and ischemia detection. There is a well-described role for EEG in convulsive status epilepticus and cardiac arrest (CA). Data suggest EEG should be considered in all patients with ABI and unexplained and persistent altered consciousness and in comatose intensive care unit (ICU) patients without an acute primary brain condition who have an unexplained impairment of mental status. There remain uncertainties about certain technical details, e.g., the minimum duration of EEG studies, the montage, and electrodes. Data obtained from both EEG and EP studies may help estimate prognosis in ABI patients, particularly following CA and traumatic brain injury. Data supporting these recommendations is sparse, and high quality studies are needed. EEG is used to monitor and detect seizures and ischemia in ICU patients and indications for EEG are clear for certain disease states, however, uncertainty remains on other applications. PMID:25208668

  15. Mild Traumatic Brain Injuries : A 10-year follow-up

    OpenAIRE

    Elgmark Andersson, Elisabeth; Bedics, Beate Kärrdahl; Falkmer, Torbjörn

    2011-01-01

    Objective and design: Long-term consequences of mild traumatic brain injuries were investigated based on a 10-year follow-up of patients from a previously published randomized controlled study of mild traumatic brain injuries. One aim was to describe changes over time after mild traumatic brain injuries in terms of the extent of persisting post-concussion symptoms, life satisfaction, perceived health, activities of daily living, changes in life roles and sick leave. Another aim was to identif...

  16. A study of rotational brain injury.

    Science.gov (United States)

    Misra, J C; Chakravarty, S

    1984-01-01

    Of concern in the paper is an investigation on brain injuries which may occur owing to an input angular acceleration of the head. The study is based on the use of an improved mathematical model for the cranium. The eccentricity of the braincase is incorporated through the consideration of a prolate spheroidal shell as the representative of the skull. Also the dissipative mechanical behaviour of the brain material (as per the observations of experimenters) has been accounted for by considering the material contained in the shell as viscoelastic. The problem is formulated in terms of prolate spheroidal coordinates. The singularities of the governing equations of motion (when expressed in the prolate coordinate system) are removed by a suitable transformation of the concerned dependent variable, viz. the one that stands for the angular displacement of a representative point of the system. In the first place the solution of the boundary value problem is sought in the Laplace transform space, by employing a finite difference technique. Use of the alternating-direction-implicit method together with Thomas algorithm was made for obtaining the angular acceleration in the transformed space. The Laplace inversion is also carried out with the help of numerical procedures (Gauss quadrature formula is used for this purpose). The results of the parametric study are presented through graphs. The plots illustrate the shear stresses and strains in the brain medium. A meaningful comparison of the computational results with those of previous investigations indicate that the eccentricity of the braincase plays a significant role in causing injury to the brain. PMID:6480621

  17. Cyclosporine Treatment in Traumatic Brain Injury: Operation Brain Trauma Therapy.

    Science.gov (United States)

    Dixon, C Edward; Bramlett, Helen M; Dietrich, W Dalton; Shear, Deborah A; Yan, Hong Q; Deng-Bryant, Ying; Mondello, Stefania; Wang, Kevin K W; Hayes, Ronald L; Empey, Philip E; Povlishock, John T; Tortella, Frank C; Kochanek, Patrick M

    2016-03-15

    Operation Brain Trauma Therapy (OBTT) is a consortium of investigators using multiple pre-clinical models of traumatic brain injury (TBI) to bring acute therapies to clinical trials. To screen therapies, we used three rat models (parasagittal fluid percussion injury [FPI], controlled cortical impact [CCI], and penetrating ballistic-like brain injury [PBBI]). We report results of the third therapy (cyclosporin-A; cyclosporine; [CsA]) tested by OBTT. At each site, rats were randomized to treatment with an identical regimen (TBI + vehicle, TBI + CsA [10 mg/kg], or TBI + CsA [20 mg/kg] given intravenously at 15 min and 24 h after injury, and sham). We assessed motor and Morris water maze (MWM) tasks over 3 weeks after TBI and lesion volume and hemispheric tissue loss at 21 days. In FPI, CsA (10 mg/kg) produced histological protection, but 20 mg/kg worsened working memory. In CCI, CsA (20 mg/kg) impaired MWM performance; surprisingly, neither dose showed benefit on any outcome. After PBBI, neither dose produced benefit on any outcome, and mortality was increased (20 mg/kg) partly caused by the solvent vehicle. In OBTT, CsA produced complex effects with histological protection at the lowest dose in the least severe model (FPI), but only deleterious effects as model severity increased (CCI and PBBI). Biomarker assessments included measurements of glial fibrillary acidic protein (GFAP) and ubiquitin C-terminal hydrolase-L1 (UCH-L1) in blood at 4 or 24 h after injury. No positive treatment effects were seen on biomarker levels in any of the models, whereas significant increases in 24 h UCH-L1 levels were seen with CsA (20 mg/kg) after CCI and 24 h GFAP levels in both CsA treated groups in the PBBI model. Lack of behavioral protection in any model, indicators of toxicity, and a narrow therapeutic index reduce enthusiasm for clinical translation. PMID:26671075

  18. Erythropoietin Treatment in Traumatic Brain Injury: Operation Brain Trauma Therapy.

    Science.gov (United States)

    Bramlett, Helen M; Dietrich, W Dalton; Dixon, C Edward; Shear, Deborah A; Schmid, Kara E; Mondello, Stefania; Wang, Kevin K W; Hayes, Ronald L; Povlishock, John T; Tortella, Frank C; Kochanek, Patrick M

    2016-03-15

    Experimental studies targeting traumatic brain injury (TBI) have reported that erythropoietin (EPO) is an endogenous neuroprotectant in multiple models. In addition to its neuroprotective effects, it has also been shown to enhance reparative processes including angiogenesis and neurogenesis. Based on compelling pre-clinical data, EPO was tested by the Operation Brain Trauma Therapy (OBTT) consortium to evaluate therapeutic potential in multiple TBI models along with biomarker assessments. Based on the pre-clinical TBI literature, two doses of EPO (5000 and 10,000 IU/kg) were tested given at 15 min after moderate fluid percussion brain injury (FPI), controlled cortical impact (CCI), or penetrating ballistic-like brain injury (PBBI) with subsequent behavioral, histopathological, and biomarker outcome assessments. There was a significant benefit on beam walk with the 5000 IU dose in CCI, but no benefit on any other motor task across models in OBTT. Also, no benefit of EPO treatment across the three TBI models was noted using the Morris water maze to assess cognitive deficits. Lesion volume analysis showed no treatment effects after either FPI or CCI; however, with the 5000 IU/kg dose of EPO, a paradoxical increase in lesion volume and percent hemispheric tissue loss was seen after PBBI. Biomarker assessments included measurements of glial fibrillary acidic protein (GFAP) and ubiquitin C-terminal hydrolase-L1 (UCH-L1) in blood at 4 or 24 h after injury. No treatment effects were seen on biomarker levels after FPI, whereas treatment at either dose exacerbated the increase in GFAP at 24 h in PBBI but attenuated 24-4 h delta UCH-L1 levels at high dose in CCI. Our data indicate a surprising lack of efficacy of EPO across three established TBI models in terms of behavioral, histopathological, and biomarker assessments. Although we cannot rule out the possibility that other doses or more prolonged treatment could show different effects, the lack of efficacy of EPO

  19. The History and Evolution of Experimental Traumatic Brain Injury Models.

    Science.gov (United States)

    Povlishock, John

    2016-01-01

    This narrative provides a brief history of experimental animal model development for the study of traumatic brain injury. It draws upon a relatively rich history of early animal modeling that employed higher order animals to assess concussive brain injury while exploring the importance of head movement versus stabilization in evaluating the animal's response to injury. These themes are extended to the development of angular/rotational acceleration/deceleration models that also exploited brain movement to generate both the morbidity and pathology typically associated with human traumatic brain injury. Despite the significance of these early model systems, their limitations and overall practicality are discussed. Consideration is given to more contemporary rodent animal models that replicate individual/specific features of human injury, while via various transgenic technologies permitting the evaluation of injury-mediated pathways. The narrative closes on a reconsideration of higher order, porcine animal models of injury and their implication for preclinical/translational research. PMID:27604709

  20. Robust whole-brain segmentation: application to traumatic brain injury.

    Science.gov (United States)

    Ledig, Christian; Heckemann, Rolf A; Hammers, Alexander; Lopez, Juan Carlos; Newcombe, Virginia F J; Makropoulos, Antonios; Lötjönen, Jyrki; Menon, David K; Rueckert, Daniel

    2015-04-01

    We propose a framework for the robust and fully-automatic segmentation of magnetic resonance (MR) brain images called "Multi-Atlas Label Propagation with Expectation-Maximisation based refinement" (MALP-EM). The presented approach is based on a robust registration approach (MAPER), highly performant label fusion (joint label fusion) and intensity-based label refinement using EM. We further adapt this framework to be applicable for the segmentation of brain images with gross changes in anatomy. We propose to account for consistent registration errors by relaxing anatomical priors obtained by multi-atlas propagation and a weighting scheme to locally combine anatomical atlas priors and intensity-refined posterior probabilities. The method is evaluated on a benchmark dataset used in a recent MICCAI segmentation challenge. In this context we show that MALP-EM is competitive for the segmentation of MR brain scans of healthy adults when compared to state-of-the-art automatic labelling techniques. To demonstrate the versatility of the proposed approach, we employed MALP-EM to segment 125 MR brain images into 134 regions from subjects who had sustained traumatic brain injury (TBI). We employ a protocol to assess segmentation quality if no manual reference labels are available. Based on this protocol, three independent, blinded raters confirmed on 13 MR brain scans with pathology that MALP-EM is superior to established label fusion techniques. We visually confirm the robustness of our segmentation approach on the full cohort and investigate the potential of derived symmetry-based imaging biomarkers that correlate with and predict clinically relevant variables in TBI such as the Marshall Classification (MC) or Glasgow Outcome Score (GOS). Specifically, we show that we are able to stratify TBI patients with favourable outcomes from non-favourable outcomes with 64.7% accuracy using acute-phase MR images and 66.8% accuracy using follow-up MR images. Furthermore, we are able to

  1. Increased expression of aquaporin-4 in human traumatic brain injury and brain tumors

    Institute of Scientific and Technical Information of China (English)

    HU Hua; YAO Hong-tian; ZHANG Wei-ping; ZHANG LEI; DING Wei; ZHANG Shi-hong; CHEN Zhong; WEI Er-qing

    2005-01-01

    Objective: To characterize the expression of aquaporin-4 (AQP4), one of the aquaporins (AQPs), in human brain specimens from patients with traumatic brain injury or brain tumors. Methods: Nineteen human brain specimens were obtained from the patients with traumatic brain injury, brain tumors, benign meningioma or early stage hemorrhagic stroke. MRI or CT imaging was used to assess brain edema. Hematoxylin and eosin staining were used to evaluate cell damage. Immunohistochemistry was used to detect the AQP4 expression. Results: AQP4 expression was increased from 15h to at least 8 d after injury. AQP4immunoreactivity was strong around astrocytomas, ganglioglioma and metastatic adenocarcinoma. However, AQP4 immunoreactivity was only found in the centers of astrocytomas and ganglioglioma, but not in metastatic adenocarcinoma derived from lung.Conclusion: AQP4 expression increases in human brains after traumatic brain injury, within brain-derived tumors, and around brain tumors.

  2. Neuropsychological rehabilitation for traumatic brain injury patients

    Directory of Open Access Journals (Sweden)

    Marzena Chantsoulis

    2015-05-01

    Full Text Available The aim of this review is to discuss the basic forms of neuropsychological rehabilitation for patients with traumatic brain injury (TBI. More broadly, we discussed cognitive rehabilitation therapy (CRT which constitutes a fundamental component in therapeutic interaction at many centres worldwide. Equally presented is a comprehensive model of rehabilitation, the fundamental component of which is CRT. It should be noted that the principles of this approach first arose in Poland in the 1970s, in other words, several decades before their appearance in other programmemes. Taken into consideration are four factors conditioning the effectiveness of such a process: comprehensiveness, earlier interaction, universality and its individualized character. A comprehensive programmeme of rehabilitation covers: cognitive rehabilitation, individual and group rehabilitation with the application of a therapeutic environment, specialist vocational rehabilitation, as well as family psychotherapy. These training programmemes are conducted within the scope of the ‘Academy of Life,’ which provides support for the patients in their efforts and shows them the means by which they can overcome existing difficulties. Equally emphasized is the close cooperation of the whole team of specialists, as well as the active participation of the family as an essential condition for the effectiveness of rehabilitation and, in effect, a return of the patient to a relatively normal life. Also presented are newly developing neurothechnologies and the neuromarkers of brain injuries. This enables a correct diagnosis to be made and, as a result, the selection of appropriate methods for neuropsychological rehabilitation, including neurotherapy.

  3. Psychiatric disorders and traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Marcelo Schwarzbold

    2008-09-01

    Full Text Available Marcelo Schwarzbold1, Alexandre Diaz1, Evandro Tostes Martins2, Armanda Rufino1, Lúcia Nazareth Amante1,3, Maria Emília Thais1, João Quevedo4, Alexandre Hohl1, Marcelo Neves Linhares1,5,6, Roger Walz1,61Núcleo de Pesquisas em Neurologia Clínica e Experimental (NUPNEC, Departamento de Clínica Médica, Hospital Universitário, UFSC, Florianópolis, SC, Brazil; 2Unidade de Terapia Intensiva, Hospital Governador Celso Ramos, Florianópolis, SC, Brazil; 3Departamento de Enfermagem, UFSC, Florianópolis, SC, Brazil; 4Laboratório de Neurociências, UNESC, Criciúma, SC, Brazil; 5Departamento de Cirurgia, Hospital Universitário, UFSC, Florianópolis, SC, Brazil; 6Centro de Cirurgia de Epilepsia de Santa Catarina (CEPESC, Hospital Governador Celso Ramos, Florianópolis, SC, BrazilAbstract: Psychiatric disorders after traumatic brain injury (TBI are frequent. Researches in this area are important for the patients’ care and they may provide hints for the comprehension of primary psychiatric disorders. Here we approach epidemiology, diagnosis, associated factors and treatment of the main psychiatric disorders after TBI. Finally, the present situation of the knowledge in this field is discussed.Keywords: psychiatric disorders, traumatic brain injury, neuropsychiatry, diagnostic, epidemiology, pathophysiology

  4. Graph Analysis of Functional Brain Networks for Cognitive Control of Action in Traumatic Brain Injury

    Science.gov (United States)

    Caeyenberghs, Karen; Leemans, Alexander; Heitger, Marcus H.; Leunissen, Inge; Dhollander, Thijs; Sunaert, Stefan; Dupont, Patrick; Swinnen, Stephan P.

    2012-01-01

    Patients with traumatic brain injury show clear impairments in behavioural flexibility and inhibition that often persist beyond the time of injury, affecting independent living and psychosocial functioning. Functional magnetic resonance imaging studies have shown that patients with traumatic brain injury typically show increased and more broadly…

  5. White Matter Damage and Cognitive Impairment after Traumatic Brain Injury

    Science.gov (United States)

    Kinnunen, Kirsi Maria; Greenwood, Richard; Powell, Jane Hilary; Leech, Robert; Hawkins, Peter Charlie; Bonnelle, Valerie; Patel, Maneesh Chandrakant; Counsell, Serena Jane; Sharp, David James

    2011-01-01

    White matter disruption is an important determinant of cognitive impairment after brain injury, but conventional neuroimaging underestimates its extent. In contrast, diffusion tensor imaging provides a validated and sensitive way of identifying the impact of axonal injury. The relationship between cognitive impairment after traumatic brain injury…

  6. Referral decision support in patients with subacute brain injury

    DEFF Research Database (Denmark)

    Pedersen, Asger R; Nielsen, Jørgen F; Jensen, Jim;

    2016-01-01

    support in the RCS-E and the item specific threshold model, when patients with acquired brain injury are to be referred to CSS or DSS as their primary rehabilitation. Implications for Rehabilitation Efficient rehabilitation after acquired brain injury requires rehabilitation settings that meet patient...

  7. Increased expression of aquaporin-4 in human traumatic brain injury and brain tumors

    Institute of Scientific and Technical Information of China (English)

    HuaHu; Wei-PingZhang; LeiZhang; ZhongChen; Er-QingWei

    2004-01-01

    Aquaporin-4 (AQP4) is one of the aquaporins (AQPs), a water channel family. In the brain, AQP4 is expressed in astroeyte foot processes, and plays an important role in water homeostasis and in the formation of brain edema. In our study, AQP4 expression in human brain specimens from patients with traumatic brain injury or different brain tumors was detected

  8. Serious brain injury coexisting with multiple injuries caused by traffic accidents in 69 cases

    Institute of Scientific and Technical Information of China (English)

    张浚; 张鹤飞; 等

    1999-01-01

    Objective To explore the speciality,diagnosis,cure principle of serious brain injury coexisting with nultiple injuries caused by traffic accidents.Methods To analyze the clinic data of 69 cases of serious rain injury combined by oter parts of injuries caused by traffic accidents received from January 1998 to April 1999.Results This type of injury took up 11.5 percent of brain injuries in the same term and 33.6 percent of serious brain injuries.The specialities of the injury are that most of them were pedestrians crashed by vehicles.Coesisting injuries including chest injury and limb fractures accounted for a large part.The brain injury usally presented profound disturbance of consciousness,being dangerous and complicated,and a high ISS value.After treatment 13 cases died,9 cases was heavily crippled,11 cases lightly crippled,and 36 cases recovered.The death was usually caused by brain injury.Conclusions Road traffic accidents increased substantially every year.Most of them are related with violating drive rules and regulations.It is important to decrease the road traffic accidents by strengthening propaganda on traffic safety and traffic management.The main principles for salvage should emphasize the importance of pre-hospital emergency rescue and the accurate diagnosis rate,especially the distinction between coma and shock.The priority should be put on those injuries threatening to life.

  9. Brain and head injury in infancy and childhood

    International Nuclear Information System (INIS)

    This article describes typical head injuries in infants and children. In comparison with adults there are distinct differences in the etiology of trauma and in the kind of reaction of the skull and brain. In infants and children there are three different types of trauma: birth trauma, accidental and non-accidental injury. The typical injuries in these three groups are described. (orig.)

  10. Astrocytes as therapeutic targets of estrogenic compounds following brain injuries

    Directory of Open Access Journals (Sweden)

    George E. Barreto

    2015-03-01

    Full Text Available For decades, astrocytes have been considered to be non-excitable support cells that are relatively resistant to brain injury. This view has changed radically during the past twenty years. Multiple essential functions are performed by astrocytes in normal brain. Astrocytes are dynamically involved in synaptic transmission, metabolic and ionic homeostasis, and inflammatory maintenance of the blood brain barrier. Advances in our understanding of astrocytes include new observations about their structure, organization, and function. Astrocytes play an active and important role in the pathophysiology of brain damage. Brain injury impairs mitochondrial function and this is accompanied by increased oxidative stress, leading to prominent astrogliosis, which involves changes in gene expression and morphology, and therefore glial scar formation. Recent works have demonstrated a protective role of reactive astrocytes after brain injury. Nevertheless, others have pointed to an inhibitory role of astrocytes in axonal regeneration after injury. Reactive astrogliosis is a complex phenomenon that includes a mixture of positive and negative responses for neuronal survival and regeneration. Reactive astroglia maintains the integrity of the blood-brain barrier and the survival of the perilesional tissue, but may prevent axonal and damaged tissue regeneration. Neuroprotective strategies aiming at reducing gliosis and enhance brain plasticity are of potential interest for translational neuroscience research in brain injuries. In this context, neurosteroids have shown to be a promising strategy to protect brain against injury, as their effects may rely on reducing gliosis, brain inflammation and potentially modulating recovery from brain injury by engaging mechanisms of neural plasticity. In conclusion, in this work we will consider particularly the two-edged sword role of reactive astrocytes, which is an experimental paradigm helpful in discriminating destructive

  11. Patterns of Brain Injury in Inborn Errors of Metabolism

    OpenAIRE

    Gropman, Andrea L.

    2012-01-01

    Many inborn errors of metabolism (IEMs) are associated with irreversible brain injury. For many, it is unclear how metabolite intoxication or substrate depletion accounts for the specific neurologic findings observed. IEM-associated brain injury patterns are characterized by whether the process involves gray matter, white matter, or both, and beyond that, whether subcortical or cortical gray matter nuclei are involved. Despite global insults, IEMs may result in selective injury to deep gray m...

  12. Neonatal ischemic brain injury: what every radiologist needs to know

    Energy Technology Data Exchange (ETDEWEB)

    Badve, Chaitra A.; Khanna, Paritosh C.; Ishak, Gisele E. [Seattle Children' s Hospital, University of Washington Medical Center, Department of Radiology, Seattle, WA (United States)

    2012-05-15

    We present a pictorial review of neonatal ischemic brain injury and look at its pathophysiology, imaging features and differential diagnoses from a radiologist's perspective. The concept of perinatal stroke is defined and its distinction from hypoxic-ischemic injury is emphasized. A brief review of recent imaging advances is included and a diagnostic approach to neonatal ischemic brain injury is suggested. (orig.)

  13. Genetic susceptibility to traumatic brain injury and apolipoprotein E gene

    Institute of Scientific and Technical Information of China (English)

    SUN Xiao-chuan; JIANG Yong

    2008-01-01

    @@ Traumatic brain injury (TBI) is defined as an injury caused by a blow or jolt to the head or a penetrating head injury that disrupts the normal function of the brain. It is a common emergency and severe case in neurosurgery field. Nowadays, there are more and more evidences showing that TBI, which is apparently similar in pathology and severity in the acute stage, may have different outcomes.

  14. Secondary Damage after Traumatic Brain Injury: Epidemiology, Pathophysiology and Therapy

    OpenAIRE

    Engel, Doortje Caroline

    2008-01-01

    textabstractTraumatic brain injury (TBI) is defined as a microscopic or macroscopic injury to the brain caused by external physical forces. Road traffic accidents, falls, sports injuries (i.e. boxing), recreational accidents (i.e. parachute jumping), the use of firearms, assault, child abuse, and several rare causes e.g. the use of nail guns or lawn mowers have all been described as causes of TBI. The pathology of TBI can be classified by mechanism (closed versus penetrating); clinical severi...

  15. Routine and quantitative EEG in mild traumatic brain injury.

    Science.gov (United States)

    Nuwer, Marc R; Hovda, David A; Schrader, Lara M; Vespa, Paul M

    2005-09-01

    This article reviews the pathophysiology of mild traumatic brain injury, and the findings from EEG and quantitative EEG (QEEG) testing after such an injury. Research on the clinical presentation and pathophysiology of mild traumatic brain injury is reviewed with an emphasis on details that may pertain to EEG or QEEG and their interpretation. Research reports on EEG and QEEG in mild traumatic brain injury are reviewed in this setting, and conclusions are drawn about general diagnostic results that can be determined using these tests. QEEG strengths and weaknesses are reviewed in the context of factors used to determine the clinical usefulness of proposed diagnostic tests. Clinical signs, symptoms, and the pathophysiologic axonal injury and cytotoxicity tend to clear over weeks or months after a mild head injury. Loss of consciousness might be similar to a non-convulsive seizure and accompanied subsequently by postictal-like symptoms. EEG shows slowing of the posterior dominant rhythm and increased diffuse theta slowing, which may revert to normal within hours or may clear more slowly over many weeks. There are no clear EEG or QEEG features unique to mild traumatic brain injury. Late after head injury, the correspondence is poor between electrophysiologic findings and clinical symptoms. Complicating factors are reviewed for the proposed commercial uses of QEEG as a diagnostic test for brain injury after concussion or mild traumatic brain injury. The pathophysiology, clinical symptoms and electrophysiological features tend to clear over time after mild traumatic brain injury. There are no proven pathognomonic signatures useful for identifying head injury as the cause of signs and symptoms, especially late after the injury. PMID:16029958

  16. The potential of neural transplantation for brain repair and regeneration following traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Dong Sun

    2016-01-01

    Traumatic brain injury is a major health problem worldwide. Currently, there is no effective treatment to improve neural structural repair and functional recovery of patients in the clinic. Cell transplantation is a potential strategy to repair and regenerate the injured brain. This review article summarized recent de-velopment in cell transplantation studies for post-traumatic brain injury brain repair with varying types of cell sources. It also discussed the potential of neural transplantation to repair/promote recovery of the injured brain following traumatic brain injury.

  17. 78 FR 37834 - Submission for OMB review; 30-Day Comment Request; Federal Interagency Traumatic Brain Injury...

    Science.gov (United States)

    2013-06-24

    ... Interagency Traumatic Brain Injury Research (FITBIR) Informatics System Data Access Request SUMMARY: Under the... Collection: Federal Interagency Traumatic Brain Injury Research (FITBIR) Informatics System Data...

  18. Levetiracetam Treatment in Traumatic Brain Injury: Operation Brain Trauma Therapy.

    Science.gov (United States)

    Browning, Megan; Shear, Deborah A; Bramlett, Helen M; Dixon, C Edward; Mondello, Stefania; Schmid, Kara E; Poloyac, Samuel M; Dietrich, W Dalton; Hayes, Ronald L; Wang, Kevin K W; Povlishock, John T; Tortella, Frank C; Kochanek, Patrick M

    2016-03-15

    Levetiracetam (LEV) is an antiepileptic agent targeting novel pathways. Coupled with a favorable safety profile and increasing empirical clinical use, it was the fifth drug tested by Operation Brain Trauma Therapy (OBTT). We assessed the efficacy of a single 15 min post-injury intravenous (IV) dose (54 or 170 mg/kg) on behavioral, histopathological, and biomarker outcomes after parasagittal fluid percussion brain injury (FPI), controlled cortical impact (CCI), and penetrating ballistic-like brain injury (PBBI) in rats. In FPI, there was no benefit on motor function, but on Morris water maze (MWM), both doses improved latencies and path lengths versus vehicle (p < 0.05). On probe trial, the vehicle group was impaired versus sham, but both LEV treated groups did not differ versus sham, and the 54 mg/kg group was improved versus vehicle (p < 0.05). No histological benefit was seen. In CCI, there was a benefit on beam balance at 170 mg/kg (p < 0.05 vs. vehicle). On MWM, the 54 mg/kg dose was improved and not different from sham. Probe trial did not differ between groups for either dose. There was a reduction in hemispheric tissue loss (p < 0.05 vs. vehicle) with 170 mg/kg. In PBBI, there was no motor, cognitive, or histological benefit from either dose. Regarding biomarkers, in CCI, 24 h glial fibrillary acidic protein (GFAP) blood levels were lower in the 170 mg/kg group versus vehicle (p < 0.05). In PBBI, GFAP blood levels were increased in vehicle and 170 mg/kg groups versus sham (p < 0.05) but not in the 54 mg/kg group. No treatment effects were seen for ubiquitin C-terminal hydrolase-L1 across models. Early single IV LEV produced multiple benefits in CCI and FPI and reduced GFAP levels in PBBI. LEV achieved 10 points at each dose, is the most promising drug tested thus far by OBTT, and the only drug to improve cognitive outcome in any model. LEV has been advanced to testing in the micropig model in OBTT. PMID:26671550

  19. Surgical management of traumatic brain injury

    DEFF Research Database (Denmark)

    Hartings, Jed A; Vidgeon, Steven; Strong, Anthony J;

    2014-01-01

    for TBI were enrolled in the Co-Operative Studies on Brain Injury Depolarizations (COSBID) at King's College Hospital (KCH, n = 27) and Virginia Commonwealth University (VCU, n = 24) from July 2004 to March 2010. Subdural electrode strips were placed at the time of surgery for subsequent...... contusions: 48%-52%), signs of mass effect (midline shift ≥ 5 mm: 43%-52%), and preoperative intracranial pressure (ICP). At VCU, however, surgeries were performed earlier (median 0.51 vs 0.83 days posttrauma, p < 0.05), bone flaps were larger (mean 82 vs 53 cm(2), p < 0.001), and craniectomies were more......-effectiveness study provides evidence for major practice variation in surgical management of severe TBI. Although ages differed between the 2 cohorts, the results suggest that a more aggressive approach, including earlier surgery, larger craniotomy, and removal of bone flap, may reduce ICP, prevent cortical spreading...

  20. Accommodation in mild traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Wesley Green, MS

    2010-05-01

    Full Text Available Accommodative dysfunction in individuals with mild traumatic brain injury (mTBI can have a negative impact on quality of life, functional abilities, and rehabilitative progress. In this study, we used a range of dynamic and static objective laboratory and clinical measurements of accommodation to assess 12 adult patients (ages 18-40 years with mTBI. The results were compared with either 10 control subjects with no visual impairment or normative literature values where available. Regarding the dynamic parameters, responses in those with mTBI were slowed and exhibited fatigue effects. With respect to static parameters, reduced accommodative amplitude and abnormal accommodative interactions were found in those with mTBI. These results provide further evidence for the substantial impact of mTBI on accommodative function. These findings suggest that a range of accommodative tests should be included in the comprehensive vision examination of individuals with mTBI.

  1. Investigation of blast-induced traumatic brain injury

    OpenAIRE

    Taylor, Paul A.; Ludwigsen, John S.; Ford, Corey C.

    2014-01-01

    Objective Many troops deployed in Iraq and Afghanistan have sustained blast-related, closed-head injuries from being within non-lethal distance of detonated explosive devices. Little is known, however, about the mechanisms associated with blast exposure that give rise to traumatic brain injury (TBI). This study attempts to identify the precise conditions of focused stress wave energy within the brain, resulting from blast exposure, which will correlate with a threshold for persistent brain in...

  2. The INTEGRAL/IBIS telescope modelling

    OpenAIRE

    P. Laurent(CEA/DSM/IRFU, Centre de Saclay); Limousin, O.; Malaguti, G.; Caroli, E.; De Cesare, G.; Bird, A.J.; Grygorczuk, J.; Torrejon, J. M.

    2001-01-01

    The main objective of the IBIS modeling activities is the generation of the IBIS spectral response matrix. This generation will be done step by step by firstly constructing "calibrated model" of each IBIS sub-systems. A "calibrated model" is defined as a GEANT Monte-Carlo model, further checked by intensive corresponding calibration. These calibrated models will be in a second step integrated in the whole IBIS Mass Model. This Mass Model will be checked and refined using the data obtained dur...

  3. Traumatic Brain Injury and Delayed Sequelae: A Review - Traumatic Brain Injury and Mild Traumatic Brain Injury (Concussion) are Precursors to Later-Onset Brain Disorders, Including Early-Onset Dementia

    OpenAIRE

    Michael A. Kiraly; Kiraly, Stephen J.

    2007-01-01

    Brain injuries are too common. Most people are unaware of the incidence of and horrendous consequences of traumatic brain injury (TBI) and mild traumatic brain injury (MTBI). Research and the advent of sophisticated imaging have led to progression in the understanding of brain pathophysiology following TBI. Seminal evidence from animal and human experiments demonstrate links between TBI and the subsequent onset of premature, psychiatric syndromes and neurodegenerative diseases, including Alzh...

  4. The IBIS data handling system

    International Nuclear Information System (INIS)

    The Imager on Board of INTEGRAL (IBIS) has to cope with very high data rates (>15.000 events/sec) from two detector layers (ISGRI and PICsIT). Because the available telemetry rate is only about 1/30 of the expected maximum data rate an on-board data reduction and pre-processing is necessary. This task is performed by a tailored fast Hardware Event Preprocessor (HEPI) and a slow programmable Data Processing Electronics (DPE). Several processing modes can be combined to adapt the instrument IBIS to the aims of the observers. The functions and methods of the digital on-board data processing (hardware and software) are described

  5. Mild traumatic brain injuries in adults

    Directory of Open Access Journals (Sweden)

    Dhaval Shukla

    2010-01-01

    Full Text Available Mild traumatic brain injury (mTBI is the commonest form of TBI. Though the name implies, it may not be mild in certain cases. There is a lot of heterogeneity in nomenclature, classification, evaluation and outcome of mTBI. We have reviewed the relevant articles on mTBI in adults, particularly its definition, evaluation and outcome, published in the last decade. The aspects of mTBI like pediatric age group, sports concussion, and postconcussion syndrome were not reviewed. There is general agreement that Glasgow coma score (GCS of 13 should not be considered as mTBI as the risk of intracranial lesion is higher than in patients with GCS 14-15. All patients with GCS of <15 should be evaluated with a computed tomography (CT scan. Patients with GCS 15 and risk factors or neurological symptoms should also be evaluated with CT scan. The outcome of mTBI depends on the combination of preinjury, injury and postinjury factors. Overall outcome of mTBI is good with mortality around 0.1% and disability around 10%.

  6. Diabetes Insipidus after Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Cristina Capatina

    2015-07-01

    Full Text Available Traumatic brain injury (TBI is a significant cause of morbidity and mortality in many age groups. Neuroendocrine dysfunction has been recognized as a consequence of TBI and consists of both anterior and posterior pituitary insufficiency; water and electrolyte abnormalities (diabetes insipidus (DI and the syndrome of inappropriate antidiuretic hormone secretion (SIADH are amongst the most challenging sequelae. The acute head trauma can lead (directly or indirectly to dysfunction of the hypothalamic neurons secreting antidiuretic hormone (ADH or of the posterior pituitary gland causing post-traumatic DI (PTDI. PTDI is usually diagnosed in the first days after the trauma presenting with hypotonic polyuria. Frequently, the poor general status of most patients prevents adequate fluid intake to compensate the losses and severe dehydration and hypernatremia occur. Management consists of careful monitoring of fluid balance and hormonal replacement. PTDI is associated with high mortality, particularly when presenting very early following the injury. In many surviving patients, the PTDI is transient, lasting a few days to a few weeks and in a minority of cases, it is permanent requiring management similar to that offered to patients with non-traumatic central DI.

  7. Sexual changes associated with traumatic brain injury.

    Science.gov (United States)

    Ponsford, Jennie

    2003-01-01

    Findings from numerous outcome studies have suggested that people with traumatic brain injuries (TBI) experience relationship difficulties and changes in sexuality. However, there have been few investigations of these problems. This paper reports the results of a study of sexuality following TBI, which aimed to identify changes in sexual behaviour, affect, self-esteem, and relationship quality, and their inter-relationships. Two hundred and eight participants with moderate-to-severe TBI (69% males) completed a questionnaire 1-5 years post-injury. Their responses were compared with those of 150 controls, matched for age, gender, and education. Of TBI participants 36-54% reported: (1) A decrease in the importance of sexuality, opportunities, and frequency of engaging in sexual activities; (2) reduced sex drive; (3) a decline in their ability to give their partner sexual satisfaction and to engage in sexual intercourse; and (4) decreased enjoyment of sexual activity and ability to stay aroused and to climax. The frequencies of such negative changes were significantly higher than those reported by controls and far outweighed the frequency of increases on these dimensions. A significant proportion of TBI participants also reported decreased self-confidence, sex appeal, higher levels of depression, and decreased communication levels and relationship quality with their sexual partner. Factors associated with sexual problems in the TBI group are explored and implications of all findings discussed. PMID:21854338

  8. Effort test performance in clinical acute brain injury, community brain injury, and epilepsy populations.

    Science.gov (United States)

    Hampson, Natalie E; Kemp, Steven; Coughlan, Anthony K; Moulin, Chris J A; Bhakta, Bipin B

    2014-01-01

    Effort tests have become commonplace within medico-legal and forensic contexts and their use is rising within clinical settings. It is recognized that some patients may fail effort tests due to cognitive impairment and not because of poor effort. However, investigation of the base rate of failure among clinical populations other than dementia is limited. Forty-seven clinical participants were recruited and comprised three subgroups: acute brain injury (N = 11), community brain injury (N = 20), and intractable epilepsy (N = 16). Base rates of failure on the Word Memory Test (WMT; Green, 2003 ) and six other less well-validated measures were investigated. A significant minority of patients failed effort tests according to standard cutoff scores, particularly patients with severe traumatic brain injury and marked frontal-executive features. The WMT was able to identify failures associated with significant cognitive impairment through the application of profile analysis and/or lowered cutoff levels. Implications for clinical assessment, effort test interpretation, and future research are discussed. PMID:25084843

  9. Clinical neurorestorative progress in traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Huang H

    2015-03-01

    Full Text Available Huiling Huang,1 Lin Chen,2,3 Hongyun Huang4–61Tianjin Key Laboratory of Cerebral Vascular and Neurodegenerative Diseases, Tianjin Huanhu Hospital, Tianjin Neurosurgical Institute, Tianjin, People's Republic of China; 2Medical Center, Tsinghua University, Beijing, People's Republic of China; 3Tsinghua University Yuquan Hospital, Beijing, People's Republic of China; 4General Hospital of Chinese people's Armed Police Forces, 5Beijing Rehabilitation Hospital of Capital Medical University, Beijing, People's Republic of China; 6Beijing Hongtianji Neuroscience Academy, Beijing, People's Republic of ChinaAbstract: Traumatic brain injury (TBI is a leading cause of death and disability from trauma to the central nervous system. Besides the surgical interventions and symptomatic management, the conventional therapies for TBI and its sequelae are still limited. Recently emerging evidence suggests that some neurorestorative treatments appear to have a potential therapeutic role for TBI and improving the patient's quality of life. The current clinical neurorestorative strategies available in TBI include pharmacological treatments (recombinant human interleukin-1 receptor antagonist, amantadine, lithium, and valproate, the neuromodulation treatments (repetitive transcranial magnetic stimulation, transcranial direct current stimulation, and low-level laser therapy, cell transplantation (bone marrow stromal cells and umbilical cord stromal cells, and combined neurorehabilitation. In this review, we summarize the recent clinical neurorestorative progress in the management of neurodegeneration as well as cognitive and motor deficits after TBI; indeed further clinical trials are required to provide more robust evidence.Keywords: brain trauma, neurorestorative treatment, cell transplantation, clinical study

  10. Chronic Traumatic Encephalopathy: The Neuropathological Legacy of Traumatic Brain Injury.

    Science.gov (United States)

    Hay, Jennifer; Johnson, Victoria E; Smith, Douglas H; Stewart, William

    2016-05-23

    Almost a century ago, the first clinical account of the punch-drunk syndrome emerged, describing chronic neurological and neuropsychiatric sequelae occurring in former boxers. Thereafter, throughout the twentieth century, further reports added to our understanding of the neuropathological consequences of a career in boxing, leading to descriptions of a distinct neurodegenerative pathology, termed dementia pugilistica. During the past decade, growing recognition of this pathology in autopsy studies of nonboxers who were exposed to repetitive, mild traumatic brain injury, or to a single, moderate or severe traumatic brain injury, has led to an awareness that it is exposure to traumatic brain injury that carries with it a risk of this neurodegenerative disease, not the sport or the circumstance in which the injury is sustained. Furthermore, the neuropathology of the neurodegeneration that occurs after traumatic brain injury, now termed chronic traumatic encephalopathy, is acknowledged as being a complex, mixed, but distinctive pathology, the detail of which is reviewed in this article. PMID:26772317

  11. Acute Blast Injury Reduces Brain Abeta in Two Rodent Species

    Directory of Open Access Journals (Sweden)

    GregoryAElder

    2012-12-01

    Full Text Available Blast-induced traumatic brain injury (TBI has been a major cause of morbidity and mortality in the conflicts in Iraq and Afghanistan. How the primary blast wave affects the brain is not well understood. In particular, it is unclear whether blast injures the brain through mechanisms similar to those found in non-blast closed impact injuries (nbTBI. The β-amyloid (Aβ peptide associated with the development of Alzheimer’s disease (AD is elevated acutely following TBI in humans as well as in experimental animal models of nbTBI. We examined levels of brain Aβ following experimental blast injury using enzyme-linked immunosorbent assays for Aβ 40 and 42. In both rat and mouse models of blast injury, rather than being increased, endogenous rodent brain Aβ levels were decreased acutely following injury. Levels of the amyloid precursor protein (APP were increased following blast exposure although there was no evidence of axonal pathology based on APP immunohistochemical staining. Unlike the findings in nbTBI animal models, levels of the β-secretase, BACE-1, and the γ-secretase component presenilin-1 were unchanged following blast exposure. These studies have implications for understanding the nature of blast injury to the brain. They also suggest that strategies aimed at lowering Aβ production may not be effective for treating acute blast injury to the brain.

  12. Traumatic Brain Injury and Delayed Sequelae: A Review - Traumatic Brain Injury and Mild Traumatic Brain Injury (Concussion are Precursors to Later-Onset Brain Disorders, Including Early-Onset Dementia

    Directory of Open Access Journals (Sweden)

    Michael A. Kiraly

    2007-01-01

    Full Text Available Brain injuries are too common. Most people are unaware of the incidence of and horrendous consequences of traumatic brain injury (TBI and mild traumatic brain injury (MTBI. Research and the advent of sophisticated imaging have led to progression in the understanding of brain pathophysiology following TBI. Seminal evidence from animal and human experiments demonstrate links between TBI and the subsequent onset of premature, psychiatric syndromes and neurodegenerative diseases, including Alzheimer's disease (AD and Parkinson's disease (PD. Objectives of this summary are, therefore, to instill appreciation regarding the importance of brain injury prevention, diagnosis, and treatment, and to increase awareness regarding the long-term delayed consequences following TBI.

  13. DARPA challenge: developing new technologies for brain and spinal injuries

    Science.gov (United States)

    Macedonia, Christian; Zamisch, Monica; Judy, Jack; Ling, Geoffrey

    2012-06-01

    The repair of traumatic injuries to the central nervous system remains among the most challenging and exciting frontiers in medicine. In both traumatic brain injury and spinal cord injuries, the ultimate goals are to minimize damage and foster recovery. Numerous DARPA initiatives are in progress to meet these goals. The PREventing Violent Explosive Neurologic Trauma program focuses on the characterization of non-penetrating brain injuries resulting from explosive blast, devising predictive models and test platforms, and creating strategies for mitigation and treatment. To this end, animal models of blast induced brain injury are being established, including swine and non-human primates. Assessment of brain injury in blast injured humans will provide invaluable information on brain injury associated motor and cognitive dysfunctions. The Blast Gauge effort provided a device to measure warfighter's blast exposures which will contribute to diagnosing the level of brain injury. The program Cavitation as a Damage Mechanism for Traumatic Brain Injury from Explosive Blast developed mathematical models that predict stresses, strains, and cavitation induced from blast exposures, and is devising mitigation technologies to eliminate injuries resulting from cavitation. The Revolutionizing Prosthetics program is developing an avant-garde prosthetic arm that responds to direct neural control and provides sensory feedback through electrical stimulation. The Reliable Neural-Interface Technology effort will devise technologies to optimally extract information from the nervous system to control next generation prosthetic devices with high fidelity. The emerging knowledge and technologies arising from these DARPA programs will significantly improve the treatment of brain and spinal cord injured patients.

  14. Mental Trauma Experienced by Caregivers of patients with Diffuse Axonal Injury or Severe Traumatic Brain Injury

    OpenAIRE

    Syed Tajuddin Syed Hassan; Husna Jamaludin; Rosna Abd Raman; Haliza Mohd Riji; Khaw Wan Fei

    2013-01-01

    Context: As with care giving and rehabilitation in chronic illnesses, the concern with traumatic brain injury (TBI), particularly with diffuse axonal injury (DAI), is that the caregivers are so overwhelmingly involved in caring and rehabilitation of the victim that in the process they become traumatized themselves. This review intends to shed light on the hidden and silent trauma sustained by the caregivers of severe brain injury survivors. Motor vehicle accident (MVA) is the highest contribu...

  15. Brain injury tolerance limit based on computation of axonal strain.

    Science.gov (United States)

    Sahoo, Debasis; Deck, Caroline; Willinger, Rémy

    2016-07-01

    Traumatic brain injury (TBI) is the leading cause of death and permanent impairment over the last decades. In both the severe and mild TBIs, diffuse axonal injury (DAI) is the most common pathology and leads to axonal degeneration. Computation of axonal strain by using finite element head model in numerical simulation can enlighten the DAI mechanism and help to establish advanced head injury criteria. The main objective of this study is to develop a brain injury criterion based on computation of axonal strain. To achieve the objective a state-of-the-art finite element head model with enhanced brain and skull material laws, was used for numerical computation of real world head trauma. The implementation of new medical imaging data such as, fractional anisotropy and axonal fiber orientation from Diffusion Tensor Imaging (DTI) of 12 healthy patients into the finite element brain model was performed to improve the brain constitutive material law with more efficient heterogeneous anisotropic visco hyper-elastic material law. The brain behavior has been validated in terms of brain deformation against Hardy et al. (2001), Hardy et al. (2007), and in terms of brain pressure against Nahum et al. (1977) and Trosseille et al. (1992) experiments. Verification of model stability has been conducted as well. Further, 109 well-documented TBI cases were simulated and axonal strain computed to derive brain injury tolerance curve. Based on an in-depth statistical analysis of different intra-cerebral parameters (brain axonal strain rate, axonal strain, first principal strain, Von Mises strain, first principal stress, Von Mises stress, CSDM (0.10), CSDM (0.15) and CSDM (0.25)), it was shown that axonal strain was the most appropriate candidate parameter to predict DAI. The proposed brain injury tolerance limit for a 50% risk of DAI has been established at 14.65% of axonal strain. This study provides a key step for a realistic novel injury metric for DAI. PMID:27038501

  16. Proton spectroscopy of radiation-induced injury to the brain

    International Nuclear Information System (INIS)

    This paper reports on the role of hydrogen MR spectroscopy (HMRS) in differentiating radiation-injured brain from normal brain and neoplasm, the authors performed HMRS on five cat brains with iatrogenically produced radiation injury. Reductions in N-acetyl aspartate (NAA/choline, and NAA/creatine-phosphocreatine (CR)) resonances were demonstrated in voxels from the five irradiated hemispheres compared with normal hemispheres (P < .01). NAA/CR ratios below 1.21 were always associated with radiation injury; ratios above 1.30 demarcated normal hemispheres. Large unassigned amino acid resonances from 2.0 to 2.5 ppm were also present. Results of autopsy examination confirmed radiation-induced white matter injury. Using NAA/CR ratios, one can separate normal brain from radiation-injured brain. Differentiating residual tumor from radiation-injured and normal brain may be possible with HMRS

  17. Dementia Resulting From Traumatic Brain Injury

    Science.gov (United States)

    Shively, Sharon; Scher, Ann I.; Perl, Daniel P.; Diaz-Arrastia, Ramon

    2013-01-01

    Traumatic brain injury (TBI) is among the earliest illnesses described in human history and remains a major source of morbidity and mortality in the modern era. It is estimated that 2% of the US population lives with long-term disabilities due to a prior TBI, and incidence and prevalence rates are even higher in developing countries. One of the most feared long-term consequences of TBIs is dementia, as multiple epidemiologic studies show that experiencing a TBI in early or midlife is associated with an increased risk of dementia in late life. The best data indicate that moderate and severe TBIs increase risk of dementia between 2-and 4-fold. It is less clear whether mild TBIs such as brief concussions result in increased dementia risk, in part because mild head injuries are often not well documented and retrospective studies have recall bias. However, it has been observed for many years that multiple mild TBIs as experienced by professional boxers are associated with a high risk of chronic traumatic encephalopathy (CTE), a type of dementia with distinctive clinical and pathologic features. The recent recognition that CTE is common in retired professional football and hockey players has rekindled interest in this condition, as has the recognition that military personnel also experience high rates of mild TBIs and may have a similar syndrome. It is presently unknown whether dementia in TBI survivors is pathophysiologically similar to Alzheimer disease, CTE, or some other entity. Such information is critical for developing preventive and treatment strategies for a common cause of acquired dementia. Herein, we will review the epidemiologic data linking TBI and dementia, existing clinical and pathologic data, and will identify areas where future research is needed. PMID:22776913

  18. Time Series Analysis of Spontaneous Upper-Extremity Movements of Premature Infants With Brain Injuries

    OpenAIRE

    Ohgi, Shohei; Morita, Satoru; Loo, Kek Khee; Mizuike, Chihiro

    2008-01-01

    Background and Purpose: Comparisons of spontaneous movements of premature infants with brain injuries and those without brain injuries can provide insights into normal and abnormal processes in the ontogeny of motor development. In this study, the characteristics of spontaneous upper-extremity movements of premature infants with brain injuries and those without brain injuries were examined with time series analysis.

  19. Money, Language Barriers Can Affect Kids' Brain Injury Care

    Science.gov (United States)

    ... https://medlineplus.gov/news/fullstory_159124.html Money, Language Barriers Can Affect Kids' Brain Injury Care Those ... included providers of physical and occupational therapy; speech, language and cognitive therapy; and mental health services. The ...

  20. Money, Language Barriers Can Affect Kids' Brain Injury Care

    Science.gov (United States)

    ... nih.gov/medlineplus/news/fullstory_159124.html Money, Language Barriers Can Affect Kids' Brain Injury Care Those ... included providers of physical and occupational therapy; speech, language and cognitive therapy; and mental health services. The ...

  1. Spreading depolarizations and late secondary insults after traumatic brain injury

    DEFF Research Database (Denmark)

    Hartings, Jed A; Strong, Anthony J; Fabricius, Martin;

    2009-01-01

    Here we investigated the incidence of cortical spreading depolarizations (spreading depression and peri-infarct depolarization) after traumatic brain injury (TBI) and their relationship to systemic physiologic values during neurointensive care. Subdural electrode strips were placed on peri...

  2. Spreading depolarisations and outcome after traumatic brain injury

    DEFF Research Database (Denmark)

    Hartings, Jed A; Bullock, M Ross; Okonkwo, David O;

    2011-01-01

    Pathological waves of spreading mass neuronal depolarisation arise repeatedly in injured, but potentially salvageable, grey matter in 50-60% of patients after traumatic brain injury (TBI). We aimed to ascertain whether spreading depolarisations are independently associated with unfavourable...

  3. Federal Interagency Traumatic Brain Injury Research (FITBIR) Informatics System

    Data.gov (United States)

    U.S. Department of Health & Human Services — The Federal Interagency Traumatic Brain Injury Research (FITBIR) informatics system is an extensible, scalable informatics platform for TBI relevant imaging,...

  4. Cooking breakfast after a brain injury

    Science.gov (United States)

    Tanguay, Annick N.; Davidson, Patrick S. R.; Guerrero Nuñez, Karla V.; Ferland, Mark B.

    2014-01-01

    Acquired brain injury (ABI) often compromises the ability to carry out instrumental activities of daily living such as cooking. ABI patients' difficulties with executive functions and memory result in less independent and efficient meal preparation. Accurately assessing safety and proficiency in cooking is essential for successful community reintegration following ABI, but in vivo assessment of cooking by clinicians is time-consuming, costly, and difficult to standardize. Accordingly, we examined the usefulness of a computerized meal preparation task (the Breakfast Task; Craik and Bialystok, 2006) as an indicator of real life meal preparation skills. Twenty-two ABI patients and 22 age-matched controls completed the Breakfast Task. Patients also completed the Rehabilitation Activities of Daily Living Survey (RADLS; Salmon, 2003) and prepared actual meals that were rated by members of the clinical team. As expected, the ABI patients had significant difficulty on all aspects of the Breakfast Task (failing to have all their foods ready at the same time, over- and under-cooking foods, setting fewer places at the table, and so on) relative to controls. Surprisingly, however, patients' Breakfast Task performance was not correlated with their in vivo meal preparation. These results indicate caution when endeavoring to replace traditional evaluation methods with computerized tasks for the sake of expediency. PMID:25228863

  5. Cooking breakfast after a brain injury

    Directory of Open Access Journals (Sweden)

    Annick N. Tanguay

    2014-09-01

    Full Text Available Acquired brain injury (ABI often compromises the ability to carry out instrumental activities of daily living such as cooking. ABI patients’ difficulties with executive functions and memory result in less independent and efficient meal preparation. Accurately assessing safety and proficiency in cooking is essential for successful community reintegration following ABI, but in vivo assessment of cooking by clinicians is time-consuming, costly, and difficult to standardize. Accordingly, we examined the usefulness of a computerized meal preparation task (the Breakfast Task; Craik & Bialystok, 2006 as an indicator of real life meal preparation skills. Twenty-two ABI patients and 22 age-matched controls completed the Breakfast Task and the Rehabilitation Activities of Daily Living Survey (RADLS; Salmon, 2003. Patients also prepared actual meals, and were rated by members of the clinical team. As expected, the ABI patients had significant difficulty on all aspects of the Breakfast Task (failing to have all their foods ready at the same time, over- and under-cooking foods, setting fewer places at the table, and so on relative to controls. Surprisingly, however, patients’ Breakfast Task performance was not correlated with their in vivo meal preparation. These results indicate caution when endeavoring to replace traditional evaluation methods with computerized tasks for the sake of expediency.

  6. The psychosocial outcome of anoxic brain injury following cardiac arrest

    OpenAIRE

    Wilson, Michelle

    2012-01-01

    Aim of the study The psychosocial outcome of anoxic brain injury following cardiac arrest is a relatively under researched, but clinically important area. The aim of the current study was to add to the limited existing literature exploring the psychosocial outcome for cardiac arrest survivors, but specifically explore if there is a greater impact on psychosocial outcome in individuals experiencing anoxic brain injury as a result. Methods A range of self report measures were used to c...

  7. Psychotherapy after acquired brain injury: Is less more?

    Directory of Open Access Journals (Sweden)

    Rudi Coetzer

    2014-02-01

    Full Text Available This paper considers the challenges and dilemmas facing psychotherapists working with neurological patients, and in particular those who work in the context of under-resourced brain injury rehabilitation healthcare systems. Through the subjective process of reflective practice integral to clinical supervision, the author attempts to identify five core aspects of psychotherapy intended to augment post-acute long- term rehabilitation programmes and interventions after acquired brain injury.

  8. Cognitive functions in drivers with brain injury : Anticipation and adaption

    OpenAIRE

    Lundqvist, Anna

    2001-01-01

    The purpose of this thesis was to improve the understanding of what cognitive functions are important for driving performance, investigate the impact of impaired cognitive functions on drivers with brain injury, and study adaptation strategies relevant for driving performance after brain injury. Finally, the predictive value of a neuropsychological test battery was evaluated for driving performance. Main results can be summarized in the following conclusions: (a) Cognitive functions in terms ...

  9. Endogenous lipoid pneumonia in a cachectic patient after brain injury

    OpenAIRE

    Zhang, Ji; Mu, Jiao; Lin, Wei; Dong, Hongmei

    2015-01-01

    Endogenous lipoid pneumonia (EnLP) is an uncommon non-life-threatening inflammatory lung disease that usually occurs in patients with conditions such as lung cancers, primary sclerosing cholangitis, and undifferentiated connective tissue disease. Here we report a case of EnLP in a paralytic and cachectic patient with bronchopneumonia after brain injury. A 40-year-old man experienced a severe brain injury in an automobile accident. He was treated for 1 month and his status plateaued. However, ...

  10. Antagonism of purinergic signalling improves recovery from traumatic brain injury

    OpenAIRE

    Choo, Anthony M.; William J. Miller; Chen, Yung-Chia; Nibley, Philip; Patel, Tapan P.; Goletiani, Cezar; Morrison, Barclay; Kutzing, Melinda K.; Firestein, Bonnie L.; Sul, Jai-Yoon; Haydon, Philip G.; Meaney, David F.

    2013-01-01

    The recent public awareness of the incidence and possible long-term consequences of traumatic brain injury only heightens the need to develop effective approaches for treating this neurological disease. In this report, we identify a new therapeutic target for traumatic brain injury by studying the role of astrocytes, rather than neurons, after neurotrauma. We use in vivo multiphoton imaging and show that mechanical forces during trauma trigger intercellular calcium waves throughout the astroc...

  11. Optimizing sedation in patients with acute brain injury

    OpenAIRE

    Oddo, Mauro; Crippa, Ilaria Alice; Mehta, Sangeeta; Menon, David; Payen, Jean-Francois; Taccone, Fabio Silvio; Citerio, Giuseppe

    2016-01-01

    Daily interruption of sedative therapy and limitation of deep sedation have been shown in several randomized trials to reduce the duration of mechanical ventilation and hospital length of stay, and to improve the outcome of critically ill patients. However, patients with severe acute brain injury (ABI; including subjects with coma after traumatic brain injury, ischaemic/haemorrhagic stroke, cardiac arrest, status epilepticus) were excluded from these studies. Therefore, whether the new paradi...

  12. Transcranial amelioration of inflammation and cell death after brain injury

    Science.gov (United States)

    Roth, Theodore L.; Nayak, Debasis; Atanasijevic, Tatjana; Koretsky, Alan P.; Latour, Lawrence L.; McGavern, Dorian B.

    2014-01-01

    Traumatic brain injury (TBI) is increasingly appreciated to be highly prevalent and deleterious to neurological function. At present, no effective treatment options are available, and little is known about the complex cellular response to TBI during its acute phase. To gain insights into TBI pathogenesis, we developed a novel murine closed-skull brain injury model that mirrors some pathological features associated with mild TBI in humans and used long-term intravital microscopy to study the dynamics of the injury response from its inception. Here we demonstrate that acute brain injury induces vascular damage, meningeal cell death, and the generation of reactive oxygen species (ROS) that ultimately breach the glial limitans and promote spread of the injury into the parenchyma. In response, the brain elicits a neuroprotective, purinergic-receptor-dependent inflammatory response characterized by meningeal neutrophil swarming and microglial reconstitution of the damaged glial limitans. We also show that the skull bone is permeable to small-molecular-weight compounds, and use this delivery route to modulate inflammation and therapeutically ameliorate brain injury through transcranial administration of the ROS scavenger, glutathione. Our results shed light on the acute cellular response to TBI and provide a means to locally deliver therapeutic compounds to the site of injury.

  13. Retinochoroidal changes after severe brain impact injury in rabbits

    Institute of Scientific and Technical Information of China (English)

    2001-01-01

    Objective: To investigate retinochoroidal changes and establisheye damage model after brain impact injury.Methods: An eye damage model after brain impact injury was established by striking the frontoparietal zone in rabbits with BIM-Ⅱ bioimpact machine. Seventeen rabbits were killed at 4 different intervals after injury. The pathological characteristics of the retinal and choroid damages were observed.Results: All the rabbits had severe brain injury with subarachnoid hemorrhage and brain contusion. The eye damage occurred in all of the 17 rabbits. Hemorrhage in optic nerve sheaths was observed and retinal edema and bleeding was discovered with ophthalmoscope. Histopathologic study displayed subarachnoid hemorrhage in the retrobulbar portion of the retinal nerve, general choroid blood vessel dilatation, retinal nerve fibre swelling within 6 hours after injury, and flat retinal detachment with subretinal proteinoid exudation, and degeneration and disappearance of the outer segment of the optic cell over 6 hours after injury.Conclusions: The pathological characteristic of the eye damage at early stage following brain impact injury is local circulation disturbance. At late stage, it features in retinal detachment, and optic cellular degeneration and necrosis.

  14. Development of an Ontology for Rehabilitation: Traumatic Brain Injury

    Science.gov (United States)

    Grove, Michael J.

    2013-01-01

    Traumatic Brain Injury (TBI) rehabilitation interventions are very heterogeneous due to injury characteristics and pathology, patient demographics, healthcare settings, caregiver variability, and individualized, multi-discipline treatment plans. Consequently, comparing and generalizing the effectiveness of interventions is limited largely due to…

  15. Traumatic Brain Injury: Persistent Misconceptions and Knowledge Gaps among Educators

    Science.gov (United States)

    Ettel, Deborah; Glang, Ann E.; Todis, Bonnie; Davies, Susan C.

    2016-01-01

    Each year approximately 700,000 U.S. children aged 0-19 years sustain a traumatic brain injury (TBI) placing them at risk for academic, cognitive, and behavioural challenges. Although TBI has been a special education disability category for 25 years, prevalence studies show that of the 145,000 students each year who sustain long-term injury from…

  16. Neuroprotective effect of Pycnogenol® following traumatic brain injury

    OpenAIRE

    Scheff, Stephen W.; Ansari, Mubeen A.; Roberts, Kelly N.

    2012-01-01

    Traumatic brain injury (TBI) involves primary and secondary injury cascades that underlie delayed neuronal dysfunction and death. Oxidative stress is one of the most celebrated secondary injury mechanisms. A close relationship exists between levels of oxidative stress and the pathogenesis of TBI. However, other cascades, such as an increase in proinflammatory cytokines, also play important roles in the overall response to the trauma. Pharmacologic intervention, in order to be successful, requ...

  17. Head motions while riding roller coasters: Implications for brain injury

    OpenAIRE

    Pfister, Bryan J.; Chickola, Larry; Smith, Douglas H.

    2009-01-01

    The risk of traumatic brain injury (TBI) while riding roller coasters has received substantial attention. Case reports of TBI around the time of riding roller coasters have led many medical professionals to assert that the high gravitational forces (G-forces) induced by roller coasters pose a significant TBI risk. Head injury research, however, has shown that G-forces alone cannot predict TBI. Established head injury criterions and procedures were employed to compare the potential of TBI betw...

  18. Changes in T lymphocyte subsets after severe traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Yulu Miao; Mingxia Zhang; Yulin Nie; Wan Zhao; Bin Huang; Zhengming Jiang; Shaoxiong Yu; Zhibin Huang; Hongjin Fu

    2007-01-01

    BACKGROUND: Besides local changes of cranial parenchymal cells, hemorrhage, etc., severe traumatic brain injuries also cause the changes of total body fluid and various functions, and the changes of lymphocytes and T lymphocyte subsets should be paid more attention to.OBJECTIVE: To reveal the changing laws of T lymphocyte subsets after severe traumatic brain injury, and compare with mild to moderate brain injury.DESIGN: A comparative observation.SETTINGS: Department of Neurosurgery, Longgang District Buji People's Hospital of Shenzhen City;Central Laboratory of Shenzhen Hospital of Prevention and Cure for Chronic Disease.PARTICIPANTS: All the subjects were selected from the Department of Neurosurgery, Longgang District Buji People's Hospital of Shenzhen City from August 2002 to August 2005. Thirty patients with severe brain injury, whose Glasgow coma score (GCS) was ≤ 8 points, were taken as the experimental group, including 21 males and 9 females, aging 16 - 62 years. Meanwhile, 30 patients with mild traumatic brain injury were taken as the control group (GCS ranged 14 - 15 points), including 18 males and 12 females, aging 15 - 58 years. All the subjects were in admission at 6 hours after injury, without disease of major organs before injury.Informed consents were obtained from all the patients or their relatives.conditions of pulmonaryinfections were observed at 4 days after injury. The differences of measurement data were compared with the t test.MAIN OUTCOME MEASURES: Changes of T lymphocytes subsets at 1 - 14 days after severe and mild or moderate traumatic injury.RESULTS: Finally, 28 and 25 patients with mild to moderate traumatic brain injury, whereas 25 and 21 patients with severe traumatic brain injury were analyzed at 7 and 14 days respectively, and the missed ones CD3, CD4, CD8, CD4/CD8 began to decrease, whereas CD8 increased in the experimental group, which were very significantly different from those in the control group (t =2.77 - 3.26, P < 0

  19. Assessment of brain retraction injury from tumor operation with 99Tcm-ECD brain SPECT imaging

    International Nuclear Information System (INIS)

    Objective: To evaluate the rCBF of brain retraction injury by 99Tcm-ECD SPECT imaging. Methods: The 99Tcm-ECD SPECT brain imaging was performed in 21 patients with brain tumor before and after operation. To compare the rCBF of peripheral tumor region with that of retraction injury region by semi-quantitative analysis. The rCBF levels of the central and peripheral areas of brain retraction injury were also studied. Results: Both the peripheral tumor region before operation and retraction region after operation were ischemic, but the difference between them was significant (P99Tcm-ECD SPECT brain imaging is a useful technique in detecting retraction injury come from brain tumor operation

  20. Neuronal regeneration in a zebrafish model of adult brain injury

    Directory of Open Access Journals (Sweden)

    Norihito Kishimoto

    2012-03-01

    Neural stem cells in the subventricular zone (SVZ of the adult mammalian forebrain are a potential source of neurons for neural tissue repair after brain insults such as ischemic stroke and traumatic brain injury (TBI. Recent studies show that neurogenesis in the ventricular zone (VZ of the adult zebrafish telencephalon has features in common with neurogenesis in the adult mammalian SVZ. Here, we established a zebrafish model to study injury-induced neurogenesis in the adult brain. We show that the adult zebrafish brain possesses a remarkable capacity for neuronal regeneration. Telencephalon injury prompted the proliferation of neuronal precursor cells (NPCs in the VZ of the injured hemisphere, compared with in the contralateral hemisphere. The distribution of NPCs, viewed by BrdU labeling and ngn1-promoter-driven GFP, suggested that they migrated laterally and reached the injury site via the subpallium and pallium. The number of NPCs reaching the injury site significantly decreased when the fish were treated with an inhibitor of γ-secretase, a component of the Notch signaling pathway, suggesting that injury-induced neurogenesis mechanisms are at least partly conserved between fish and mammals. The injury-induced NPCs differentiated into mature neurons in the regions surrounding the injury site within a week after the injury. Most of these cells expressed T-box brain protein (Tbr1, suggesting they had adopted the normal neuronal fate in this region. These results suggest that the telencephalic VZ contributes to neural tissue recovery following telencephalic injury in the adult zebrafish, and that the adult zebrafish is a useful model for regenerative medicine.

  1. Treatment for delayed brain injury after pituitary irradiation

    International Nuclear Information System (INIS)

    Treatment for delayed brain injury after pituitary irradiation is discussed. Six cases with delayed brain injury were treated with a combination of dexamethasone or betamethasone, with heparin, glycerol, dextran 40 and some vasodilators. Two cases with temporal lobe syndrome were treated in the early stages of brain injury for a period of over 12 months were almost completely cured, another two cases with chiasma syndrome were treated in the relatively late stages, showed a partial improvement. One case which was irradiated 120 GY during 13 years did not improve. The final case treated with steroids for a short period also resulted in failure and the patient underwent an operation for the removal of the necrotic mass three years after the radiotherapy. Steroid therapy started in the early stages of brain injury after irradiation for over the 12 months is thought to be effective. Heparin therapy was also effective in one out of three cases, but in one of the cases subarachnoid hemorrhage from a traumatic aneurysm occurred during the therapy. In an acute phase, showing edematous change of the injured brain, the administration of glycerol is also thought to be useful. But the effectiveness of the other medicines containing some vasodilators was obscure or doubtful. We propose the following : (1) A meticulous observation is essential for the patients who received high doses of irradiation to diagnose brain injury in the early reversible stage. (2) Steroids should be given immediately in this reversible stage of brain injury before the irreversible ''necrosis'' occurs. (3) Steroids should be maintained for a long period over 12 months. (4) Heparin therapy is also thought to be effective, but careful precautions to avoid hemorrhagic complications before the therapy should be scheduled. This recommended plan may also be used for the treatment of brain injuries after cranial irradiation for other intracranial tumors. (author)

  2. Treatment for delayed brain injury after pituitary irradiation

    Energy Technology Data Exchange (ETDEWEB)

    Fujii, Takashi; Misumi, Shuzoh; Shibasaki, Takashi; Tamura, Masaru; Kunimine, Hideo; Hayakawa, Kazushige; Niibe, Hideo; Miyazaki, Mizuho; Miyagi, Osamu.

    1988-03-01

    Treatment for delayed brain injury after pituitary irradiation is discussed. Six cases with delayed brain injury were treated with a combination of dexamethasone or betamethasone, with heparin, glycerol, dextran 40 and some vasodilators. Two cases with temporal lobe syndrome were treated in the early stages of brain injury for a period of over 12 months were almost completely cured, another two cases with chiasma syndrome were treated in the relatively late stages, showed a partial improvement. One case which was irradiated 120 GY during 13 years did not improve. The final case treated with steroids for a short period also resulted in failure and the patient underwent an operation for the removal of the necrotic mass three years after the radiotherapy. Steroid therapy started in the early stages of brain injury after irradiation for over the 12 months is thought to be effective. Heparin therapy was also effective in one out of three cases, but in one of the cases subarachnoid hemorrhage from a traumatic aneurysm occurred during the therapy. In an acute phase, showing edematous change of the injured brain, the administration of glycerol is also thought to be useful. But the effectiveness of the other medicines containing some vasodilators was obscure or doubtful. We propose the following : (1) A meticulous observation is essential for the patients who received high doses of irradiation to diagnose brain injury in the early reversible stage. (2) Steroids should be given immediately in this reversible stage of brain injury before the irreversible ''necrosis'' occurs. (3) Steroids should be maintained for a long period over 12 months. (4) Heparin therapy is also thought to be effective, but careful precautions to avoid hemorrhagic complications before the therapy should be scheduled. This recommended plan may also be used for the treatment of brain injuries after cranial irradiation for other intracranial tumors.

  3. Neuroprotective levels of IGF-1 exacerbate epileptogenesis after brain injury.

    Science.gov (United States)

    Song, Yu; Pimentel, Corrin; Walters, Katherine; Boller, Lauren; Ghiasvand, Shabnam; Liu, Jing; Staley, Kevin J; Berdichevsky, Yevgeny

    2016-01-01

    Exogenous Insulin-Like Growth Factor-1 (IGF-1) is neuroprotective in animal models of brain injury, and has been considered as a potential therapeutic. Akt-mTOR and MAPK are downstream targets of IGF-1 signaling that are activated after brain injury. However, both brain injury and mTOR are linked to epilepsy, raising the possibility that IGF-1 may be epileptogenic. Here, we considered the role of IGF-1 in development of epilepsy after brain injury, using the organotypic hippocampal culture model of post-traumatic epileptogenesis. We found that IGF-1 was neuroprotective within a few days of injury but that long-term IGF-1 treatment was pro-epileptic. Pro-epileptic effects of IGF-1 were mediated by Akt-mTOR signaling. We also found that IGF-1 - mediated increase in epileptic activity led to neurotoxicity. The dualistic nature of effects of IGF-1 treatment demonstrates that anabolic enhancement through IGF-1 activation of mTOR cascade can be beneficial or harmful depending on the stage of the disease. Our findings suggest that epilepsy risk may need to be considered in the design of neuroprotective treatments for brain injury. PMID:27561791

  4. Intranasal epidermal growth factor treatment rescues neonatal brain injury

    Science.gov (United States)

    Scafidi, Joseph; Hammond, Timothy R.; Scafidi, Susanna; Ritter, Jonathan; Jablonska, Beata; Roncal, Maria; Szigeti-Buck, Klara; Coman, Daniel; Huang, Yuegao; McCarter, Robert J.; Hyder, Fahmeed; Horvath, Tamas L.; Gallo, Vittorio

    2014-02-01

    There are no clinically relevant treatments available that improve function in the growing population of very preterm infants (less than 32 weeks' gestation) with neonatal brain injury. Diffuse white matter injury (DWMI) is a common finding in these children and results in chronic neurodevelopmental impairments. As shown recently, failure in oligodendrocyte progenitor cell maturation contributes to DWMI. We demonstrated previously that the epidermal growth factor receptor (EGFR) has an important role in oligodendrocyte development. Here we examine whether enhanced EGFR signalling stimulates the endogenous response of EGFR-expressing progenitor cells during a critical period after brain injury, and promotes cellular and behavioural recovery in the developing brain. Using an established mouse model of very preterm brain injury, we demonstrate that selective overexpression of human EGFR in oligodendrocyte lineage cells or the administration of intranasal heparin-binding EGF immediately after injury decreases oligodendroglia death, enhances generation of new oligodendrocytes from progenitor cells and promotes functional recovery. Furthermore, these interventions diminish ultrastructural abnormalities and alleviate behavioural deficits on white-matter-specific paradigms. Inhibition of EGFR signalling with a molecularly targeted agent used for cancer therapy demonstrates that EGFR activation is an important contributor to oligodendrocyte regeneration and functional recovery after DWMI. Thus, our study provides direct evidence that targeting EGFR in oligodendrocyte progenitor cells at a specific time after injury is clinically feasible and potentially applicable to the treatment of premature children with white matter injury.

  5. Low Level Primary Blast Injury in Rodent Brain

    OpenAIRE

    Pun, Pamela B. L.; Kan, Enci Mary; Salim, Agus; Li, Zhaohui; Ng, Kian Chye; Moochhala, Shabbir M; Ling, Eng-Ang; Tan, Mui Hong; Lu, Jia

    2011-01-01

    The incidence of blast attacks and resulting traumatic brain injuries has been on the rise in recent years. Primary blast is one of the mechanisms in which the blast wave can cause injury to the brain. The aim of this study was to investigate the effects of a single sub-lethal blast over pressure (BOP) exposure of either 48.9 kPa (7.1 psi) or 77.3 kPa (11.3 psi) to rodents in an open-field setting. Brain tissue from these rats was harvested for microarray and histopathological analyses. Gross...

  6. Acute Blast Injury Reduces Brain Abeta in Two Rodent Species

    OpenAIRE

    GregoryAElder; MiguelA.Gama Sosa; RitaDe Gasperi; MichaelCShaughness; StevenTDeKosky; SamGandy; MadhusoodanaPNambiar; JohnWSteele

    2012-01-01

    Blast-induced traumatic brain injury (TBI) has been a major cause of morbidity and mortality in the conflicts in Iraq and Afghanistan. How the primary blast wave affects the brain is not well understood. In particular, it is unclear whether blast injures the brain through mechanisms similar to those found in non-blast closed impact injuries (nbTBI). The β-amyloid (Aβ) peptide associated with the development of Alzheimer’s disease (AD) is elevated acutely following TBI in humans as well as in ...

  7. Low level primary blast injury in rodent brain

    OpenAIRE

    Enci MaryKan; AgusSalim; Zhao HuiLi; Eng-AngLing

    2011-01-01

    The incidence of blast attacks and resulting traumatic brain injuries has been on the rise in recent years. Primary blast is one of the mechanisms in which the blast wave can cause injury to the brain. The aim of this study was to investigate the effects of a single sub-lethal blast over pressure exposure of either 48.9 kPa (7.1 psi) or 77.3 kPa (11.3 psi) to rodents in an open-field setting. Brain tissue from these rats was harvested for microarray and histopathological analyses. Gross histo...

  8. Acute Blast Injury Reduces Brain Abeta in Two Rodent Species

    OpenAIRE

    De Gasperi, Rita; Gama Sosa, Miguel A; Kim, Soong Ho; Steele, John W.; Shaughness, Michael C; Maudlin-Jeronimo, Eric; Hall, Aaron A.; DeKosky, Steven T.; McCarron, Richard M; Nambiar, Madhusoodana P.; Gandy, Sam; Ahlers, Stephen T.; Elder, Gregory A.

    2012-01-01

    Blast-induced traumatic brain injury (TBI) has been a major cause of morbidity and mortality in the conflicts in Iraq and Afghanistan. How the primary blast wave affects the brain is not well understood. In particular, it is unclear whether blast injures the brain through mechanisms similar to those found in non-blast closed impact injuries (nbTBI). The β-amyloid (Aβ) peptide associated with the development of Alzheimer’s disease is elevated acutely following TBI in humans as well as in exper...

  9. Emergency treatment options for pediatric traumatic brain injury

    OpenAIRE

    Exo, J; Smith, C.; Smith, R.; Bell, MJ

    2009-01-01

    Traumatic brain injury is a leading killer of children and is a major public health problem around the world. Using general principles of neurocritical care, various treatment strategies have been developed to attempt to restore homeostasis to the brain and allow brain healing, including mechanical factors, cerebrospinal fluid diversion, hyperventilation, hyperosmolar therapies, barbiturates and hypothermia. Careful application of these therapies, normally in a step-wise fashion as intracrani...

  10. Astrocytes mediate the neuroprotective effects of Tibolone following brain injury

    OpenAIRE

    Luis Miguel Garcia-Segura; Barreto, George E.

    2015-01-01

    Recently, astrocytes have become a key central player in mediating important functions in the brain. These physiological processes include neurotransmitter recycling, energy management, metabolic shuttle, immune sensing, K+ buffer, antioxidant supply and release of neurotrophic factors and gliotransmitters. These astrocytic roles are somehow altered upon brain injury, therefore strategies aimed at better protecting astrocytes are an essential asset to maintain brain homeostasis. In this cont...

  11. A prospective study to evaluate a new residential community reintegration programme for severe chronic brain injury: the Brain Integration Programme.

    NARCIS (Netherlands)

    Geurtsen, G.J.; Martina, J.D.; Heugten, C.M. van; Geurts, A.C.H.

    2008-01-01

    PURPOSE: To assess the effectiveness of a residential community reintegration programme for participants with chronic sequelae of severe acquired brain injury that hamper community functioning. DESIGN: Prospective cohort study. SUBJECTS: Twenty-four participants with acquired brain injury (traumatic

  12. Therapeutic effect of nimodipine on experimental brain injury

    Institute of Scientific and Technical Information of China (English)

    杨树源; 王增光

    2003-01-01

    Objective: To study the therapeutic effect of nimodipine on experimental brain injury.Methods: Experimental and control rabbits were subjected to a closed head injury. In one group nimodipine was given intravenously and the effect evaluated by electron microscopy, brain water content, calcium levels, transcranial Doppler, and intracranial pressure monitoring.Results: In rabbits treated with nimodipine the level of neuronal cytosolic free calcium was markedly decreased. There were less cellular damage and less spasm of the middle cerebral artery seen on electron microscopy. No difference regarding intracranial pressure changes between the two groups was noted. Conclusions: Nimodipine has a protective action on brain injury by blocking a series of pathological reactions induced by neuronal calcium overload, and by reducing the spasm of brain vessels and improving cerebral blood flow.

  13. Translational Research for Blast-Induced Traumatic Brain Injury: Injury Mechanism to Development of Medical Instruments

    Science.gov (United States)

    Nakagawa, A.; Ohtani, K.; Arafune, T.; Washio, T.; Iwasaki, M.; Endo, T.; Ogawa, Y.; Kumabe, T.; Takayama, K.; Tominaga, T.

    1. Investigation of shock wave-induced phenomenon: blast-induced traumatic brain injury Blast wave (BW) is generated by explosion and is comprised of lead shock wave (SE) followed by subsequent supersonic flow.

  14. Proton MR spectroscopy in mild traumatic brain injury

    International Nuclear Information System (INIS)

    To assess the role of 1H MRS in the detection of changes in cerebral metabolite levels in pyramidal tracts after mild traumatic brain injury (MTBI) and to compare metabolite alterations to the clinical status (Glasgow Coma Scale). Study group consisted of 25 patients after mild traumatic brain injury, with a score of 11 to 15 in GCS. The MR studies were performed with a 1.5 T scanner. The results of spectra approximation (presented as metabolite ratios: NAA/Cr, NAA/Cho, Cho/Cr, lac/Cr, lip/Cr, Glx/Cr) were subjected to statistical analysis. MR spectra were recorded from a normal-appearing brain region: internal capsules and cerebral peduncles. Spectra from traumatic patients were compared with a control group including 34 healthy volunteers recorded with the same techniques. The statistical analysis revealed significant differences between the data obtained from various brain regions of the same patients after an MTBI and between the study and the control group. Proton MR spectroscopy detects changes in cerebral metabolite levels in apparently normal regions. In pyramidal tracts (internal capsules, cerebral peduncles), we noticed a significant reduction of NAA /Cho, lip/Cr, lac/Cr and Glx/Cr. In patients with mild brain injury, we can detect some metabolite abnormalities in normal-appearing brain structures. Proton MRS is a very useful tool for evaluation of major changes in metabolite levels in pyramidal tracts after mild traumatic brain injury

  15. Injury timing alters metabolic, inflammatory and functional outcomes following repeated mild traumatic brain injury.

    Science.gov (United States)

    Weil, Zachary M; Gaier, Kristopher R; Karelina, Kate

    2014-10-01

    Repeated head injuries are a major public health concern both for athletes, and members of the police and armed forces. There is ample experimental and clinical evidence that there is a period of enhanced vulnerability to subsequent injury following head trauma. Injuries that occur close together in time produce greater cognitive, histological, and behavioral impairments than do injuries separated by a longer period. Traumatic brain injuries alter cerebral glucose metabolism and the resolution of altered glucose metabolism may signal the end of the period of greater vulnerability. Here, we injured mice either once or twice separated by three or 20days. Repeated injuries that were separated by three days were associated with greater axonal degeneration, enhanced inflammatory responses, and poorer performance in a spatial learning and memory task. A single injury induced a transient but marked increase in local cerebral glucose utilization in the injured hippocampus and sensorimotor cortex, whereas a second injury, three days after the first, failed to induce an increase in glucose utilization at the same time point. In contrast, when the second injury occurred substantially later (20days after the first injury), an increase in glucose utilization occurred that paralleled the increase observed following a single injury. The increased glucose utilization observed after a single injury appears to be an adaptive component of recovery, while mice with 2 injuries separated by three days were not able to mount this response, thus this second injury may have produced a significant energetic crisis such that energetic demands outstripped the ability of the damaged cells to utilize energy. These data strongly reinforce the idea that too rapid return to activity after a traumatic brain injury can induce permanent damage and disability, and that monitoring cerebral energy utilization may be a tool to determine when it is safe to return to the activity that caused the initial

  16. Dexmedetomidine Postconditioning Reduces Brain Injury after Brain Hypoxia-Ischemia in Neonatal Rats.

    Science.gov (United States)

    Ren, Xiaoyan; Ma, Hong; Zuo, Zhiyi

    2016-06-01

    Perinatal asphyxia can lead to death and severe disability. Brain hypoxia-ischemia (HI) injury is the major pathophysiology contributing to death and severe disability after perinatal asphyxia. Here, seven-day old Sprague-Dawley rats were subjected to left brain HI. Dexmedetomidine was given intraperitoneally after the brain HI. Yohimbine or atipamezole, two α2 adrenergic receptor antagonists, were given 10 min before the dexmedetomidine injection. Neurological outcome was evaluated 7 or 28 days after the brain HI. Frontal cerebral cortex was harvested 6 h after the brain HI. Left brain HI reduced the left cerebral hemisphere weight assessed 7 days after the brain HI. This brain tissue loss was dose-dependently attenuated by dexmedetomidine. Dexmedetomidine applied within 1 h after the brain HI produced this effect. Dexmedetomidine attenuated the brain HI-induced brain tissue and cell loss as well as neurological and cognitive dysfunction assessed from 28 days after the brain HI. Dexmedetomidine postconditioning-induced neuroprotection was abolished by yohimbine or atipamezole. Brain HI increased tumor necrosis factor α and interleukin 1β in the brain tissues. This increase was attenuated by dexmedetomidine. Atipamezole inhibited this dexmedetomidine effect. Our results suggest that dexmedetomidine postconditioning reduces HI-induced brain injury in the neonatal rats. This effect may be mediated by α2 adrenergic receptor activation that inhibits inflammation in the ischemic brain tissues. PMID:26932203

  17. Role of Melatonin in Traumatic Brain Injury and Spinal Cord Injury

    Directory of Open Access Journals (Sweden)

    Mehar Naseem

    2014-01-01

    Full Text Available Brain and spinal cord are implicated in incidences of two of the most severe injuries of central nervous system (CNS. Traumatic brain injury (TBI is a devastating neurological deficit involving primary and secondary injury cascades. The primary and secondary mechanisms include complex consequences of activation of proinflammatory cytokines, cerebral edema, upregulation of NF-κβ, disruption of blood-brain barrier (BBB, and oxidative stress. Spinal cord injury (SCI includes primary and secondary injury cascades. Primary injury leads to secondary injury in which generation of free radicals and oxidative or nitrative damage play an important pathophysiological role. The indoleamine melatonin is a hormone secreted or synthesized by pineal gland in the brain which helps to regulate sleep and wake cycle. Melatonin has been shown to be a versatile hormone having antioxidative, antiapoptotic, neuroprotective, and anti-inflammatory properties. It has a special characteristic of crossing BBB. Melatonin has neuroprotective role in the injured part of the CNS after TBI and SCI. A number of studies have successfully shown its therapeutic value as a neuroprotective agent in the treatment of neurodegenerative diseases. Here in this review we have compiled the literature supporting consequences of CNS injuries, TBI and SCI, and the protective role of melatonin in it.

  18. Lateral fluid percussion: model of traumatic brain injury in mice.

    Science.gov (United States)

    Alder, Janet; Fujioka, Wendy; Lifshitz, Jonathan; Crockett, David P; Thakker-Varia, Smita

    2011-01-01

    Traumatic brain injury (TBI) research has attained renewed momentum due to the increasing awareness of head injuries, which result in morbidity and mortality. Based on the nature of primary injury following TBI, complex and heterogeneous secondary consequences result, which are followed by regenerative processes (1,2). Primary injury can be induced by a direct contusion to the brain from skull fracture or from shearing and stretching of tissue causing displacement of brain due to movement (3,4). The resulting hematomas and lacerations cause a vascular response (3,5), and the morphological and functional damage of the white matter leads to diffuse axonal injury (6-8). Additional secondary changes commonly seen in the brain are edema and increased intracranial pressure (9). Following TBI there are microscopic alterations in biochemical and physiological pathways involving the release of excitotoxic neurotransmitters, immune mediators and oxygen radicals (10-12), which ultimately result in long-term neurological disabilities (13,14). Thus choosing appropriate animal models of TBI that present similar cellular and molecular events in human and rodent TBI is critical for studying the mechanisms underlying injury and repair. Various experimental models of TBI have been developed to reproduce aspects of TBI observed in humans, among them three specific models are widely adapted for rodents: fluid percussion, cortical impact and weight drop/impact acceleration (1). The fluid percussion device produces an injury through a craniectomy by applying a brief fluid pressure pulse on to the intact dura. The pulse is created by a pendulum striking the piston of a reservoir of fluid. The percussion produces brief displacement and deformation of neural tissue (1,15). Conversely, cortical impact injury delivers mechanical energy to the intact dura via a rigid impactor under pneumatic pressure (16,17). The weight drop/impact model is characterized by the fall of a rod with a specific

  19. The Role of Cytokines and Inflammatory Cells in Perinatal Brain Injury

    OpenAIRE

    McAdams, Ryan M.; Juul, Sandra E.

    2012-01-01

    Perinatal brain injury frequently complicates preterm birth and leads to significant long-term morbidity. Cytokines and inflammatory cells are mediators in the common pathways associated with perinatal brain injury induced by a variety of insults, such as hypoxic-ischemic injury, reperfusion injury, toxin-mediated injury, and infection. This paper examines our current knowledge regarding cytokine-related perinatal brain injury and specifically discusses strategies for attenuating cytokine-med...

  20. Correlation of brain-derived neurotrophic factor to cognitive impairment following traumatic brain injury in rats

    Institute of Scientific and Technical Information of China (English)

    Dezhi Kang; Zhang Guo

    2008-01-01

    BACKGROUND: In vitro and in vivo studies have confirmed that brain-derived neurotrophic factor (BDNF) can promote survival and differentiation of cholinergic, dopaminergic and motor neurons, and axonal regeneration. BDNF has neuroprotective effects on the nervous system. OBJECTIVE: To explore changes in BDNF expression and cognitive function in rats after brain injury DESIGN, TIME AND SETTING: The neuropathology experiment was performed at the Second Research Room, Department of Neurosurgery, Fujian Medical University (China) from July 2007 to July 2008. MATERIALS: A total of 72 healthy, male, Sprague Dawley, rats were selected for this study. METHODS: Rat models of mild and moderate traumatic brain injury were created by percussion, according to Feeney's method (n = 24, each group). A bone window was made in rats from the sham operation group (n = 24), but no attack was conducted. MAIN OUTCOME MEASURES: At days 1,2, 4 and 7 following injury, BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was examined by immunohistochemistry (streptavidin-biotin-peroxidase complex method). Changes in rat cognitive function were assessed by the walking test, balance-beam test and memory function detection. RESULTS: Cognitive impairment was aggravated at day 2, and recovered to normal at days 3 and 7 in rats from the mild and moderate traumatic brain injury groups. BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was increased at 1 day, decreased at day 2, and then gradually increased in the mild and moderate traumatic brain injury groups. BDNF expression was greater in rats from the moderate traumatic brain injury group than in the sham operation and mild traumatic brain injury groups (P < 0.05). CONCLUSION: BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain is correlated to cognitive impairment after traumatic brain injury. BDNF has a protective effect on cognitive function in rats

  1. [Treatment of delayed brain injury after pituitary irradiation].

    Science.gov (United States)

    Fujii, T; Misumi, S; Shibasaki, T; Tamura, M; Kunimine, H; Hayakawa, K; Niibe, H; Miyazaki, M; Miyagi, O

    1988-03-01

    Treatment for delayed brain injury after pituitary irradiation is discussed. Six cases with delayed brain injury were treated with a combination of dexamethasone or betamethasone, with heparin, glycerol, dextran 40 and some vasodilators. Two cases with temporal lobe syndrome were treated in the early stages of brain injury for a period of over 12 months were almost completely cured, another two cases with chiasma syndrome were treated in the relatively late stages, showed a partial improvement. One case which was irradiated 120 GY during 13 years did not improve. The final case treated with steroids for a short period also resulted in failure and the patient underwent an operation for the removal of the necrotic mass three years after the radiotherapy. Steroid therapy started in the early stages of brain injury after irradiation for over the 12 months is thought to be effective. Heparin therapy was also effective in one out of three cases, but in one of the cases subarachnoid hemorrhage from a traumatic aneurysm occurred during the therapy. In an acute phase, showing edematous change of the injured brain, the administration of glycerol is also thought to be useful. But the effectiveness of the other medicines containing some vasodilators was obscure or doubtful. We propose the following: (1) A meticulous observation is essential for the patients who received high doses of irradiation to diagnose brain injury in the early reversible stage. (2) Steroids should be given immediately in this reversible stage of brain injury before the irreversible "necrosis" occurs. (3) Steroids should be maintained for a long period over 12 months.(ABSTRACT TRUNCATED AT 250 WORDS) PMID:2453809

  2. IBIS Vol. 3.0

    Energy Technology Data Exchange (ETDEWEB)

    2004-07-12

    IBIS (massively parallelized version 2) is a comprehensive model of terrestrial biospheric processes, and includes land surface physics, canopy physiology, plant phenology, vegetation dynamics and competition, and carbon cycling. The land surface module simulates the energy, water, carbon and momentum balance of soil/vegetation/atmospheric system on a short time step consistent with general circulation models (20-60 minutes). The module includes two vegetation layers (trees, and grasses and shrubs) and six soil layers to simulate soil temperature, soil water, and soil ice content over a total depth of 4 m. Physiologically-based formulations of C3 and C4 photosynthesis (Farquhar. et al., 1980), stomatal conductance (Collatz, et al., 1992; Collatz, et al., 1991) and respiration (Amthor, 1984) are used to simulate canopy gas exchange processes. Budburst and senescence depend on climatic factors following the empirical algorithm presented by Botta, et al. (2000). The annual carbon balance allows the vegetation dynamics submodel to predict the maximum leaf area index and biomass for 12 plant functional types, which compete for light and water. IBIS represents vegetation dynamics using very simple competition rules. The relative abundance of the 12 platn functional types in each grid cell changes in time according to their ability to photosynthesize and use water, IBIS simulates carbon cycling through vegetation, litter and soil organic matter. The soil biogeochemistry model of Verbene, et al. (1990). The total below-ground carbon in the first meter of soil is divided into pools characterized by their residence time: from a few hours for the microbal biomass to more than 1000 years for stabilized organic matter. Decomposition rates of litter and soil carbon depend on soil temperature and soil moisture.

  3. Synaptic Mechanisms of Blast-Induced Brain Injury.

    Science.gov (United States)

    Przekwas, Andrzej; Somayaji, Mahadevabharath R; Gupta, Raj K

    2016-01-01

    Blast wave-induced traumatic brain injury (TBI) is one of the most common injuries to military personnel. Brain tissue compression/tension due to blast-induced cranial deformations and shear waves due to head rotation may generate diffuse micro-damage to neuro-axonal structures and trigger a cascade of neurobiological events culminating in cognitive and neurodegenerative disorders. Although diffuse axonal injury is regarded as a signature wound of mild TBI (mTBI), blast loads may also cause synaptic injury wherein neuronal synapses are stretched and sheared. This synaptic injury may result in temporary disconnect of the neural circuitry and transient loss in neuronal communication. We hypothesize that mTBI symptoms such as loss of consciousness or dizziness, which start immediately after the insult, could be attributed to synaptic injury. Although empirical evidence is beginning to emerge; the detailed mechanisms underlying synaptic injury are still elusive. Coordinated in vitro-in vivo experiments and mathematical modeling studies can shed light into the synaptic injury mechanisms and their role in the potentiation of mTBI symptoms. PMID:26834697

  4. Increased leakage of brain antigens after traumatic brain injury and effect of immune tolerance induced by cells on traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    YAN Hua; ZHANG Hong-wei; WU Qiao-li; ZHANG Guo-bin; LIU Kui; ZHI Da-shi; HU Zhen-bo; ZENG Xian-wei

    2012-01-01

    Background Although traumatic brain injury can lead to opening the blood-brain barrier and leaking of blood substances (including water) into brain tissue,few studies of brain antigens leaking into the blood and the pathways have been reported.Brain antigens result in damage to brain tissues by stimulating the immune system to produce anti-brain antibodies,but no treatment has been reported to reduce the production of anti-brain antibodies and protect the brain tissue.The aim of the study is to confirm the relationship between immune injury and arachnoid granulations following traumatic brain injury,and provide some new methods to inhibit the immune injury.Methods In part one,methylene blue was injected into the rabbits' cisterna magna after traumatic brain injury,and concentrations of methylene blue and tumor necrosis factor (TNF)-α in blood were detected to determine the permeability of arachnoid granulations.In part two,umbilical cord mesenchymal stem cells and immature dendritic cells were injected into veins,and concentrations of interleukin 1 (IL-1),IL-10,interferon (IFN)-y,transforming growth factor (TGF)-β,anti-brain antibodies (ABAb),and IL-12 were measured by ELISA on days 1,3,7,14 and 21 after injury,and the numbers of leukocytes in the blood were counted.Twenty-one days after injury,expression of glutamate in brain tissue was determined by immunohistochemical staining,and neuronal degeneration was detected by H&E staining.Results In part one,blood concentrations of methylene blue and TNF-α in the traumatic brain injury group were higher than in the control group (P <0.05).Concentrations of methylene blue and TNF-α in the trauma cerebrospinal fluid (CSF)injected group were higher than in the control cerebrospinal fluid injected group (P <0.05).In part two,concentrations of IL-1,IFN-y,ABAb,IL-12,expression of glutamate (Glu),neuronal degeneration and number of peripheral blood leukocytes were lower in the group with cell treatment compared to the

  5. Suicide after traumatic brain injury: a population study

    DEFF Research Database (Denmark)

    Teasdale, T W; Engberg, A W

    2001-01-01

    OBJECTIVES: To determine the rates of suicide among patients who have had a traumatic brain injury. METHODS: From a Danish population register of admissions to hospital covering the years 1979-93 patients were selected who had had either a concussion (n=126 114), a cranial fracture (n=7560), or a......). There was, however, no evidence of a specific risk period for suicide after injury. CONCLUSION: The increased risk of suicide among patients who had a mild traumatic brain injury may result from concomitant risk factors such as psychiatric conditions and psychosocial disadvantage. The greater risk among...... the more serious cases implicates additionally the physical, psychological, and social consequences of the injuries as directly contributing to the suicides....

  6. Detecting Behavioral Deficits Post Traumatic Brain Injury in Rats.

    Science.gov (United States)

    Awwad, Hibah O

    2016-01-01

    Traumatic brain injury (TBI), ranging from mild to severe, almost always elicits an array of behavioral deficits in injured subjects. Some of these TBI-induced behavioral deficits include cognitive and vestibulomotor deficits as well as anxiety and other consequences. Rodent models of TBI have been (and still are) fundamental in establishing many of the pathophysiological mechanisms of TBI. Animal models are also utilized in screening and testing pharmacological effects of potential therapeutic agents for brain injury treatment. This chapter details validated protocols for each of these behavioral deficits post traumatic brain injury in Sprague-Dawley male rats. The elevated plus maze (EPM) protocol is described for assessing anxiety-like behavior; the Morris water maze protocol for assessing cognitive deficits in learning memory and spatial working memory and the rotarod test for assessing vestibulomotor deficits. PMID:27604739

  7. Radiologic Determination of Corpus Callosum Injury in Patients with Mild Traumatic Brain Injury and Associated Clinical Characteristics

    OpenAIRE

    Kim, Dong Shin; Choi, Hyuk Jai; Yang, Jin Seo; Cho, Yong Jun; Kang, Suk Hyung

    2015-01-01

    Objective To investigate the incidence of corpus callosum injury (CCI) in patients with mild traumatic brain injury (TBI) using brain MRI. We also performed a review of the clinical characteristics associated with this injury. Methods A total of 356 patients in the study were diagnosed with TBI, with 94 patients classified as having mild TBI. We included patients with mild TBI for further evaluation if they had normal findings via brain computed tomography (CT) scans and also underwent brain ...

  8. Propofol Attenuates Early Brain Injury After Subarachnoid Hemorrhage in Rats.

    Science.gov (United States)

    Shi, Song-sheng; Zhang, Hua-bin; Wang, Chun-hua; Yang, Wei-zhong; Liang, Ri-sheng; Chen, Ye; Tu, Xian-kun

    2015-12-01

    Our previous studies demonstrated that propofol protects rat brain against focal cerebral ischemia. However, whether propofol attenuates early brain injury after subarachnoid hemorrhage in rats remains unknown until now. The present study was performed to evaluate the effect of propofol on early brain injury after subarachnoid hemorrhage in rats and further explore the potential mechanisms. Sprague-Dawley rats underwent subarachnoid hemorrhage (SAH) by endovascular perforation then received treatment with propofol (10 or 50 mg/kg) or vehicle after 2 and 12 h of SAH. SAH grading, neurological scores, brain water content, Evans blue extravasation, the myeloperoxidase activity, and malondialdehyde (MDA) content were measured 24 h after SAH. Expression of nuclear factor erythroid-related factor 2 (Nrf2), nuclear factor-kappa B (NF-κB) p65, and aquaporin 4 (AQP4) expression in rat brain were detected by Western blot. Expression of cyclooxygenase-2 (COX-2) and matrix metalloproteinase-9 (MMP-9) were determined by reverse transcription-polymerase chain reaction (RT-PCR). Expressions of tumor necrosis factor-α (TNF-α) and interleukin-1β (IL-1β) were assessed by ELISA. Neurological scores, brain water content, Evans blue extravasation, the myeloperoxidase activity, and MDA content were significantly reduced by propofol. Furthermore, expression of Nrf2 in rat brain was upregulated by propofol, and expression of NF-κB p65, AQP4, COX-2, MMP-9, TNF-α, and IL-1β in rat brain were attenuated by propofol. Our results demonstrated that propofol improves neurological scores, reduces brain edema, blood-brain barrier (BBB) permeability, inflammatory reaction, and lipid peroxidation in rats of SAH. Propofol exerts neuroprotection against SAH-induced early brain injury, which might be associated with the inhibition of inflammation and lipid peroxidation. PMID:26342279

  9. The profile of head injuries and traumatic brain injury deaths in Kashmir

    Directory of Open Access Journals (Sweden)

    Tabish Amin

    2008-06-01

    Full Text Available Abstract This study was conducted on patients of head injury admitted through Accident & Emergency Department of Sher-i-Kashmir Institute of Medical Sciences during the year 2004 to determine the number of head injury patients, nature of head injuries, condition at presentation, treatment given in hospital and the outcome of intervention. Traumatic brain injury (TBI deaths were also studied retrospectively for a period of eight years (1996 to 2003. The traumatic brain injury deaths showed a steady increase in number from year 1996 to 2003 except for 1999 that showed decline in TBI deaths. TBI deaths were highest in age group of 21–30 years (18.8%, followed by 11–20 years age group (17.8% and 31–40 years (14.3%. The TBI death was more common in males. Maximum number of traumatic brain injury deaths was from rural areas as compared to urban areas. To minimize the morbidity and mortality resulting from head injury there is a need for better maintenance of roads, improvement of road visibility and lighting, proper mechanical maintenance of automobile and other vehicles, rigid enforcement of traffic rules, compulsory wearing of crash helmets by motor cyclist and scooterists and shoulder belt in cars and imparting compulsory road safety education to school children from primary education level. Moreover, appropriate medical care facilities (including trauma centres need to be established at district level, sub-divisional and block levels to provide prompt and quality care to head injury patients

  10. Outcome from Complicated versus Uncomplicated Mild Traumatic Brain Injury

    OpenAIRE

    Iverson, Grant L.; Lange, Rael T.; Minna Wäljas; Suvi Liimatainen; Prasun Dastidar; Hartikainen, Kaisa M.; Seppo Soimakallio; Juha Öhman

    2012-01-01

    Objective. To compare acute outcome following complicated versus uncomplicated mild traumatic brain injury (MTBI) using neurocognitive and self-report measures. Method. Participants were 47 patients who presented to the emergency department of Tampere University Hospital, Finland. All completed MRI scanning, self-report measures, and neurocognitive testing at 3-4 weeks after injury. Participants were classified into the complicated MTBI or uncomplicated MTBI group based on the presence/absenc...

  11. Energy Drinks, Alcohol, Sports and Traumatic Brain Injuries among Adolescents

    OpenAIRE

    Ilie, Gabriela; Boak, Angela; Mann, Robert E.; Adlaf, Edward M.; Hamilton, Hayley; Asbridge, Mark; Rehm, Jürgen; Cusimano, Michael D.

    2015-01-01

    Importance The high prevalence of traumatic brain injuries (TBI) among adolescents has brought much focus to this area in recent years. Sports injuries have been identified as a main mechanism. Although energy drinks, including those mixed with alcohol, are often used by young athletes and other adolescents they have not been examined in relation to TBI. Objective We report on the prevalence of adolescent TBI and its associations with energy drinks, alcohol and energy drink mixed in with alco...

  12. Abnormal Corticospinal Excitability in Traumatic Diffuse Axonal Brain Injury

    OpenAIRE

    Bernabeu, Montse; Demirtas-Tatlidede, Asli; Opisso, Eloy; Lopez, Raquel; Tormos, Jose Mª; Pascual-Leone, Alvaro

    2009-01-01

    This study aimed to investigate the cortical motor excitability characteristics in diffuse axonal injury (DAI) due to severe traumatic brain injury (TBI). A variety of excitatory and inhibitory transcranial magnetic stimulation (TMS) paradigms were applied to primary motor cortices of 17 patients and 11 healthy controls. The parameters of testing included resting motor threshold (MT), motor evoked potential (MEP) area under the curve, input-output curves, MEP variability, and silent period (S...

  13. Trial of Oral Metoclopramide on Diurnal Bruxism of Brain Injury

    OpenAIRE

    Yi, Ho Sung; Kim, Hyoung Seop; Seo, Mi Ri

    2013-01-01

    Bruxism is a diurnal or nocturnal parafunctional activity that includes tooth clenching, bracing, gnashing, and grinding. The dopaminergic system seems to be the key pathophysiology of bruxism and diminution of dopaminergic transmission at the prefrontal cortex seems to induce it. We report two patients with diurnal bruxism in whom a bilateral frontal lobe injury resulted from hemorrhagic stroke or traumatic brain injury. These patients' bruxism was refractory to bromocriptine but responded t...

  14. New means to assess neonatal inflammatory brain injury

    OpenAIRE

    Jin, Chen; Londono, Irene; Mallard, Carina; Lodygensky, Gregory A

    2015-01-01

    Preterm infants are especially vulnerable to infection-induced white matter injury, associated with cerebral palsy, cognitive and psychomotor impairment, and other adverse neurological outcomes. The etiology of such lesions is complex and multifactorial. Furthermore, timing and length of exposure to infection also influence neurodevelopmental outcomes. Different mechanisms have been posited to mediate the observed brain injury including microglial activation followed by subsequent release of ...

  15. Dysautonomia after traumatic brain injury: a forgotten syndrome?

    OpenAIRE

    Baguley, I.; Nicholls, J; Felmingham, K.; Crooks, J; Gurka, J.; Wade, L.

    1999-01-01

    OBJECTIVES—To better establish the clinical features, natural history, clinical management, and rehabilitation implications of dysautonomia after traumatic brain injury, and to highlight difficulties with previous nomenclature.
METHODS—Retrospective file review on 35 patients with dysautonomia and 35 sex and Glasgow coma scale score matched controls. Groups were compared on injury details, CT findings, physiological indices, and evidence of infections over the first 28 da...

  16. Functional brain imaging to investigate the higher brain dysfunction induced by diffuse brain injury

    International Nuclear Information System (INIS)

    Higher brain dysfunction is the major problem of patients who recover from neurotrauma the prevents them from returning to their previous social life. Many such patients do not have focal brain damage detected with morphological imaging. We focused on studying the focal brain dysfunction that can be detected only with functional imaging with positron emission tomography (PET) in relation to the score of various cognition batteries. Patients who complain of higher brain dysfunction without apparent morphological cortical damage were recruited for this study. Thirteen patients with diffuse axonal injury (DAI) or cerebral concussion was included. They underwent a PET study to image glucose metabolism by 18F-fluorodeoxyglucose (FDG), and central benodiazepine receptor (cBZD-R) (marker of neuronal body) by 11C-flumazenil, together with cognition measurement by WAIS-R, WMS-R, and WCST etc. PET data were compared with age matched normal controls using statistical parametric mapping (SPM)2. DAI patients had a significant decrease in glucose matabolism and cBZD-R distribution in the cingulated cortex than normal controls. Patients diagnosed with concussion because of shorter consciousness disturbance also had abnormal FDG uptake and cBZD-R distribution. Cognition test scores were variable among patients. Degree of decreased glucose metabolism and cBZD-R distribution in the dominant hemishphere corresponded well to the severity of cognitive disturbance. PET molecular imaging was useful to depict focal cortical dysfunction of neurotrauma patients even when morphological change was not apparent. This method may be promising to clarify the pathophysiology of higher brain dysfunction of patients with diffuse axonal injury or chronic traumatic encephalopathy. (author)

  17. Early Bifrontal Brain Injury: Disturbances in Cognitive Function Development

    Directory of Open Access Journals (Sweden)

    Christine Bonnier

    2010-01-01

    Full Text Available We describe six psychomotor, language, and neuropsychological sequential developmental evaluations in a boy who sustained a severe bifrontal traumatic brain injury (TBI at 19 months of age. Visuospatial, drawing, and writing skills failed to develop normally. Gradually increasing difficulties were noted in language leading to reading and spontaneous speech difficulties. The last two evaluations showed executive deficits in inhibition, flexibility, and working memory. Those executive abnormalities seemed to be involved in the other impairments. In conclusion, early frontal brain injury disorganizes the development of cognitive functions, and interactions exist between executive function and other cognitive functions during development.

  18. [Scandinavian guidelines for prehospital management of severe traumatic brain injury

    DEFF Research Database (Denmark)

    Sollid, S.; Sundstrom, T.; Kock-Jensen, C.;

    2008-01-01

    Head trauma is the cause the death for many young persons. The number of fatalities can be reduced through systematic management. Prevention of secondary brain injury combined with the fastest possible transport to a neurosurgical unit, have been shown to effectively reduce mortality and morbidity....... Evidence-based guidelines already exist that focus on all steps in the process. In the present article members of the Scandinavian Neurotrauma Committee present recommendations on prehospital management of traumatic brain injury adapted to the infrastructure of the Nordic region Udgivelsesdato: 2008/6/26...

  19. Do metals that translocate to the brain exacerbate traumatic brain injury?

    Science.gov (United States)

    Kalinich, John F; Kasper, Christine E

    2014-05-01

    Metal translocation to the brain is strictly controlled and often prevented by the blood-brain barrier. For the most part, only those metals required to maintain normal function are transported into the brain where they are under tight metabolic control. From the literature, there are reports that traumatic brain injury disrupts the blood-brain barrier. This could allow the influx of metals that would normally have been excluded from the brain. We also have preliminary data showing that metal pellets, surgically-implanted into the leg muscle of a rat to simulate a shrapnel wound, solubilize and the metals comprising the pellet can enter the brain. Surprisingly, rats implanted with a military-grade tungsten alloy composed of tungsten, nickel, and cobalt also showed significantly elevated uranium levels in their brains as early as 1 month after pellet implantation. The only source of uranium was low levels that are naturally found in food and water. Conversely, rats implanted with depleted uranium pellets demonstrated elevated uranium levels in brain resulting from degradation of the implanted pellets. However, when cobalt levels were measured, there were no significant increases in the brain until the rats had reached old age. The only source of cobalt for these rats was the low levels found in their food and water. These data suggest that some metals or metal mixtures (i.e., tungsten alloy), when embedded into muscle, can enhance the translocation of other, endogenous metals (e.g., uranium) across the blood-brain barrier. For other embedded metals (i.e., depleted uranium), this effect is not observed until the animal is of advanced age. This raises the possibility that metal body-burdens can affect blood-brain barrier permeability in a metal-specific and age-dependent manner. This possibility is disconcerting when traumatic brain injury is considered. Traumatic brain injury has been called the "signature" wound of the conflicts in Iraq and Afghanistan, often, an

  20. Misconceptions on neuropsychological rehabilitation and traumatic brain injury.

    Directory of Open Access Journals (Sweden)

    Alberto García- Molina

    2013-12-01

    Full Text Available There are many misconceptions about traumatic brain injuries, their recovery and outcome; misconceptions that have their origin in a lack of information influenced by the image that the media show of the brain damage. Development. Based on clinical experience, the authors of this essay sets out his personal view on some of the most frequent misconceptions in the field of neuropsychological rehabilitation of traumatic brain injury: 1 All deficits are evident; 2 The recovery depends mainly on the involvement of the patient: more effort, more rapid recovery; 3 Two years after traumatic brain injury there is no possibility of improvement and recovery; and 4 The “miracle” of recovery will occur when is found the appropriate professional or treatment. These and other beliefs may influence directly or indirectly on the recovery process and the expectations placed on it by the families and patients. Conclusions. Provide accurate, clear and honest information, at the right time, helps patients and their families to better understand the deficits, the course of recovery and to adapt to the new reality resulting from a traumatic brain injury.

  1. Hyperbaric oxygen therapy improves cognitive functioning after brain injury

    Institute of Scientific and Technical Information of China (English)

    Su Liu; Guangyu Shen; Shukun Deng; Xiubin Wang; Qinfeng Wu; Aisong Guo

    2013-01-01

    Hyperbaric oxygen therapy has been widely applied and recognized in the treatment of brain injury;however, the correlation between the protective effect of hyperbaric oxygen therapy and changes of metabolites in the brain remains unclear. To investigate the effect and potential mechanism of hyperbaric oxygen therapy on cognitive functioning in rats, we established traumatic brain injury models using Feeney’s free fal ing method. We treated rat models with hyperbaric oxygen therapy at 0.2 MPa for 60 minutes per day. The Morris water maze test for spatial navigation showed that the average escape latency was significantly prolonged and cognitive function decreased in rats with brain injury. After treatment with hyperbaric oxygen therapy for 1 and 2 weeks, the rats’ spatial learning and memory abilities were improved. Hydrogen proton magnetic resonance spectroscopy analysis showed that the N-acetylaspartate/creatine ratio in the hippocampal CA3 region was sig-nificantly increased at 1 week, and the N-acetylaspartate/choline ratio was significantly increased at 2 weeks after hyperbaric oxygen therapy. Nissl staining and immunohistochemical staining showed that the number of nerve cells and Nissl bodies in the hippocampal CA3 region was significantly increased, and glial fibril ary acidic protein positive cells were decreased after a 2-week hyperbaric oxygen therapy treatment. Our findings indicate that hyperbaric oxygen therapy significantly im-proves cognitive functioning in rats with traumatic brain injury, and the potential mechanism is me-diated by metabolic changes and nerve cellrestoration in the hippocampal CA3 region.

  2. Nonlinear Dynamic Theory of Acute Cell Injuries and Brain Ischemia

    Science.gov (United States)

    Taha, Doaa; Anggraini, Fika; Degracia, Donald; Huang, Zhi-Feng

    2015-03-01

    Cerebral ischemia in the form of stroke and cardiac arrest brain damage affect over 1 million people per year in the USA alone. In spite of close to 200 clinical trials and decades of research, there are no treatments to stop post-ischemic neuron death. We have argued that a major weakness of current brain ischemia research is lack of a deductive theoretical framework of acute cell injury to guide empirical studies. A previously published autonomous model based on the concept of nonlinear dynamic network was shown to capture important facets of cell injury, linking the concept of therapeutic to bistable dynamics. Here we present an improved, non-autonomous formulation of the nonlinear dynamic model of cell injury that allows multiple acute injuries over time, thereby allowing simulations of both therapeutic treatment and preconditioning. Our results are connected to the experimental data of gene expression and proteomics of neuron cells. Importantly, this new model may be construed as a novel approach to pharmacodynamics of acute cell injury. The model makes explicit that any pro-survival therapy is always a form of sub-lethal injury. This insight is expected to widely influence treatment of acute injury conditions that have defied successful treatment to date. This work is supported by NIH NINDS (NS081347) and Wayne State University President's Research Enhancement Award.

  3. Animal models of traumatic brain injury : a critical evaluation

    OpenAIRE

    O'Connor, William; Smyth, Aoife; Gilchrist, M. D.

    2011-01-01

    Animal models are necessary to elucidate changes occurring after brain injury and to establish new therapeutic strategies towards a stage where drug efficacy in brain injured patients (against all classes of symptoms) can be predicted. In this review, six established animal models of head trauma, namely fluid percussion, rigid indentation, inertial acceleration, impact acceleration, weight-drop and dynamic cortical deformation are evaluated. While no single animal model is entirely successful...

  4. Pharmacologic resuscitation for hemorrhagic shock combined with traumatic brain injury

    DEFF Research Database (Denmark)

    Jin, Guang; Duggan, Michael; Imam, Ayesha;

    2012-01-01

    We have previously demonstrated that valproic acid (VPA), a histone deacetylase inhibitor, can improve survival after hemorrhagic shock (HS), protect neurons from hypoxia-induced apoptosis, and attenuate the inflammatory response. We have also shown that administration of 6% hetastarch (Hextend [...... [Hex]) after traumatic brain injury (TBI) decreases brain swelling, without affecting size of the lesion. This study was performed to determine whether addition of VPA to Hex would decrease the lesion size in a clinically relevant large animal model of TBI + HS....

  5. Oligodendrogenesis after Cerebral Ischaemia and Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Zheng Gang Zhang

    2013-08-01

    Full Text Available Stroke and traumatic brain injury (TBI damage white and grey matter. Loss of oligodendrocytes and their myelin, impairs axonal function. Remyelination involves oligodendrogenesis during which new myelinating oligodendrocytes are generated by differentiated oligodendrocyte progenitor cells (OPCs. This article briefly reviews the processes of oligodendrogenesis in adult rodent brains, and promising experimental therapies targeting the neurovascular unit that reduce oligodendrocyte damage and amplify endogenous oligodendrogenesis after stroke and TBI.

  6. Brain stimulation: Neuromodulation as a potential treatment for motor recovery following traumatic brain injury.

    Science.gov (United States)

    Clayton, E; Kinley-Cooper, S K; Weber, R A; Adkins, D L

    2016-06-01

    There is growing evidence that electrical and magnetic brain stimulation can improve motor function and motor learning following brain damage. Rodent and primate studies have strongly demonstrated that combining cortical stimulation (CS) with skilled motor rehabilitative training enhances functional motor recovery following stroke. Brain stimulation following traumatic brain injury (TBI) is less well studied, but early pre-clinical and human pilot studies suggest that it is a promising treatment for TBI-induced motor impairments as well. This review will first discuss the evidence supporting brain stimulation efficacy derived from the stroke research field as proof of principle and then will review the few studies exploring neuromodulation in experimental TBI studies. This article is part of a Special Issue entitled SI:Brain injury and recovery. PMID:26855256

  7. Human plasma DNP level after severe brain injury

    Institute of Scientific and Technical Information of China (English)

    GAO Yi-lu; XIN Hui-ning; FENG Yi; FAN Ji-wei

    2006-01-01

    Objective: To determine the relationship between DNP level after human severe brain injury and hyponatremia as well as isorrhea.Methods: The peripheral venous plasma as control was collected from 8 volunteers. The peripheral venous plasma from 14 severe brain injury patients were collected in the 1, 3, 7 days after injury. Radioimmunoassay was used to detect the DNP concentration. Meanwhile, daily plasma and urine electrolytes, osmotic pressure as well as 24 h liquid intake and output volume were detected.Results: The normal adult human plasma DNP level was 62. 46 pg/ml ± 27. 56 pg/ml. In the experimental group, the plasma DNP levels were higher from day 1 today 3 in 8 of the 14 patients than those in the control group (P1 =0.05, P3 =0.03). Negative fluid balance occurred in 8 patients and hyponatremia in 7 patients. The increase of plasma DNP level was significantly correlated with the development of a negative fluid balance (r=-0.69,P<0.01) and hyponatremia (x2 =4.38, P<0.05).Conclusions: The increase of plasma DNP level is accompanied by the enhancement of natriuretic and diuretic responses in severe brain-injured patients, which is associated with the development of a negative fluid balance and hyponatremia after brain injury.

  8. Integration of Neuropsychology in Educational Planning Following Traumatic Brain Injury

    Science.gov (United States)

    Stavinoha, Peter L.

    2005-01-01

    Traumatic brain injuries (TBIs) have the potential to significantly disrupt a student's cognitive, academic, social, emotional, behavioral, and physical functioning. It is important for educators to appreciate the array of difficulties students with TBI may experience in order to appropriately assess needs and create an educational plan that…

  9. Cognitive Rehabilitation for Children with Acquired Brain Injury

    Science.gov (United States)

    Slomine, Beth; Locascio, Gianna

    2009-01-01

    Cognitive deficits are frequent consequences of acquired brain injury (ABI) and often require intervention. We review the theoretical and empirical literature on cognitive rehabilitation in a variety of treatment domains including attention, memory, unilateral neglect, speech and language, executive functioning, and family involvement/education.…

  10. Practitioner Review: Cognitive Rehabilitation for Children with Acquired Brain Injury

    Science.gov (United States)

    Limond, Jenny; Leeke, Rachel

    2005-01-01

    Background: The need to address acquired cognitive impairments is increasing in child populations seen across a range of settings. However, current clinical practice following brain injury in children does not necessarily incorporate the use of cognitive rehabilitation models or techniques. The aim of this paper is to review the literature in this…

  11. Low level laser therapy for traumatic brain injury

    Science.gov (United States)

    Wu, Qiuhe; Huang, Ying-Ying; Dhital, Saphala; Sharma, Sulbha K.; Chen, Aaron C.-H.; Whalen, Michael J.; Hamblin, Michael R.

    2010-02-01

    Low level laser (or light) therapy (LLLT) has been clinically applied for many indications in medicine that require the following processes: protection from cell and tissue death, stimulation of healing and repair of injuries, and reduction of pain, swelling and inflammation. One area that is attracting growing interest is the use of transcranial LLLT to treat stroke and traumatic brain injury (TBI). The fact that near-infrared light can penetrate into the brain would allow non-invasive treatment to be carried out with a low likelihood of treatment-related adverse events. LLLT may have beneficial effects in the acute treatment of brain damage injury by increasing respiration in the mitochondria, causing activation of transcription factors, reducing key inflammatory mediators, and inhibiting apoptosis. We tested LLLT in a mouse model of TBI produced by a controlled weight drop onto the skull. Mice received a single treatment with 660-nm, 810-nm or 980-nm laser (36 J/cm2) four hours post-injury and were followed up by neurological performance testing for 4 weeks. Mice with moderate to severe TBI treated with 660- nm and 810-nm laser had a significant improvement in neurological score over the course of the follow-up and histological examination of the brains at sacrifice revealed less lesion area compared to untreated controls. Further studies are underway.

  12. Swallowing Disorders in Severe Brain Injury in the Arousal Phase.

    Science.gov (United States)

    Bremare, A; Rapin, A; Veber, B; Beuret-Blanquart, F; Verin, E

    2016-08-01

    The objective of this study was to determine the clinical characteristics of swallowing disorders in severe brain injury in the arousal phase after coma. Between December 1, 2013 and June 30, 2014, eleven patients with severe acquired brain injury who were admitted to rehabilitation center (Male 81.8 %; 40.7 ± 14.6 years) were included in the study. Evaluation of swallowing included a functional examination, clinical functional swallowing test, and naso-endoscopic swallowing test. All patients had swallowing disorders at admission. The first functional swallowing test showed oral (77.8 %) and pharyngeal (66.7 %) food bolus transport disorders; and alterations in airway protection mechanisms (80 %). Swallowing test under endoscopic control showed a disorder in swallowing coordination in 55.6 % of patients tested. Seven (63.6 %) patients resumed oral feeding within an average of 6 weeks after admission to rehabilitation center and 14 weeks after acquired brain injury. Six (85.7 %) of these seven patients continued to require modified solid and liquid textures. Swallowing disorders are a major concern in severe brain injury in the arousal phase. Early bedside assessment of swallowing is essential for detection of swallowing disorders to propose appropriate medical rehabilitation care to these patients in a state of altered consciousness. PMID:27090424

  13. Brain injury and severe eating difficulties at admission

    DEFF Research Database (Denmark)

    Kjærsgaard, Annette; Kaae Kristensen, Hanne

    acquired brain injury were interviewed via qualitative semi-structured interviews. An explorative study was conducted to study eating difficulties. Qualitative content analysis was used. Results: Four main themes emerged from the analysis: personal values related to eating, swallowing difficulties, eating...

  14. Death Associated Protein Kinases: Molecular Structure and Brain Injury

    Directory of Open Access Journals (Sweden)

    Claire Thornton

    2013-07-01

    Full Text Available Perinatal brain damage underlies an important share of motor and neurodevelopmental disabilities, such as cerebral palsy, cognitive impairment, visual dysfunction and epilepsy. Clinical, epidemiological, and experimental studies have revealed that factors such as inflammation, excitotoxicity and oxidative stress contribute considerably to both white and grey matter injury in the immature brain. A member of the death associated protein kinase (DAPk family, DAPk1, has been implicated in cerebral ischemic damage, whereby DAPk1 potentiates NMDA receptor-mediated excitotoxicity through interaction with the NR2BR subunit. DAPk1 also mediate a range of activities from autophagy, membrane blebbing and DNA fragmentation ultimately leading to cell death. DAPk mRNA levels are particularly highly expressed in the developing brain and thus, we hypothesize that DAPk1 may play a role in perinatal brain injury. In addition to reviewing current knowledge, we present new aspects of the molecular structure of DAPk domains, and relate these findings to interacting partners of DAPk1, DAPk-regulation in NMDA-induced cerebral injury and novel approaches to blocking the injurious effects of DAPk1.

  15. Risks of Brain Injury after Blunt Head Trauma

    Directory of Open Access Journals (Sweden)

    J Gordon Millichap

    2004-06-01

    Full Text Available The association of loss of consciousness (LOC and/or amnesia with traumatic brain injury (TBI identified on CT and TBI requiring acute intervention was evaluated in 2043 children <18 years old enrolled prospectively in a level 1 trauma center ED at University of California, Davis School of Medicine, CA.

  16. Sex, Gender, and Traumatic Brain Injury: A Commentary.

    Science.gov (United States)

    Colantonio, Angela

    2016-02-01

    The goal of this supplemental issue is to address major knowledge, research, and clinical practice gaps regarding the limited focus on brain injury in girls and women as well as limited analysis of the effect of sex and gender in research on acquired brain injury. Integrating sex and gender in research is recognized as leading to better science and, ultimately, to better clinical practice. A sex and gender analytical approach to rehabilitation research is crucial to understanding traumatic brain injury and improving quality of life outcomes for survivors. Put another way, the lack of focus on sex and gender reduces the rigor of research design, the generalizability of study findings, and the effectiveness of clinical implementation and knowledge dissemination practices. The articles in this supplement examine sex and gender using a variety of methodological approaches and research contexts. Recommendations for future research on acquired brain injury that consciously incorporates sex and gender are made throughout this issue. This supplement is a product of the Girls and Women with ABI Task Force of the American Congress of Rehabilitation Medicine. PMID:26804988

  17. Endogenous lipoid pneumonia in a cachectic patient after brain injury.

    Science.gov (United States)

    Zhang, Ji; Mu, Jiao; Lin, Wei; Dong, Hongmei

    2015-01-01

    Endogenous lipoid pneumonia (EnLP) is an uncommon non-life-threatening inflammatory lung disease that usually occurs in patients with conditions such as lung cancers, primary sclerosing cholangitis, and undifferentiated connective tissue disease. Here we report a case of EnLP in a paralytic and cachectic patient with bronchopneumonia after brain injury. A 40-year-old man experienced a severe brain injury in an automobile accident. He was treated for 1 month and his status plateaued. However, he became paralyzed and developed cachexia and ultimately died 145 days after the accident. Macroscopically, multifocal yellowish firm nodules were visible on scattered gross lesions throughout the lungs. Histologically, many foam cells had accumulated within the alveoli and alveolar walls accompanied by a surrounding interstitial infiltration of lymphocytes. The findings were in accordance with a diagnosis of EnLP. Bronchopneumonia was also noted. To our knowledge, there have been few reports of EnLP associated with bronchopneumonia and cachexia after brain injury. This uncommon pathogenesis should be well recognized by clinicians and forensic pathologists. The case reported here should prompt medical staff to increase the nutritional status and fight pulmonary infections in patients with brain injury to prevent the development of EnLP. PMID:26097618

  18. School-Based Traumatic Brain Injury and Concussion Management Program

    Science.gov (United States)

    Davies, Susan C.

    2016-01-01

    Traumatic brain injuries (TBIs), including concussions, can result in a constellation of physical, cognitive, emotional, and behavioral symptoms that affect students' well-being and performance at school. Despite these effects, school personnel remain underprepared identify, educate, and assist this population of students. This article describes a…

  19. Blissfully unaware: Anosognosia and anosodiaphoria after acquired brain injury.

    Science.gov (United States)

    Gasquoine, Philip Gerard

    2016-01-01

    Historically, anosognosia referred to under-report of striking symptoms of acquired brain injury (e.g., hemiplegia) with debilitating functional consequences and was linked with anosodiaphoria, an emotional reaction of indifference. It was later extended to include under-report of all manner of symptoms of acquired brain injury by the patient compared to clinicians, family members, or functional performance. Anosognosia is related to time since onset of brain injury but not consistently to demographic variables, lesion location (except that it is more common after unilateral right than left hemispheric injury), or specific neuropsychological test scores. This review considers all manifestations of anosognosia as a unitary phenomenon with differing clinical characteristics dictated by variability in linked cognitive impairments. It is concluded that anosognosia has three chief contributing factors: (1) procedural: measurement differences across studies in terms of symptom selection and the designation of a "gold standard" of patient symptomatology; (2) psychological: a tendency towards positive self-evaluation and the avoidance of adverse information, that also occurs in neurologically intact individuals; and (3) neuropathological: an increased likelihood of error recognition failure from disconnections that disrupt feedback between injured brain regions governing specific behaviours (symptoms) and anterior cingulate/insular cortex. Anosodiaphoria is considered as an associated symptom, resulting from the same psychological and neuropathological factors. PMID:25686381

  20. Neuroprotective Therapies after Perinatal Hypoxic-Ischemic Brain Injury

    Directory of Open Access Journals (Sweden)

    Enrique Hilario

    2013-03-01

    Full Text Available Hypoxic-ischemic (HI brain injury is one of the main causes of disabilities in term-born infants. It is the result of a deprivation of oxygen and glucose in the neural tissue. As one of the most important causes of brain damage in the newborn period, the neonatal HI event is a devastating condition that can lead to long-term neurological deficits or even death. The pattern of this injury occurs in two phases, the first one is a primary energy failure related to the HI event and the second phase is an energy failure that takes place some hours later. Injuries that occur in response to these events are often manifested as severe cognitive and motor disturbances over time. Due to difficulties regarding the early diagnosis and treatment of HI injury, there is an increasing need to find effective therapies as new opportunities for the reduction of brain damage and its long term effects. Some of these therapies are focused on prevention of the production of reactive oxygen species, anti-inflammatory effects, anti-apoptotic interventions and in a later stage, the stimulation of neurotrophic properties in the neonatal brain which could be targeted to promote neuronal and oligodendrocyte regeneration.

  1. Traumatic Brain Injury and Its Effect on Students

    Science.gov (United States)

    Rosenthal, Stacy B.

    2012-01-01

    Over one million people suffer a traumatic brain injury every year, many of whom are students between the ages of 5 and 18. Using a qualitative case study approach, I wanted to discover the specific factors that both impede and help the school re-entry process for students in grades kindergarten through twelve so that these students can return to…

  2. Evaluation of a Health Education Programme about Traumatic Brain Injury

    Science.gov (United States)

    Garcia, Jane Mertz; Sellers, Debra M.; Hilgendorf, Amy E.; Burnett, Debra L.

    2014-01-01

    Objective: Our aim was to evaluate a health education programme (TBIoptions: Promoting Knowledge) designed to increase public awareness and understanding about traumatic brain injury (TBI) through in-person (classroom) and computer-based (electronic) learning environments. Design: We used a pre-post survey design with randomization of participants…

  3. Spoken Persuasive Discourse Abilities of Adolescents with Acquired Brain Injury

    Science.gov (United States)

    Moran, Catherine; Kirk, Cecilia; Powell, Emma

    2012-01-01

    Purpose: The aim of this study was to examine the performance of adolescents with acquired brain injury (ABI) during a spoken persuasive discourse task. Persuasive discourse is frequently used in social and academic settings and is of importance in the study of adolescent language. Method: Participants included 8 adolescents with ABI and 8 peers…

  4. Neurogenesis and gliogenesis in brain injury and learning

    Czech Academy of Sciences Publication Activity Database

    Šimonová, Zuzana; Náměstková, Kateřina; Jendelová, Pavla; Syková, Eva

    Fyziologický ústav AV ČR, v. v. i.. s. 37 ISSN 0862-8408. [Fyziologické dny /80./. 03.02.2004-05.02.2004, Praha] R&D Projects: GA MŠk LN00A065; GA ČR GA304/03/1189 Keywords : neurogenesis * gliogenesis * brain injury Subject RIV: FH - Neurology

  5. Hypofibrinogenemia in isolated traumatic brain injury in Indian patients

    Directory of Open Access Journals (Sweden)

    Chhabra Gaurav

    2010-12-01

    Full Text Available Coagulation abnormalities are common in patients with head injuries. However, the effect of brain injury on fibrinogen levels has not been well studied prospectively to assess coagulation abnormalities in patients with moderate and severe head injuries and correlate these abnormalities with the neurologic outcome. Consecutive patients with moderate (Glasgow Comma Scale (GCS,9-12 and severe (GCS≤8 head injuries were the subjects of this pilot study, All patients had coagulation parameters, including plasma fibrinogen levels measured. Clinical and computed tomography (CT scan findings and immediate clinical outcome were analyzed. Of the 100 patients enrolled, only seven (7% patients had hypofibrinogenemia (fibrinogen ≤200 mg/dL. The head injury was moderate in two patients and severe in five patients. Fibrinogen levels showed a progressively increasing trend in four patients (three with severe head injuries and one with moderate head injury. CT scan revealed subdural hematoma in five patients; extradural hematoma in one; and subarachnoid hemorrhage in another patient. Of the seven patients, two patients died during hospital. Large-scale prospective studies are needed to assess the fibrinogen level in patients with head injury and its impact on outcome.

  6. Signs and Strategies for Educating Students with Brain Injuries: A Practical Guide for Teachers and Schools.

    Science.gov (United States)

    Wolcott, Gary; And Others

    This resource guide offers strategies for working with children having mild to severe brain injuries. Chapter 1 corrects common misunderstandings about brain injuries and gives suggestions and illustrative case examples. Chapter 2 discusses 12 common changes in students with brain injuries such as tiredness, irritability, passivity, depression,…

  7. Study of pathogenesis and the change of immune system of radiation brain injury

    International Nuclear Information System (INIS)

    Radiation brain injury is a severe complication of the pate tumour after radiotherapy. Review the pathogenesis of radiation brain injury and ion irradiation and the change of immune system then conclude the change of immune system that radiation brain injury can cause. (authors)

  8. 77 FR 73366 - Secondary Service Connection for Diagnosable Illnesses Associated With Traumatic Brain Injury

    Science.gov (United States)

    2012-12-10

    ... Traumatic Brain Injury AGENCY: Department of Veterans Affairs. ACTION: Proposed rule. SUMMARY: The... Medicine (IOM), Gulf War and Health, Volume 7: Long-Term Consequences of Traumatic Brain Injury, regarding the association between traumatic brain injury (TBI) and five diagnosable illnesses. The...

  9. Triple Peripheral Nerve Injury Accompanying to Traumatic Brain Injury: A Case Report

    Directory of Open Access Journals (Sweden)

    Ižlknur Can

    2014-02-01

    Full Text Available Secondary injuries especially extremity fractures may be seen concurrently with traumatic brain injury (TBI. Peripheral nerve damages may accompany to these fractures and may be missed out, especially in acute stage. In this case report; damage of radial, ulnar and median nerves which was developed secondarily to distal humerus fracture that could not be detected in acute stage, in a patient who had motor vehicle accident (MVA. 29-year-old male patient was admitted with weakness in the right upper extremity. 9 months ago, he had traumatic brain injury because of MVA, and fracture of distal humerus was detected in follow-ups. Upon the suspect of the peripheral nerve injury, the diagnosis was confirmed with ENMG. The patient responded well to the rehabilitation program treatment. In a TBI patient, it must be kept in mind that there might be a secondary trauma and therefore peripheral nerve lesions may accompany to TBI.

  10. Penetrating Brain Injury after Suicide Attempt with Speargun

    Directory of Open Access Journals (Sweden)

    John Ross Williams

    2014-07-01

    Full Text Available Penetrating cranial injury by mechanisms other than are exceedingly rare, and so strategies and guidelines for the management of PBI are largely informed by data from higher-velocity penetrating injuries. Here we present a case of penetrating brain injury by the low velocity mechanism of a harpoon from an underwater fishing speargun in an attempted suicide by a 56-year-old Caucasian male. The case raised a number of interesting points in management of lower-velocity penetrating brain injury (LVPBI, including benefit in delaying foreign body removal to allow for tamponade; the importance of history taking in establishing the social/legal significance of the events surrounding the injury; the use of cerebral angiogram in all cases of PBI; advantages of using DECT to reduce artifact when available; and antibiotic prophylaxis in the context of idiosyncratic histories of usage of penetrating objects before coming in contact with the intracranial environment. We present here the management of the case in full along with an extended discussion and review of existing literature regarding key points in management of LVPBI vs. higher velocity forms of intracranial injury.

  11. Early CT signs of progressive hemorrhagic injury following acute traumatic brain injury

    Energy Technology Data Exchange (ETDEWEB)

    Tong, Wu-song; Zheng, Ping; Xu, Jun-fa; Guo, Yi-jun; Zeng, Jing-song; Yang, Wen-jin; Li, Gao-yi; He, Bin; Yu, Hui [Pudong New Area People' s Hospital, Department of Neurosurgery, Shanghai (China)

    2011-05-15

    Since progressive hemorrhagic injury (PHI) was introduced in neurosurgical literatures, several studies have been performed, the results of which have influenced doctors but do not define guidelines for the best treatment of PHI. PHI may be confirmed by a serial computerized tomography (CT) scan, and it has been shown to be associated with a fivefold increase in the risk of clinical worsening and is a significant cause of morbidity and mortality as well. So, early detection of PHI is practically important in a clinical situation. To analyze the early CT signs of progressive hemorrhagic injury following acute traumatic brain injury (TBI) and explore their clinical significances, PHI was confirmed by comparing the first and repeated CT scans. Data were analyzed and compared including times from injury to the first CT and signs of the early CT scan. Logistic regression analysis was used to show the risk factors related to PHI. A cohort of 630 TBI patients was evaluated, and there were 189 (30%) patients who suffered from PHI. For patients with their first CT scan obtained as early as 2 h post-injury, there were 116 (77.25%) cases who suffered from PHI. The differences between PHIs and non-PHIs were significant in the initial CT scans showing fracture, subarachnoid hemorrhage (SAH), brain contusion, epidural hematoma (EDH), subdural hematoma (SDH), and multiple hematoma as well as the times from injury to the first CT scan (P < 0.01). Logistic regression analysis showed that early CT scans (EDH, SDH, SAH, fracture, and brain contusion) were predictors of PHI (P < 0.01). For patients with the first CT scan obtained as early as 2 h post-injury, a follow-up CT scan should be performed promptly. If the initial CT scan shows SAH, brain contusion, and primary hematoma with brain swelling, an earlier and dynamic CT scan should be performed for detection of PHI as early as possible and the medical intervention would be enforced in time. (orig.)

  12. Early CT signs of progressive hemorrhagic injury following acute traumatic brain injury

    International Nuclear Information System (INIS)

    Since progressive hemorrhagic injury (PHI) was introduced in neurosurgical literatures, several studies have been performed, the results of which have influenced doctors but do not define guidelines for the best treatment of PHI. PHI may be confirmed by a serial computerized tomography (CT) scan, and it has been shown to be associated with a fivefold increase in the risk of clinical worsening and is a significant cause of morbidity and mortality as well. So, early detection of PHI is practically important in a clinical situation. To analyze the early CT signs of progressive hemorrhagic injury following acute traumatic brain injury (TBI) and explore their clinical significances, PHI was confirmed by comparing the first and repeated CT scans. Data were analyzed and compared including times from injury to the first CT and signs of the early CT scan. Logistic regression analysis was used to show the risk factors related to PHI. A cohort of 630 TBI patients was evaluated, and there were 189 (30%) patients who suffered from PHI. For patients with their first CT scan obtained as early as 2 h post-injury, there were 116 (77.25%) cases who suffered from PHI. The differences between PHIs and non-PHIs were significant in the initial CT scans showing fracture, subarachnoid hemorrhage (SAH), brain contusion, epidural hematoma (EDH), subdural hematoma (SDH), and multiple hematoma as well as the times from injury to the first CT scan (P < 0.01). Logistic regression analysis showed that early CT scans (EDH, SDH, SAH, fracture, and brain contusion) were predictors of PHI (P < 0.01). For patients with the first CT scan obtained as early as 2 h post-injury, a follow-up CT scan should be performed promptly. If the initial CT scan shows SAH, brain contusion, and primary hematoma with brain swelling, an earlier and dynamic CT scan should be performed for detection of PHI as early as possible and the medical intervention would be enforced in time. (orig.)

  13. Crested Ibis%朱鹮

    Institute of Scientific and Technical Information of China (English)

    丁长青

    2010-01-01

    @@ The Crested Ibis(Nipponia nippon,Plates Ⅰ and Ⅱ)(Ciconiiformes: Threskiomithidae)is a mediumsized wading bird,ranging in length from 57.5 to 84.0 cm,with a longish neck and legs,a red featherless face with a crested white head.Its most distinctive morphological character is the long,slender and decurved bill,perfectly adapted for probing in water and mud,or even in cracks on dry ground.The nonbreeding adult is white,with orange cinnamon tones in the tail and flight-feathers.The long bill is black with a red tip.Its red legs do not extend beyond the tail in flight(Hoyo et al.,1992).

  14. Epileptogenesis after traumatic brain injury in Plau-deficient mice.

    Science.gov (United States)

    Bolkvadze, Tamuna; Rantala, Jukka; Puhakka, Noora; Andrade, Pedro; Pitkänen, Asla

    2015-10-01

    Several components of the urokinase-type plasminogen activator receptor (uPAR)-interactome, including uPAR and its ligand sushi-repeat protein 2, X-linked (SRPX2), are linked to susceptibility to epileptogenesis in animal models and/or humans. Recent evidence indicates that urokinase-type plasminogen activator (uPA), a uPAR ligand with focal proteinase activity in the extracellular matrix, contributes to recovery-enhancing brain plasticity after various epileptogenic insults such as traumatic brain injury (TBI) and status epilepticus. Here, we examined whether deficiency of the uPA-encoding gene Plau augments epileptogenesis after TBI. Traumatic brain injury was induced by controlled cortical impact in the somatosensory cortex of adult male wild-type and Plau-deficient mice. Development of epilepsy and seizure susceptibility were assessed with a 3-week continuous video-electroencephalography monitoring and a pentylenetetrazol test, respectively. Traumatic brain injury-induced cortical or hippocampal pathology did not differ between genotypes. The pentylenetetrazol test revealed increased seizure susceptibility after TBI (p<0.05) in injured mice. Epileptogenesis was not exacerbated, however, in Plau-deficient mice. Taken together, Plau deficiency did not worsen controlled cortical impact-induced brain pathology or epileptogenesis caused by TBI when assessed at chronic timepoints. These data expand previous observations on Plau deficiency in models of status epilepticus and suggest that inhibition of focal extracellular proteinase activity resulting from uPA-uPAR interactions does not modify epileptogenesis after TBI. PMID:26253597

  15. Ceftriaxone attenuates hypoxic-ischemic brain injury in neonatal rats

    Directory of Open Access Journals (Sweden)

    Huang Yen

    2011-09-01

    Full Text Available Abstract Background Perinatal brain injury is the leading cause of subsequent neurological disability in both term and preterm baby. Glutamate excitotoxicity is one of the major factors involved in perinatal hypoxic-ischemic encephalopathy (HIE. Glutamate transporter GLT1, expressed mainly in mature astrocytes, is the major glutamate transporter in the brain. HIE induced excessive glutamate release which is not reuptaked by immature astrocytes may induce neuronal damage. Compounds, such as ceftriaxone, that enhance the expression of GLT1 may exert neuroprotective effect in HIE. Methods We used a neonatal rat model of HIE by unilateral ligation of carotid artery and subsequent exposure to 8% oxygen for 2 hrs on postnatal day 7 (P7 rats. Neonatal rats were administered three dosages of an antibiotic, ceftriaxone, 48 hrs prior to experimental HIE. Neurobehavioral tests of treated rats were assessed. Brain sections from P14 rats were examined with Nissl and immunohistochemical stain, and TUNEL assay. GLT1 protein expression was evaluated by Western blot and immunohistochemistry. Results Pre-treatment with 200 mg/kg ceftriaxone significantly reduced the brain injury scores and apoptotic cells in the hippocampus, restored myelination in the external capsule of P14 rats, and improved the hypoxia-ischemia induced learning and memory deficit of P23-24 rats. GLT1 expression was observed in the cortical neurons of ceftriaxone treated rats. Conclusion These results suggest that pre-treatment of infants at risk for HIE with ceftriaxone may reduce subsequent brain injury.

  16. Brain plasticity and recovery from early cortical injury.

    Science.gov (United States)

    Kolb, Bryan; Mychasiuk, Richelle; Williams, Preston; Gibb, Robbin

    2011-09-01

    Neocortical development represents more than a simple unfolding of a genetic blueprint: rather, it represents a complex dance of genetic and environmental events that interact to adapt the brain to fit a particular environmental context. Most cortical regions are sensitive to a wide range of experiential factors during development and later in life, but the injured cortex appears to be unusually sensitive to perinatal experiences. This paper reviews the factors that influence how normal and injured brains (both focal and ischemic injuries) develop and adapt into adulthood. Such factors include prenatal experiences in utero as well as postnatal experiences throughout life. Examples include the effects of sensory and motor stimulation, psychoactive drugs (including illicit and prescription drugs), maternal and postnatal stress, neurotrophic factors, and pre- and postnatal diet. All these factors influence cerebral development and influence recovery from brain injury during development. PMID:21950386

  17. Does Caspase-6 Have a Role in Perinatal Brain Injury?

    Science.gov (United States)

    Baburamani, Ana A.; Miyakuni, Yasuka; Vontell, Regina; Supramaniam, Veena G.; Svedin, Pernilla; Rutherford, Mary; Gressens, Pierre; Mallard, Carina; Takeda, Satoru; Thornton, Claire; Hagberg, Henrik

    2015-01-01

    Apoptotic mechanisms are centre stage for the development of injury in the immature brain, and caspases have been shown to play a pivotal role during brain development and in response to injury. The inhibition of caspases using broad-spectrum agents such as Q-VD-OPh is neuroprotective in the immature brain. Caspase-6, an effector caspase, has been widely researched in neurodevelopmental disorders and found to be important following adult stroke, but its function in the neonatal brain has yet to be detailed. Furthermore, caspases may be important in microglial activation; microglia are required for optimal brain development and following injury, and their close involvement during neuronal cell death suggests that apoptotic cues such as caspase activation may be important in microglial activation. Therefore, in this study we aimed to investigate the possible apoptotic and non-apoptotic functions caspase-6 may have in the immature brain in response to hypoxia-ischaemia. We examined whether caspases are involved in microglial activation. We assessed cleaved caspase-6 expression following hypoxia-ischaemia and conducted primary microglial cultures to assess whether the broad-spectrum inhibitor Q-VD-OPh or caspase-6 gene deletion affected lipopolysaccharide (LPS)-mediated microglial activation and phenotype. We observed cleaved caspase-6 expression to be low but present in the cell body and cell processes in both a human case of white matter injury and 72 h following hypoxia-ischaemia in the rat. Gene deletion of caspase-6 did not affect the outcome of brain injury following mild (50 min) or severe (60 min) hypoxia-ischaemia. Interestingly, we did note that cleaved caspase-6 was co-localised with microglia that were not of apoptotic morphology. We observed that mRNA of a number of caspases was modulated by low-dose LPS stimulation of primary microglia. Q-VD-OPh treatment and caspase-6 gene deletion did not affect microglial activation but modified slightly the M2b

  18. Neural Bases of Recovery after Brain Injury

    Science.gov (United States)

    Nudo, Randolph J.

    2011-01-01

    Substantial data have accumulated over the past decade indicating that the adult brain is capable of substantial structural and functional reorganization after stroke. While some limited recovery is known to occur spontaneously, especially within the first month post-stroke, there is currently significant optimism that new interventions based on…

  19. Efficacy of N-acetyl cysteine in traumatic brain injury.

    Science.gov (United States)

    Eakin, Katharine; Baratz-Goldstein, Renana; Pick, Chiam G; Zindel, Ofra; Balaban, Carey D; Hoffer, Michael E; Lockwood, Megan; Miller, Jonathan; Hoffer, Barry J

    2014-01-01

    In this study, using two different injury models in two different species, we found that early post-injury treatment with N-Acetyl Cysteine (NAC) reversed the behavioral deficits associated with the TBI. These data suggest generalization of a protocol similar to our recent clinical trial with NAC in blast-induced mTBI in a battlefield setting, to mild concussion from blunt trauma. This study used both weight drop in mice and fluid percussion injury in rats. These were chosen to simulate either mild or moderate traumatic brain injury (TBI). For mice, we used novel object recognition and the Y maze. For rats, we used the Morris water maze. NAC was administered beginning 30-60 minutes after injury. Behavioral deficits due to injury in both species were significantly reversed by NAC treatment. We thus conclude NAC produces significant behavioral recovery after injury. Future preclinical studies are needed to define the mechanism of action, perhaps leading to more effective therapies in man. PMID:24740427

  20. Efficacy of N-Acetyl Cysteine in Traumatic Brain Injury

    Science.gov (United States)

    Eakin, Katharine; Baratz-Goldstein, Renana; Pick, Chiam G.; Zindel, Ofra; Balaban, Carey D.; Hoffer, Michael E.; Lockwood, Megan; Miller, Jonathan; Hoffer, Barry J.

    2014-01-01

    In this study, using two different injury models in two different species, we found that early post-injury treatment with N-Acetyl Cysteine (NAC) reversed the behavioral deficits associated with the TBI. These data suggest generalization of a protocol similar to our recent clinical trial with NAC in blast-induced mTBI in a battlefield setting [1], to mild concussion from blunt trauma. This study used both weight drop in mice and fluid percussion injury in rats. These were chosen to simulate either mild or moderate traumatic brain injury (TBI). For mice, we used novel object recognition and the Y maze. For rats, we used the Morris water maze. NAC was administered beginning 30–60 minutes after injury. Behavioral deficits due to injury in both species were significantly reversed by NAC treatment. We thus conclude NAC produces significant behavioral recovery after injury. Future preclinical studies are needed to define the mechanism of action, perhaps leading to more effective therapies in man. PMID:24740427

  1. Efficacy of N-acetyl cysteine in traumatic brain injury.

    Directory of Open Access Journals (Sweden)

    Katharine Eakin

    Full Text Available In this study, using two different injury models in two different species, we found that early post-injury treatment with N-Acetyl Cysteine (NAC reversed the behavioral deficits associated with the TBI. These data suggest generalization of a protocol similar to our recent clinical trial with NAC in blast-induced mTBI in a battlefield setting, to mild concussion from blunt trauma. This study used both weight drop in mice and fluid percussion injury in rats. These were chosen to simulate either mild or moderate traumatic brain injury (TBI. For mice, we used novel object recognition and the Y maze. For rats, we used the Morris water maze. NAC was administered beginning 30-60 minutes after injury. Behavioral deficits due to injury in both species were significantly reversed by NAC treatment. We thus conclude NAC produces significant behavioral recovery after injury. Future preclinical studies are needed to define the mechanism of action, perhaps leading to more effective therapies in man.

  2. Reorganization of Functional Connectivity as a Correlate of Cognitive Recovery in Acquired Brain Injury

    Science.gov (United States)

    Castellanos, Nazareth P.; Paul, Nuria; Ordonez, Victoria E.; Demuynck, Olivier; Bajo, Ricardo; Campo, Pablo; Bilbao, Alvaro; Ortiz, Tomas; del-Pozo, Francisco; Maestu, Fernando

    2010-01-01

    Cognitive processes require a functional interaction between specialized multiple, local and remote brain regions. Although these interactions can be strongly altered by an acquired brain injury, brain plasticity allows network reorganization to be principally responsible for recovery. The present work evaluates the impact of brain injury on…

  3. Characterization of pressure distribution in penetrating traumatic brain injuries.

    Science.gov (United States)

    Davidsson, Johan; Risling, Mårten

    2015-01-01

    Severe impacts to the head commonly lead to localized brain damage. Such impacts may also give rise to temporary pressure changes that produce secondary injuries in brain volumes distal to the impact site. Monitoring pressure changes in a clinical setting is difficult; detailed studies into the effect of pressure changes in the brain call for the development and use of animal models. The aim of this study is to characterize the pressure distribution in an animal model of penetrating traumatic brain injuries (pTBI). This data may be used to validate mathematical models of the animal model and to facilitate correlation studies between pressure changes and pathology. Pressure changes were measured in rat brains while subjected to pTBI for a variety of different probe velocities and shapes; pointy, blunt, and flat. Experiments on ballistic gel samples were carried out to study the formation of any temporary cavities. In addition, pressure recordings from the gel experiments were compared to values recorded in the animal experiments. The pTBI generated short lasting pressure changes in the brain tissue; the pressure in the contralateral ventricle (CLV) increased to 8 bar followed by a drop to 0.4 bar when applying flat probes. The pressure changes in the periphery of the probe, in the Cisterna Magna, and the spinal canal, were significantly less than those recorded in the CLV or the vicinity of the skull base. High-speed videos of the gel samples revealed the formation of spherically shaped cavities when flat and spherical probes were applied. Pressure changes in the gel were similar to those recorded in the animals, although amplitudes were lower in the gel samples. We concluded cavity expansion rate rather than cavity size correlated with pressure changes in the gel or brain secondary to probe impact. The new data can serve as validation data for finite element models of the trauma model and the animal and to correlate physical measurements with secondary injuries

  4. MICROGLIA ACTIVATION AS A BIOMARKER FOR TRAUMATIC BRAIN INJURY

    Directory of Open Access Journals (Sweden)

    CesarVBorlongan

    2013-03-01

    Full Text Available Traumatic brain injury (TBI has become the signature wound of wars in Afghanistan and Iraq. Injury may result from a mechanical force, a rapid acceleration-deceleration movement, or a blast wave. A cascade of secondary cell death events ensues after the initial injury. In particular, multiple inflammatory responses accompany TBI. A series of inflammatory cytokines and chemokines spreads to normal brain areas juxtaposed to the core impacted tissue. Among the repertoire of immune cells involved, microglia is a key player in propagating inflammation to tissues neighboring the core site of injury. Neuroprotective drug trials in TBI have failed, likely due to their sole focus on abrogating neuronal cell death and ignoring the microglia response despite these inflammatory cells’ detrimental effects on the brain. Another relevant point to consider is the veracity of results of animal experiments due to deficiencies in experimental design, such as incomplete or inadequate method description, data misinterpretation and reporting may introduce bias and give false-positive results. Thus, scientific publications should follow strict guidelines that include randomization, blinding, sample-size estimation and accurate handling of all data (Landis et al., 2012. A prolonged state of inflammation after brain injury may linger for years and predispose patients to develop other neurological disorders, such as Alzheimer’s disease. TBI patients display progressive and long-lasting impairments in their physical, cognitive, behavioral, and social performance. Here, we discuss inflammatory mechanisms that accompany TBI in an effort to increase our understanding of the dynamic pathological condition as the disease evolves over time and begin to translate these findings for defining new and existing inflammation-based biomarkers and treatments for TBI.

  5. Perinatal Hypoxic-Ischemic brain injury; MR findings

    International Nuclear Information System (INIS)

    To characterize the MR findings of hypoxic-ischemic brain injury and to assess the value of the MR imaging. SE T1-, T2-weighted, and IR brain MR images of 44 infants and children with the past history of perinatal hypoxic insults were reviewed. Abnormal brain MR findings of 8 patients with birth history of prematurity and 36 patients with birth history of full-term/posterm including 7 with severe anoxic insult history, were compared in regard to the location and the character of the lesions. MRI demonstrated the followings; (1)abnormal signal intensity lesions of subcortical and/or deep cerebral white matter, cortex, and deep gray matter, (2)atrophy of the cerebral white matter, cortex and corpus callosum, with/without ventriculomegaly, and (3)delay in myelination. Periventricular and deep white matter lesions were demonstrated in the prematurity, the deep white matter lesions and/ or subcortical white matter lesions in the term/post-term, and deep gray matter lesions in the 7 patients with severe anoxic insults history. MR imaging was useful in the diagnosis of the hypoxic-ischemic brain injury, and the white and gray matter lesions were correlated with the time of the injury and the severity of hypoxic insult

  6. Systemic progesterone for modulating electrocautery-induced secondary brain injury.

    Science.gov (United States)

    Un, Ka Chun; Wang, Yue Chun; Wu, Wutian; Leung, Gilberto Ka Kit

    2013-09-01

    Bipolar electrocautery is an effective and commonly used haemostatic technique but it may also cause iatrogenic brain trauma due to thermal injury and secondary inflammatory reactions. Progesterone has anti-inflammatory and neuroprotective actions in traumatic brain injury. However, its potential use in preventing iatrogenic brain trauma has not been explored. We conducted a pilot animal study to investigate the effect of systemic progesterone on brain cellular responses to electrocautery-induced injury. Adult male Sprague-Dawley rats received standardized bipolar electrocautery (40 W for 2 seconds) over the right cerebral cortex. The treatment group received progesterone intraperitoneally 2 hours prior to surgery; the control group received the drug vehicle only. Immunohistochemical studies showed that progesterone could significantly reduce astrocytic hypertrophy on postoperative day 1, 3 and 7, as well as macrophage infiltration on day 3. The number of astrocytes, however, was unaffected. Our findings suggest that progesterone should be further explored as a neuroprotective agent against electrocautery-induced or other forms of iatrogenic trauma during routine neurosurgical procedures. Future studies may focus on different dosing regimens, neuronal survival, functional outcome, and to compare progesterone with other agents such as dexamethasone. PMID:23830688

  7. Neurobehavioral Effects of Levetiracetam in Patients with Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Jared F Benge

    2013-12-01

    Full Text Available Moderate to severe traumatic brain injury (TBI is one of the leading causes of acquired epilepsy. Prophylaxis for seizures is the standard of care for individuals with moderate to severe injuries at risk for developing seizures, though relatively limited comparative data is available to guide clinicians in their choice of agents. There have however been experimental studies which demonstrate potential neuroprotective qualities of levetiracetam after TBI, and in turn there is hope that eventually such agents may improve neurobehavioral outcomes post-TBI. This mini-review summarizes the available studies and suggests areas for future studies.

  8. Association football injuries to the brain. A preliminary report.

    OpenAIRE

    Tysvaer, A.; Storli, O.

    1981-01-01

    In 1975 the authors sent a questionnaire to all players in the Norwegian First Division League Clubs to record the incidence of head injuries due to heading. The conclusion of the questionnaire is that there seems to be a low percentage of serious head injuries. None of the players had been operated on for epi- or subdural hematoma or other brain damage and only a few have had concussion due to heading. In sixty per cent of the players a full neurological examination and EEG recording was und...

  9. Dissociated Horizontal Deviation after Traumatic Brain Injury

    OpenAIRE

    Lee, Tae-Eun; Cha, Deok-Sun; Koh, Seong-Beom; Kim, Seung-Hyun

    2010-01-01

    A 4-year-old boy visited the hospital with exotropia after brain hemorrhage caused by trauma. He had undergone decompressive craniectomy and cranioplasty 18 months prior to presentation at our hospital. An alternate prism cover test showed more than 50 prism diopters (PD) of left exotropia when he was fixing with the right eye and 30 PD of right exotropia when he was fixing with the left eye at near and far distance. On the Hirschberg test, 60 PD of left exotropia was noted in the primary pos...

  10. MR imaging of late radiation brain injury

    International Nuclear Information System (INIS)

    One hundred and four patients treated with radiotherapy for intracranial tumors and their related conditions were reviewed to evaluate the usefulness of magnetic resonance (MR) imaging in demonstrating increased signal intensity areas on T2-weighted images that were considered to be late adverse effects of irradiation of the brain. High signal intensity areas of the white matter were divided into five patterns according to their size and extension. Severity was found to increase with age and irradiation doses of more than 50 Gy. In patients with irradiation doses of more than 60 Gy, the severity of increased with shorter interval after radiotherapy than in those given low irradiation doses. Clinical findings such as mental deterioration, motor abnormality, and visual defect were observed in 12 patients. These findings were closely correlated with the severity of the MR pattern. In most patients, high signal intensity areas were stable or progressive during the course of follow-up. However, these areas were regressive in three patients. Imaging with Gd-DTPA was performed in 36 patients, six of whom showed enhancement. Pathological findings on enhancement included astrocyte proliferation and coalescing vacuoles in neural tissue. MR imaging is an excellent method with which to monitor the adverse effects of radiotherapy of the brain. (author)

  11. Facilitated assessment of tissue loss following traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Anders eHånell

    2012-03-01

    Full Text Available All experimental models of traumatic brain injury (TBI result in a progressive loss of brain tissue. The extent of tissue loss reflects the injury severity and can be measured to evaluate the potential neuroprotective effect of experimental treatments. Quantitation of tissue volumes is commonly performed using evenly spaced brain sections stained using routine histochemical methods and digitally captured. The brain tissue areas are then measured and the corresponding volumes are calculated using the distance between the sections. Measurements of areas are usually performed using a general purpose image analysis software and the results are then transferred to another program for volume calculations. To facilitate the measurement of brain tissue loss we developed novel algorithms which automatically separate the areas of brain tissue from the surrounding image background and identify the ventricles. We implemented these new algorithms by creating a new computer program (SectionToVolume which also has functions for image organization, image adjustments and volume calculations. We analyzed brain sections from mice subjected to severe focal TBI using both SectionToVolume and ImageJ, a commonly used image analysis program. The volume measurements made by the two programs were highly correlated and analysis using SectionToVolume required considerably less time. The inter-rater reliability was high. Given the extensive use of brain tissue loss measurements in TBI research, SectionToVolume will likely be a useful tool for TBI research. We therefore provide both the source code and the program as attachments to this article.

  12. Assessment of traumatic brain injury degree in animal model

    Institute of Scientific and Technical Information of China (English)

    Jian-Qiang Chen; Cheng-Cheng Zhang; Hong Lu; Wei Wang

    2014-01-01

    Objective:To establish stable and controllable brain injury with accurate degree and good repeatability in rat model.Methods:Controlled cortical impact(CCI) device was used to prepare for the rat brain injury model by the impact head of different model(GroupANo.4,GroupBNo.5, GroupCNo.6) and the impact depth(GroupA:1.5-2.0 mm,GroupB:2.5-3.0 mm,GroupC:3.5-4.0 mm) with impact time of0.1 s and impact velocity of2.5 m/s.Twelve rats with three months of age were used in each group(the impact depth of every two rats was added1 mm respectively).After modeling for1 h, magnetic resonance imaging(MRI) was received and brain histopathology was observed to assess degree of injury by model parameters of three groups.Results:After modeling ofGroupA,MRI showed that the cortex structure was damaged with a small amount of bleeding in center and mild edema around, and the total volume of injury was(28.69±4.94) mm3.Pathology revealed the injury was confined to the superficial cortical with mild edema of nerve cell, which was assessed as mild cerebral contusion.While after modeling,MRI ofGroupB showed that the structure of cortex and medulla were damaged simultaneously and extended to cerebral nuclei zone, with4 cases of hematoma in the center and larger edema range around, and the total volume of injury was(78.38±9.28) mm3.Pathology revealed the injury range was reached nuclei zone, with swell of nerve cell and mitochondria, which was assessed to moderate cerebral contusion. After modeling ofGroupC,MRI showed that extensive tissue injury was appeared in cortex and medulla and deep nuclei, with9 cases of hematoma and large edema signal of surrounding tissue T2WI, while in5 cases, lateral nucleus of injury signal was increased, and the total volume of injury was(135.89±24.80) mm3.Pathology revealed the deep cerebral nuclei was damaged, with the disappearance of neuronal structure and vacuolization of mitochondria, which was assessed as severe cerebral contusion.MRI changes were

  13. Coated-Platelet Levels Increase with Number of Injuries in Patients with Mild Traumatic Brain Injury.

    Science.gov (United States)

    Prodan, Calin I; Vincent, Andrea S; Dale, George L

    2016-05-01

    Coated-platelets are procoagulant platelets that are elevated in stroke and are associated with stroke recurrence. In a previous study, prompted by data showing an increased risk for stroke following traumatic brain injury (TBI), we found that coated-platelet levels are elevated in patients with combat-related mild TBI (mTBI) several years after the injury, compared with controls. We now investigate in an expanded patient population whether parameters commonly recorded in mTBI are related to increased coated-platelet potential. Coated-platelet levels were assayed in 120 mTBI patients at intervals ranging from 6 months to 10 years from the last injury. Correlations were calculated between coated-platelet levels and age, gender, race/ethnicity, loss of consciousness, alteration in consciousness, post-traumatic amnesia, number of injuries, mechanism of injury, time since first and last injury, smoking, medications that may influence coated-platelet levels, and pertinent comorbid conditions. Significant correlations were detected between coated-platelet levels and number of injuries (p = 0.026), gender (p = 0.01), and time since last injury (p = 0.04). A multi-variable linear model analysis, including these three parameters and an additional three parameters (race/ethnicity, smoking, and mechanism of injury) that reached a p value of <0.2, showed that the number of injuries were predictive of coated-platelet levels (p = 0.004). These results support a mechanistic link between increased coated-platelet levels and repeated injuries in mTBI. Long-term studies will be required to determine the impact of increased prothrombotic potential in mTBI patients. PMID:26414016

  14. Update of Endocrine Dysfunction following Pediatric Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Kent Reifschneider

    2015-07-01

    Full Text Available Traumatic brain injuries (TBI are common occurrences in childhood, often resulting in long term, life altering consequences. Research into endocrine sequelae following injury has gained attention; however, there are few studies in children. This paper reviews the pathophysiology and current literature documenting risk for endocrine dysfunction in children suffering from TBI. Primary injury following TBI often results in disruption of the hypothalamic-pituitary-adrenal axis and antidiuretic hormone production and release, with implications for both acute management and survival. Secondary injuries, occurring hours to weeks after TBI, result in both temporary and permanent alterations in pituitary function. At five years after moderate to severe TBI, nearly 30% of children suffer from hypopituitarism. Growth hormone deficiency and disturbances in puberty are the most common; however, any part of the hypothalamic-pituitary axis can be affected. In addition, endocrine abnormalities can improve or worsen with time, having a significant impact on children’s quality of life both acutely and chronically. Since primary and secondary injuries from TBI commonly result in transient or permanent hypopituitarism, we conclude that survivors should undergo serial screening for possible endocrine disturbances. High indices of suspicion for life threatening endocrine deficiencies should be maintained during acute care. Additionally, survivors of TBI should undergo endocrine surveillance by 6–12 months after injury, and then yearly, to ensure early detection of deficiencies in hormonal production that can substantially influence growth, puberty and quality of life.

  15. Traumatic brain injury in children: acute care management.

    Science.gov (United States)

    Geyer, Kristen; Meller, Karen; Kulpan, Carol; Mowery, Bernice D

    2013-01-01

    The care of the pediatric patient with a severe traumatic brain injury (TBI) is an all-encompassing nursing challenge. Nursing vigilance is required to maintain a physiological balance that protects the injured brain. From the time a child and family first enter the hospital, they are met with the risk of potential death and an uncertain future. The family is subjected to an influx of complex medical and nursing terminology and interventions. Nurses need to understand the complexities of TBI and the modalities of treatment, as well as provide patients and families with support throughout all phases of care. PMID:24640314

  16. Relationship between changes of N-methyl-D-aspartate receptor activity and brain edema after brain injury in rats

    Institute of Scientific and Technical Information of China (English)

    2001-01-01

    Objective: To investigate the relationship between the changes of N-methyl-D-aspartate (NMDA) receptor activity and brain edema after injury in rats.   Methods: The brain injury models were made by using a free-falling body. The treatment model was induced by means of injecting AP5 into lateral ventricle before brain injury; water contents in brain cortex were measured with dry-wet method; and NMDA receptor activity was detected with a radio ligand binding assay.   Results: The water contents began to increase at 30 minutes and reached the peak at 6 hours after brain injury. The maximal binding (Bmax) of NMDA receptor increased significantly at 15 minutes and reached the peak at 30 minutes, then decreased gradually and had the lowest value 6 hours after brain injury. Followed the treatment with AP5, NMDA receptor activity in the injured brain showed a normal value; and the water contents were lower than that of AP5-free injury group 24 hours after brain injury.   Conclusions: It suggests that excessive activation of NMDA receptor may be one of the most important factors to induce the secondary cerebral impairments, and AP5 may protect the brain from edema after brain injury.

  17. Sigma-1 Receptor Modulates Neuroinflammation After Traumatic Brain Injury.

    Science.gov (United States)

    Dong, Hui; Ma, Yunfu; Ren, Zengxi; Xu, Bin; Zhang, Yunhe; Chen, Jing; Yang, Bo

    2016-07-01

    Traumatic brain injury (TBI) remains a significant clinical problem and contributes to one-third of all injury-related deaths. Activated microglia-mediated inflammatory response is a distinct characteristic underlying pathophysiology of TBI. Here, we evaluated the effect and possible mechanisms of the selective Sigma-1 receptor agonist 2-(4-morpholinethyl)-1-phenylcyclohexanecarboxylate (PRE-084) in mice TBI model. A single intraperitoneal injection 10 μg/g PRE-084, given 15 min after TBI significantly reduced lesion volume, lessened brain edema, attenuated modified neurological severity score, increased the latency time in wire hang test, and accelerated body weight recovery. Moreover, immunohistochemical analysis with Iba1 staining showed that PRE-084 lessened microglia activation. Meanwhile, PRE-084 reduced nitrosative and oxidative stress to proteins. Thus, Sigma-1 receptors play a major role in inflammatory response after TBI and may serve as useful target for TBI treatment in the future. PMID:26228028

  18. Minding and Caring about Ethics in Brain Injury.

    Science.gov (United States)

    Gillett, Grant

    2016-05-01

    Joseph Fins's book Rights Come to Mind: Brain Injury, Ethics, and the Struggle for Consciousness (Cambridge UP, 2015) is a considerable addition to the literature on disorders of consciousness and the murky area of minimally conscious states. Fins brings to this fraught area of clinical practice and neuroethical analysis a series of stories and reflections resulting in a pressing and sustained ethical challenge both to clinicians and to health care systems. The challenge is multifaceted, with diagnostic and therapeutic demands to be met by clinicians and a mix of moral, scientific-economic, and political resonances for health care analysts. Everything in the book resonates with my own clinical experience and the often messy and emotionally wrenching business of providing ongoing care for patients with severe brain injuries and disorders, people who frequently resist the categorizations that well-organized health care systems prefer and that can dictate terms of patient management. PMID:27150418

  19. Acute respiratory distress syndrome assessment after traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Shahrooz Kazemi

    2016-01-01

    Full Text Available Background: Acute respiratory distress syndrome (ARDS is one of the most important complications associated with traumatic brain injury (TBI. ARDS is caused by inflammation of the lungs and hypoxic damage with lung physiology abnormalities associated with acute respiratory distress syndrome. Aim of this study is to determine the epidemiology of ARDS and the prevalence of risk factors. Methods: This prospective study performed on patients with acute traumatic head injury hospitalization in the intensive care unit of the Shohaday-e Haftom-e-Tir Hospital (September 2012 to September 2013 done. About 12 months, the data were evaluated. Information including age, sex, education, employment, drug and alcohol addiction, were collected and analyzed. The inclusion criteria were head traumatic patients and exclusion was the patients with chest trauma. Questionnaire was designed with doctors supervision of neurosurgery. Then the collected data were analysis. Results: In this study, the incidence of ARDS was 23.8% and prevalence of metabolic acidosis was 31.4%. Most injury with metabolic acidosis was Subarachnoid hemorrhage (SAH 48 (60% and Subdural hemorrhage (SDH was Next Level with 39 (48% Correlation between Glasgow Coma Scale (GCS and Respiratory Distress Syndrome (ARDS were significantly decreased (P< 0.0001. The level of consciousness in patients with skull fractures significantly lower than those without fractures (P= 0.009 [(2.3±4.6 vs (4.02±7.07]. Prevalence of metabolic acidosis during hospitalization was 80 patients (31.4%. Conclusion: Acute respiratory distress syndrome is a common complication of traumatic brain injury. Management and treatment is essential to reduce the mortality. In this study it was found the age of patients with ARDS was higher than patients without complications. ARDS risk factor for high blood pressure was higher in men. Most victims were pedestrians. The most common injury associated with ARDS was SDH. Our analysis

  20. Quantitative Brain Electrical Activity in the Initial Screening of Mild Traumatic Brain Injuries

    OpenAIRE

    O'Neil, Brian; Prichep, Leslie S.; Naunheim, Roseanne; Chabot, Robert

    2012-01-01

    Introduction: The incidence of emergency department (ED) visits for Traumatic Brain Injury (TBI) in the United States exceeds 1,000,000 cases/year with the vast majority classified as mild (mTBI). Using existing computed tomography (CT) decision rules for selecting patients to be referred for CT, such as the New Orleans Criteria (NOC), approximately 70% of those scanned are found to have a negative CT. This study investigates the use of quantified brain electrical activity to assess its possi...

  1. Feasibility of computerized brain plasticity-based cognitive training after traumatic brain injury

    OpenAIRE

    Matthew S. Lebowitz, AB; Kristen Dams-O’Connor, PhD; Joshua B. Cantor, PhD

    2013-01-01

    The present study investigates the feasibility and utility of using a computerized brain plasticity-based cognitive training (BPCT) program as an intervention for community-dwelling individuals with traumatic brain injury (TBI). In a pre-post pilot study, 10 individuals with mild to severe TBI who were 6 mo to 22 yr postinjury were asked to use a computerized BPCT intervention—designed to improve cognitive functioning through a graduated series of structured exercises—at their homes in an urb...

  2. Hypothalamic-Pituitary Autoimmunity and Traumatic Brain Injury

    OpenAIRE

    Federica Guaraldi; Silvia Grottoli; Emanuela Arvat; Ezio Ghigo

    2015-01-01

    Background: Traumatic brain injury (TBI) is a leading cause of secondary hypopituitarism in children and adults, and is responsible for impaired quality of life, disabilities and compromised development. Alterations of pituitary function can occur at any time after the traumatic event, presenting in various ways and evolving during time, so they require appropriate screening for early detection and treatment. Although the exact pathophysiology is unknown, several mechanisms have been hypoth...

  3. Understanding paroxysmal sympathetic hyperactivity after traumatic brain injury

    OpenAIRE

    Meyer, Kimberly S.

    2014-01-01

    Background: Paroxysmal sympathetic hyperactivity (PSH) is a condition occurring in a small percentage of patients with severe traumatic brain injury (TBI). It is characterized by a constellation of symptoms associated with excessive adrenergic output, including tachycardia, hypertension, tachypnea, and diaphoresis. Diagnosis is one of exclusion and, therefore, is often delayed. Treatment is aimed at minimizing triggers and pharmacologic management of symptoms. Methods: A literature review...

  4. Cognitive rehabilitation in children with acquired brain injuries

    OpenAIRE

    Hagberg-van't Hooft, Ingrid

    2005-01-01

    Deficits in attention, memory and executive functions are the most common cognitive dysfunctions after acquired brain injuries (ABI) and may have a major negative influence on academic and social adjustment. Neuropsychological measures can assess these dysfunctions and shortcomings in academic and social life, but there is a great need for new efficacious cognitive treatment programmes. The main aims of this thesis were to evaluate the direct and maintained effects of a ...

  5. Rehabilitation Outcome of Unconscious Traumatic Brain Injury Patients

    OpenAIRE

    Klein, Anke-Maria; Howell, Kaitlen; Vogler, Jana; Grill, Eva; Straube, Andreas; Bender, Andreas

    2013-01-01

    Outcome prediction of traumatic brain injury (TBI) patients with severe disorders of consciousness (DOC) at the end of their time in an intensive care setting is important for clinical decision making and counseling of relatives, and constitutes a major challenge. Even the question of what constitutes an improved outcome is controversially discussed. We have conducted a retrospective cohort study for the rehabilitation dynamics and outcome of TBI patients with DOC. Out of 188 patients, 37.2% ...

  6. Cost-effectiveness of early rehabilitation after Traumatic brain injury

    OpenAIRE

    2013-01-01

    Traumatic brain injury (TBI) is a craniocerebral trauma which causes long-term physical, cognitive and emotional impairment and adds substantially to the healthcare burden. The cost of TBIs is believed to be huge in Norway. Moderate and severe TBIs require rehabilitation, which helps reduce disability and improves the quality of life of patients. It is important to determine the efficacy of early rehabilitation as a form of treatment after severe TBI both in terms of its costs and effectivene...

  7. Adolescents’ experience of a parental traumatic brain injury

    Directory of Open Access Journals (Sweden)

    D Harris

    2006-04-01

    Full Text Available This study explores the experiences of four adolescents, each living with a parent who has sustained a traumatic brain injury, against the theoretical backdrop of existential-phenomenological psychology. Opsomming Hierdie navorsing verken die belewenisse van vier adolessente wat saam met ‘n ouer wat ‘n traumatiese breinbesering opgedoen het, leef. *Please note: This is a reduced version of the abstract. Please refer to PDF for full text.

  8. Inhibitory Control after Traumatic Brain Injury in Children

    OpenAIRE

    Sinopoli, Katia J.; Dennis, Maureen

    2011-01-01

    Inhibitory control describes a number of distinct processes. Effortless inhibition refers to acts of control that are automatic and reflexive. Effortful inhibition refers to voluntary, goal-directed acts of control such as response flexibility, interference control, cancellation inhibition, and restraint inhibition. Disruptions to a number of inhibitory control processes occur as a consequence of childhood traumatic brain injury (TBI). This paper reviews the current knowledge of inhibition de...

  9. Deficits in analogical reasoning in adolescents with traumatic brain injury

    OpenAIRE

    Krawczyk, Daniel C.; Gerri Hanten; Elisabeth A. Wilde; Levin, Harvey S.

    2010-01-01

    Individuals with traumatic brain injury (TBI) exhibit deficits in executive control, which may impact their reasoning abilities. Analogical reasoning requires working memory and inhibitory abilities. In this study, we tested adolescents with moderate to severe TBI and typically-developing (TD) controls on a set of picture analogy problems. Three factors were varied: complexity (number of relations in the problems), distraction (distractor item present or absent), and animacy (living or non-li...

  10. Deficits in Analogical Reasoning in Adolescents with Traumatic Brain Injury

    OpenAIRE

    Krawczyk, Daniel C.; Hanten, Gerri; Elisabeth A. Wilde; Li, Xiaoqi; Schnelle, Kathleen P.; Merkley, Tricia L.; Vasquez, Ana C.; Cook, Lori G.; McClelland, Michelle; Chapman, Sandra B.; Levin, Harvey S.

    2010-01-01

    Individuals with traumatic brain injury (TBI) exhibit deficits in executive control, which may impact their reasoning abilities. Analogical reasoning requires working memory and inhibitory abilities. In this study, we tested adolescents with moderate to severe TBI and typically developing (TD) controls on a set of picture analogy problems. Three factors were varied: complexity (number of relations in the problems), distraction (distractor item present or absent), and animacy (living or non-li...

  11. Could Cord Blood Cell Therapy Reduce Preterm Brain Injury?

    OpenAIRE

    Li, Jingang; McDonald, Courtney A.; Fahey, Michael C.; Jenkin, Graham; Miller, Suzanne L.

    2014-01-01

    Major advances in neonatal care have led to significant improvements in survival rates for preterm infants, but this occurs at a cost, with a strong causal link between preterm birth and neurological deficits, including cerebral palsy (CP). Indeed, in high-income countries, up to 50% of children with CP were born preterm. The pathways that link preterm birth and brain injury are complex and multifactorial, but it is clear that preterm birth is strongly associated with damage to the white matt...

  12. Persistent giant U wave inversion with anoxic brain injury

    OpenAIRE

    Peters, Matthew N.; Katz, Morgan J.; Howell, Lucius A.; Moscona, John C.; Turnage, Thomas A.; Delafontaine, Patrice

    2013-01-01

    Various electrocardiographic changes have been reported in the setting of acute neurological events, among them large, upright U waves. In contrast, the occurrence of inverted U waves is strongly suggestive of cardiovascular disease, most commonly hypertension, coronary artery disease, or valvular abnormalities. Presented herein is the case of a 29-year-old man with previous anoxic brain injury (but without apparent cardiovascular disease) whose electrocardiogram demonstrated persistent giant...

  13. The Relationship between Mid-face Fractures and Brain Injuries

    OpenAIRE

    Khalighi Sigaroudi A.; Vadiati Saberi B.; Yousefzadeh Chabok Sh.

    2012-01-01

    Statement of Problem: Although advances in technology have led to improvements in man’s life in different aspects, statistics show that the incidence of fractures is increasing in different regions of the body. Recent studies show that midface fractures are strongly associated with patient's death. The exact relationship between different types of facial fractures and brain injuries is still controversial. Purpose: To evaluate individuals with midface fractures from different causes and deter...

  14. Common astrocytic programs during brain development, injury and cancer

    OpenAIRE

    Silver, Daniel J.; Steindler, Dennis A.

    2009-01-01

    In addition to radial glial cells of neurohistogenesis, immature astrocytes with stem-cell-like properties cordon off emerging functional patterns in the developing brain. Astrocytes also can be stem cells during adult neurogenesis, and a proposed potency of injury-associated reactive astrocytes has recently been substantiated. Astrocytic cells might additionally be involved in cancer stem cell-associated gliomagenesis. Thus, there are distinguishing roles for stem-cell-like astrocytes during...

  15. Mechanisms of gender-linked ischemic brain injury

    OpenAIRE

    Liu, Mingyue; Dziennis, Suzan; Hurn, Patricia D.; Alkayed, Nabil J.

    2009-01-01

    Biological sex is an important determinant of stroke risk and outcome. Women are protected from cerebrovascular disease relative to men, an observation commonly attributed to the protective effect of female sex hormones, estrogen and progesterone. However, sex differences in brain injury persist well beyond the menopause and can be found in the pediatric population, suggesting that the effects of reproductive steroids may not completely explain sexual dimorphism in stroke. We review recent ad...

  16. Clinical Traumatic Brain Injury in the Preclinical Setting.

    Science.gov (United States)

    Berkner, Justin; Mannix, Rebekah; Qiu, Jianhua

    2016-01-01

    Traumatic brain injury (TBI) is the leading cause of death and disability for people under 45 years of age. Clinical TBI is often the result of disparate forces resulting in heterogeneous injuries. Preclinical modeling of TBI is a vital tool for studying the complex cascade of metabolic, cellular, and molecular post-TBI events collectively termed secondary injury. Preclinical models also provide an important platform for studying therapeutic interventions. However, modeling TBI in the preclinical setting is challenging, and most models replicate only certain aspects of clinical TBI. This chapter details the most widely used models of preclinical TBI, including the controlled cortical impact, fluid percussion, blast, and closed head models. Each of these models replicates particular critical aspects of clinical TBI. Prior to selecting a preclinical TBI model, it is important to address what aspect of human TBI is being sought to evaluate. PMID:27604710

  17. Predictors of Personality Change Due to Traumatic Brain Injury in Children and Adolescents in the First Six Months after Injury.

    Science.gov (United States)

    Max, Jeffrey E.; Levin, Harvey S.; Landis, Julie; Schachar, Russell; Saunders, Ann; Ewing-Cobbs, Linda; Chapman, Sandra B.; Dennis, Maureen

    2005-01-01

    Objective: To assess the phenomenology and predictive factors of personality change due to traumatic brain injury. Method: Children (N = 177), aged 5 to 14 years with traumatic brain injury from consecutive admissions to five trauma centers, were followed prospectively at baseline and 6 months with semistructured psychiatric interviews. Injury…

  18. Magnetic micelles for DNA delivery to rat brains after mild traumatic brain injury.

    Science.gov (United States)

    Das, Mahasweta; Wang, Chunyan; Bedi, Raminder; Mohapatra, Shyam S; Mohapatra, Subhra

    2014-10-01

    Traumatic brain injury (TBI) causes significant mortality, long term disability and psychological symptoms. Gene therapy is a promising approach for treatment of different pathological conditions. Here we tested chitosan and polyethyleneimine (PEI)-coated magnetic micelles (CP-mag micelles or CPMMs), a potential MRI contrast agent, to deliver a reporter DNA to the brain after mild TBI (mTBI). CPMM-tomato plasmid (ptd) conjugate expressing a red-fluorescent protein (RFP) was administered intranasally immediately after mTBI or sham surgery in male SD rats. Evans blue extravasation following mTBI suggested CPMM-ptd entry into the brain via the compromised blood-brain barrier. Magnetofection increased the concentration of CPMMs in the brain. RFP expression was observed in the brain (cortex and hippocampus), lung and liver 48 h after mTBI. CPMM did not evoke any inflammatory response by themselves and were excreted from the body. These results indicate the possibility of using intranasally administered CPMM as a theranostic vehicle for mTBI. From the clinical editor: In this study, chitosan and PEI-coated magnetic micelles (CPMM) were demonstrated as potentially useful vehicles in traumatic brain injury in a rodent model. Magnetofection increased the concentration of CPMMs in the brain and, after intranasal delivery, CPMM did not evoke any inflammatory response and were excreted from the body. PMID:24486465

  19. Effects of magnesium sulfate on brain mitochondrial respiratory function in rats after experimental traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    许民辉; 代文光; 邓洵鼎

    2002-01-01

    Objective: To study the effects of magnesium sulfate on brain mitochondrial respiratory function in rats after experimental traumatic brain injury and the possible mechanism.Methods: The middle degree brain injury in rats was made by BIM-III multi-function impacting machine. The brain mitochondrial respiratory function was measured with oxygen electrode and the ultra-structural changes were observed with transmission electron microscope (TEM).Results: 1. The brain mitochondrial respiratory stage III and respiration control rate reduced significantly in the untreated groups within 24 and 72 hours. But treated Group A showed certain degree of recovery of respiratory function; treated Group B showed further improvement. 2. Untreated Group, treated Groups A and B had different degrees of mitochondrial ultra-structural damage respectively, which could be attenuated after the treatment with magnesium sulfate.Conclusions: The mitochondrial respiratory function decreases significantly after traumatic brain injury. But it can be apparently improved after magnesium sulfate management along with the attenuated damage of mitochondria discovered by TEM. The longer course of treatment can obtain a better improvement of mitochondrial respiratory function.

  20. Cognitive and psychopathological sequelae of pediatric traumatic brain injury.

    Science.gov (United States)

    Beauchamp, M H; Anderson, V

    2013-01-01

    Childhood traumatic brain injury (TBI) is a frequent cause of acquired disability in childhood and can have a serious impact on development across the lifespan. The consequences of early TBI vary according to injury severity, with severe injuries usually resulting in more serious physical, cognitive and behavioral sequelae. Both clinical and research reports document residual deficits in a range of skills, including intellectual function, attention, memory, learning, and executive function. In addition, recent investigations suggest that early brain injury also affects psychological and social development and that problems in these domains may increase in the long term postinjury. Together, these deficits affect children's ability to function effectively at school, in the home, and in their social environment, resulting in impaired acquisition of knowledge, psychological and social problems, and overall reduced quality of life. Ultimately, recovery from childhood TBI depends on a range of complex biological, developmental, and psychosocial factors making prognosis difficult to predict. This chapter will detail the cognitive (intellectual, attentional, mnesic, executive, educational, and vocational) and psychopathological (behavioral, adaptive, psychological, social) sequelae of childhood TBI with a particular focus on postinjury recovery patterns in the acute, short-, and long-term phases, as well as into adulthood. PMID:23622301

  1. Brain injury impairs working memory and prefrontal circuit function

    Directory of Open Access Journals (Sweden)

    Colin James Smith

    2015-11-01

    Full Text Available More than 2.5 million Americans suffer a traumatic brain injury (TBI each year. Even mild to moderate traumatic brain injury causes long-lasting neurological effects. Despite its prevalence, no therapy currently exists to treat the underlying cause of cognitive impairment suffered by TBI patients. Following lateral fluid percussion injury (LFPI, the most widely used experimental model of TBI, we investigated alterations in working memory and excitatory/inhibitory synaptic balance in the prefrontal cortex. LFPI impaired working memory as assessed with a T-maze behavioral task. Field excitatory postsynaptic potentials recorded in the prefrontal cortex were reduced in slices derived from brain-injured mice. Spontaneous and miniature excitatory postsynaptic currents onto layer 2/3 neurons were more frequent in slices derived from LFPI mice while inhibitory currents onto layer 2/3 neurons were smaller after LFPI. Additionally, an increase in action potential threshold and concomitant decrease in firing rate was observed in layer 2/3 neurons in slices from injured animals. Conversely, no differences in excitatory or inhibitory synaptic transmission onto layer 5 neurons were observed; however, layer 5 neurons demonstrated a decrease in input resistance and action potential duration after LFPI. These results demonstrate synaptic and intrinsic alterations in prefrontal circuitry that may underlie working memory impairment caused by TBI.

  2. Speed of perceptual grouping in acquired brain injury.

    Science.gov (United States)

    Kurylo, Daniel D; Larkin, Gabriella Brick; Waxman, Richard; Bukhari, Farhan

    2014-09-01

    Evidence exists that damage to white matter connections may contribute to reduced speed of information processing in traumatic brain injury and stroke. Damage to such axonal projections suggests a particular vulnerability to functions requiring integration across cortical sites. To test this prediction, measurements were made of perceptual grouping, which requires integration of stimulus components. A group of traumatic brain injury and cerebral vascular accident patients and a group of age-matched healthy control subjects viewed arrays of dots and indicated the pattern into which stimuli were perceptually grouped. Psychophysical measurements were made of perceptual grouping as well as processing speed. The patient group showed elevated grouping thresholds as well as extended processing time. In addition, most patients showed progressive slowing of processing speed across levels of difficulty, suggesting reduced resources to accommodate increased demands on grouping. These results support the prediction that brain injury results in a particular vulnerability to functions requiring integration of information across the cortex, which may result from dysfunction of long-range axonal connection. PMID:24820289

  3. Functional brain study of chronic traumatic head injury

    International Nuclear Information System (INIS)

    Explosive aggressive behaviour is a significant clinical and medico-legal problem in patients suffering from head injury. However, experts in neuropsychiatry have proposed a specific category for this disorder: the organic aggressive syndrome:. The basic reason for proposing this diagnosis is that it describes the specificity of the violent conduct secondary to 'brain damage' with greater precision. Early diagnosis and treatment of the injury is critical. The impact of hnetium-99m-hexamethylpropuleneamine oxime (HMPAO) was examined for measuring brain damage in correlation to neuropsychological performance in patients with traumatic brain injury (TBI). We thus report the case of a twelve-year-old child with a history of CET, who presents with serious episodes of heteroaggressiveness and suggest the usefulness of single photon emission computerized tomography (SPECT) to establish the validity of this psychiatric diagnosis. The appearance of modern functional neuro-image techniques (SPECT) may help to increase the validity of clinical diagnoses in the field of psychiatry in general and of forensic psychiatry in particularly, as the related findings may be used as demarcation criteria to establish syndromic diagnoses (Au)

  4. Percutaneous dilatational tracheostomy for ICU patients with severe brain injury

    Directory of Open Access Journals (Sweden)

    Guo Dongyuan

    2014-12-01

    Full Text Available 【Abstract】Objective: To sum up our experience in percutaneous dilatational tracheostomy (PDT in ICU patient with severe brain injury. Methods: Between November 2011 and April 2014, PDTs were performed on 32 severe brain injury patients in ICU by a team of physicians and intensivists. The success rate, effi cacy, safety, and complications including stomal infection and bleeding, paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, as well as clinically significant tracheal stenosis were carefully monitored and recorded respectively. Results: The operations took 4-15 minutes (mean 9.1 minutes±4.2 minutes. Totally 4 cases suffered from complications in the operations: 3 cases of stomal bleeding, and 1 case of intratracheal bloody secretion, but none required intervention. Paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, or clinically signifi cant tracheal stenosis were not found in PDT patients. There was no procedure-related death occurring during or after PDT. Conclusion: Our study demonstrats that PDT is a safe, highly effective, and minimally invasive procedure. The appropriate sedation and airway management perioperatively help to reduce complication rates. PDT should be performed or supervised by a team of physicians with extensive experience in this procedure, and also an intensivist with experience in diffi cult airway management. Key words: Brain injuries; Percutaneous dilatational tracheostomy; ICU

  5. Male pituitary-gonadal dysfunction following severe traumatic brain injury.

    Science.gov (United States)

    Lee, S C; Zasler, N D; Kreutzer, J S

    1994-01-01

    A prospective study was conducted to evaluate pituitary-gonadal function and correlated parameters in 21 adult males with severe traumatic brain injury during acute inpatient rehabilitation. Serum concentrations of testosterone, follicle-stimulating hormone (FSH) and luteinizing hormone (LH) were measured within 1 week after the patient was transferred to the rehabilitation unit. Fourteen of 21 patients (67%) had abnormally low testosterone levels. One of 21 patients had a subnormal FSH level and one had a supranormal level. Three of 21 patients had subnormal LH levels and two had supranormal levels. There was no correlation between the severity of brain injury and the levels of testosterone, FSH or LH. The presence of increased intracranial pressure, hypoxia, skull fracture or abnormal CT findings had no significant influence on the levels of testosterone, FSH or LH. The high incidence of hypotestosteronaemia in survivors of severe traumatic brain injury is seemingly more related to accompanying physiological stressors rather than structural or neurochemical disruption of the hypothalamic-pituitary-gonadal axis. Early identification is important relative to the potential neuromedical and rehabilitative consequences of prolonged hypotestosteronaemia in this patient population. PMID:7987293

  6. Gender and environmental effects on regional brain-derived neurotrophic factor expression after experimental traumatic brain injury.

    Science.gov (United States)

    Chen, X; Li, Y; Kline, A E; Dixon, C E; Zafonte, R D; Wagner, A K

    2005-01-01

    Alterations in brain-derived neurotrophic factor expression have been reported in multiple brain regions acutely after traumatic brain injury, however neither injury nor post-injury environmental enrichment has been shown to affect hippocampal brain-derived neurotrophic factor gene expression in male rats chronically post-injury. Studies have demonstrated hormone-related neuroprotection for female rats after traumatic brain injury, and estrogen and exercise both influence brain-derived neurotrophic factor levels. Despite recent studies suggesting that exposure post-traumatic brain injury to environmental enrichment improves cognitive recovery in male rats, we have shown that environmental enrichment mediated improvements with spatial learning are gender specific and only positively affect males. Therefore the purpose of this study was to evaluate the effect of gender and environmental enrichment on chronic post-injury cortical and hippocampal brain-derived neurotrophic factor protein expression. Sprague-Dawley male and cycling female rats were placed into environmental enrichment or standard housing after controlled cortical impact or sham surgery. Four weeks post-surgery, hippocampal and frontal cortex brain-derived neurotrophic factor expression were examined using Western blot. Results revealed significant increases in brain-derived neurotrophic factor expression in the frontal cortex ipsilateral to injury for males (P=0.03). Environmental enrichment did not augment this effect. Neither environmental enrichment nor injury significantly affected cortical brain-derived neurotrophic factor expression for females. In the hippocampus ipsilateral to injury brain-derived neurotrophic factor expression for both males and females was half (49% and 51% respectively) of that observed in shams housed in the standard environment. For injured males, there was a trend in this region for environmental enrichment to restore brain-derived neurotrophic factor levels to sham values

  7. Risk factors for cervical spine injury among patients with traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Tomoko Fujii

    2013-01-01

    Full Text Available Background: Diagnosis of cervical spine injury (CSI is difficult in patients with an altered level of consciousness as a result of a traumatic brain injury (TBI. Patients with TBI and older adults are at increased risk for CSI. This study examined the various risk factors for CSI among trauma patients with TBI and whether adults who were older (≥55 years were at higher risk for CSI when they sustained a fall-related TBI. Materials and Methods: Data used was the 2007 National Trauma Data Bank (NTDB, National Sample Project (NSP for adults who sustained a TBI. This dataset contains 2007 admission records from 82 level I and II trauma centers. Logistic regression was used to identify potential risk factors for CSI and to test for interaction between age and injury mechanism. Additional model variables included gender, race, Glasgow Coma Score, multiple severe injuries, hypotension and respiratory distress. Results: An analysis of the NTDB NSP identified 187,709 adults with TBI, of which 16,078 were diagnosed with a concomitant CSI. In motor vehicle traffic injuries, the older age group had significantly higher odds of CSI (odds ratio [OR] = 1.26 [1.15-1.39]. In fall-related injuries the older age group did not have a higher odds of CSI compared to the younger age group. Skull/face fracture, other spine fracture/dislocation, upper limb injury, thorax injury, and hypotension were significantly associated with CSI. Pelvic injuries had an inverse association with CSI (OR = 0.60 [0.54-0.67]. Black had significantly higher odds of CSI compared to Whites (OR = 1.25 [1.07-1.46]. Conclusion: The identification of associated injuries and factors may assist physicians in evaluating CSI in patients with TBI.

  8. Bcl-2 gene therapy for apoptosis following traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    YANG Xiao-feng; ZHENG Xue-sheng; LIU Wei-guo; FENG Jun-feng

    2006-01-01

    Objective: To investigate the therapeutic effect of Bcl- 2 fusion protein on apoptosis in brain following traumatic brain injury.Methods: Bcl-2 gene was cloned by RT-PCR. Bcl-2 and EGFP genes were linked together and inserted into pAdeno-X vector. This recombinant vector was packaged into infectious adenovirus in HEK293 cells. Ninety Wistar rats were assigned randomly into experimental group(n=45) and control group (n=45). All rats were subjected to traumatic brain injury. Then recombinant adenovirus (for experimental group) or saline (for control group) was injected into the traumatic brain. The expression of Bcl-2 fusion protein was investigated by Western blotting, immunohistochemistry and fluorescence microscopy. Apoptosis in the injured brain was studied by TUNEL. Animals' behavior capacity was evaluated by tiltboard test.Results: In the experimental group, many fluorescent cells were found around the traumatic locus,which were also proven to be Bcl-2-positive by immunohistochemistry. On the contrary, few Bcl-2-positive cells and no fluorescent cell were detected in the control group. Bcl-2 expression of experimental group was much higher than that of control group, which was illustrated by Western blotting. The apoptosis index of experimental group was 0.027 ± 0.005, and that of control group was 0.141±0.025 (P<0.01). Two weeks after injury, animals of the experimental group behaved better than those of the control group.Conclusions: A recombinant adenovirus vector expressing Bcl-2 fusion protein has been constructed. Bcl-2 fusion protein can suppress apoptosis and promote cell survival. Moreover, the behavior recovery of the injured animal is promoted. Bcl-2 fusion protein provides a way to track the target cells in vivo.

  9. Atypical moral judgment following traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Angelica Muresan

    2012-07-01

    Full Text Available Previous research has shown an association between emotions, particularly social emotions, and moral judgments. Some studies suggested an association between blunted emotion and the utilitarian moral judgments observed in patients with prefrontal lesions. In order to investigate how prefrontal brain damage affects moral judgment, we asked a sample of 29 TBI patients (12 females and 17 males and 41 healthy participants (16 females and 25 males to judge 22 hypothetical dilemmas split into three different categories (non-moral, impersonal and personal moral. The TBI group presented a higher proportion of affirmative (utilitarian responses for personal moral dilemmas when compared to controls, suggesting an atypical pattern of utilitarian judgements. We also found a negative association between the performance on recognition of social emotions and the proportion of affirmative responses on personal moral dilemmas. These results suggested that the preference for utilitarian responses in this type of dilemmas is accompanied by difficulties in social emotion recognition. Overall, our findings suggest that deontological moral judgments are associated with normal social emotion processing and that frontal lobe plays an important role in both emotion and moral judgment.

  10. A peptide for targeted, systemic delivery of imaging and therapeutic compounds into acute brain injuries

    Science.gov (United States)

    Mann, Aman P.; Scodeller, Pablo; Hussain, Sazid; Joo, Jinmyoung; Kwon, Ester; Braun, Gary B.; Mölder, Tarmo; She, Zhi-Gang; Kotamraju, Venkata Ramana; Ranscht, Barbara; Krajewski, Stan; Teesalu, Tambet; Bhatia, Sangeeta; Sailor, Michael J.; Ruoslahti, Erkki

    2016-06-01

    Traumatic brain injury (TBI) is a major health and socio-economic problem, but no pharmacological agent is currently approved for the treatment of acute TBI. Thus, there is a great need for advances in this field. Here, we describe a short peptide (sequence CAQK) identified by in vivo phage display screening in mice with acute brain injury. The CAQK peptide selectively binds to injured mouse and human brain, and systemically injected CAQK specifically homes to sites of brain injury in mouse models. The CAQK target is a proteoglycan complex upregulated in brain injuries. Coupling to CAQK increased injury site accumulation of systemically administered molecules ranging from a drug-sized molecule to nanoparticles. CAQK-coated nanoparticles containing silencing oligonucleotides provided the first evidence of gene silencing in injured brain parenchyma by systemically administered siRNA. These findings present an effective targeting strategy for the delivery of therapeutics in clinical management of acute brain injuries.

  11. Low level primary blast injury in rodent brain

    Directory of Open Access Journals (Sweden)

    Enci MaryKan

    2011-04-01

    Full Text Available The incidence of blast attacks and resulting traumatic brain injuries has been on the rise in recent years. Primary blast is one of the mechanisms in which the blast wave can cause injury to the brain. The aim of this study was to investigate the effects of a single sub-lethal blast over pressure exposure of either 48.9 kPa (7.1 psi or 77.3 kPa (11.3 psi to rodents in an open-field setting. Brain tissue from these rats was harvested for microarray and histopathological analyses. Gross histopathology of the brains showed that cortical neurons were ‘darkened’ and shrunken with narrowed vasculature in the cerebral cortex day 1 after blast with signs of recovery at day 4 and day 7 after blast. TUNEL-positive cells were predominant in the white matter of the brain at day 1 after blast and double-labeling of brain tissue showed that these DNA-damaged cells were both oligodendrocytes and astrocytes but were mainly not apoptotic due to the low caspase-3 immunopositivity. There was also an increase in amyloid precursor protein immunoreactive cells in the white matter which suggests acute axonal damage. In contrast, Iba-1 staining for macrophages or microglia was not different from control post-blast. Blast exposure altered the expression of over 5786 genes in the brain which occurred mostly at day 1 and day 4 post-blast. These genes were narrowed down to 10 overlapping genes after time-course evaluation and functional analyses. These genes pointed towards signs of repair at day 4 and 7 post-blast. Our findings suggest that the blast over pressure levels in the study resulted in mild cellular injury to the brain as evidenced by acute neuronal, cerebrovascular and white matter perturbations that showed signs of resolution. It is unclear whether these perturbations exist at a milder level or normalize completely and will need more investigation. Specific changes in gene expression may be further evaluated to understand the mechanism of blast

  12. Application of Ultrasonic Techniques for Brain Injury Diagnosis

    International Nuclear Information System (INIS)

    In this work, we evaluate methods for detecting brain injury using ultrasound. We have used simulations of ultrasonic fields in the head to model the phase distortion of the skull. In addition we present experimental data from the crania of large animals. The experimental data help us understand and evaluate the performance of different transducers in acquiring the backscatter data from the brain through the skull. Both the simulations and acquired data illustrate the superiority of lower-frequency (<= 1 MHz) ultrasonic fields for transcranial acquisition of signals from inside the brain. Additionally, the experimental work shows that the higher-frequency (5 MHz) ultrasound can also be useful in acquiring clean nearfield data to help detect the position of the inner boundary of the skull

  13. Application of Ultrasonic Techniques for Brain Injury Diagnosis

    Energy Technology Data Exchange (ETDEWEB)

    Kasili, P.M.; Mobley, J.; Norton, S.J.; Vo-Dinh, T.

    1999-09-19

    In this work, we evaluate methods for detecting brain injury using ultrasound. We have used simulations of ultrasonic fields in the head to model the phase distortion of the skull. In addition we present experimental data from the crania of large animals. The experimental data help us understand and evaluate the performance of different transducers in acquiring the backscatter data from the brain through the skull. Both the simulations and acquired data illustrate the superiority of lower-frequency (<= 1 MHz) ultrasonic fields for transcranial acquisition of signals from inside the brain. Additionally, the experimental work shows that the higher-frequency (5 MHz) ultrasound can also be useful in acquiring clean nearfield data to help detect the position of the inner boundary of the skull.

  14. Resuscitation speed affects brain injury in a large animal model of traumatic brain injury and shock

    DEFF Research Database (Denmark)

    Sillesen, Martin; Jin, Guang; Johansson, Pär I;

    2014-01-01

    infusion speed increment NS (n¿=¿7). Hemodynamic variables over a 6-hour observation phase were recorded. Following euthanasia, brains were harvested and lesion size as well as brain swelling was measured.ResultsBolus FFP resuscitation resulted in greater brain swelling (22.36¿±¿1.03% vs. 15.58¿±¿2.52%, p...

  15. Investigation of elemental changes in brain tissues following excitotoxic injury

    International Nuclear Information System (INIS)

    Recently the ANSTO heavy ion microprobe has been used for elemental mapping of thin brain tissue sections. The fact that a very small portion of the proton energy is used for X-ray excitation combined with small variations of the major element concentrations makes μ-PIXE imaging and GeoPIXE analysis a challenging task. Excitotoxic brain injury underlies the pathology of stroke and various neurodegenerative disorders. Large fluxes in Ca+2 cytosolic concentrations are a key feature of the initiation of this pathophysiological process. In order to understand if these modifications are associated with changes in the elemental composition, several brain sections have been mapped with μ-PIXE. Increases in Ca+2 cytosolic concentrations were indicative of the pathophysiological process continuing 1 week after an initiating neural insult. We were able to measure significant variations in K and Ca concentration distribution across investigated brain tissue. These variations correlate very well with physiological changes visible in the brain tissue. Moreover, the obtained μ-PIXE results clearly demonstrate that the elemental composition changes significantly correlate with brain drauma

  16. Investigation of elemental changes in brain tissues following excitotoxic injury

    Energy Technology Data Exchange (ETDEWEB)

    Siegele, Rainer, E-mail: rns@ansto.gov.au [Institute for Environmental Research, ANSTO, Locked Bag 2001, Kirrawee DC, NSW 2232 (Australia); Howell, Nicholas R.; Callaghan, Paul D. [Life Sciences, ANSTO, Locked Bag 2001, Kirrawee DC, NSW 2232 (Australia); Pastuovic, Zeljko [Institute for Environmental Research, ANSTO, Locked Bag 2001, Kirrawee DC, NSW 2232 (Australia)

    2013-07-01

    Recently the ANSTO heavy ion microprobe has been used for elemental mapping of thin brain tissue sections. The fact that a very small portion of the proton energy is used for X-ray excitation combined with small variations of the major element concentrations makes μ-PIXE imaging and GeoPIXE analysis a challenging task. Excitotoxic brain injury underlies the pathology of stroke and various neurodegenerative disorders. Large fluxes in Ca{sup +2} cytosolic concentrations are a key feature of the initiation of this pathophysiological process. In order to understand if these modifications are associated with changes in the elemental composition, several brain sections have been mapped with μ-PIXE. Increases in Ca{sup +2} cytosolic concentrations were indicative of the pathophysiological process continuing 1 week after an initiating neural insult. We were able to measure significant variations in K and Ca concentration distribution across investigated brain tissue. These variations correlate very well with physiological changes visible in the brain tissue. Moreover, the obtained μ-PIXE results clearly demonstrate that the elemental composition changes significantly correlate with brain drauma.

  17. Plasticity in the Neonatal Brain following Hypoxic-Ischaemic Injury

    Directory of Open Access Journals (Sweden)

    Eridan Rocha-Ferreira

    2016-01-01

    Full Text Available Hypoxic-ischaemic damage to the developing brain is a leading cause of child death, with high mortality and morbidity, including cerebral palsy, epilepsy, and cognitive disabilities. The developmental stage of the brain and the severity of the insult influence the selective regional vulnerability and the subsequent clinical manifestations. The increased susceptibility to hypoxia-ischaemia (HI of periventricular white matter in preterm infants predisposes the immature brain to motor, cognitive, and sensory deficits, with cognitive impairment associated with earlier gestational age. In term infants HI causes selective damage to sensorimotor cortex, basal ganglia, thalamus, and brain stem. Even though the immature brain is more malleable to external stimuli compared to the adult one, a hypoxic-ischaemic event to the neonate interrupts the shaping of central motor pathways and can affect normal developmental plasticity through altering neurotransmission, changes in cellular signalling, neural connectivity and function, wrong targeted innervation, and interruption of developmental apoptosis. Models of neonatal HI demonstrate three morphologically different types of cell death, that is, apoptosis, necrosis, and autophagy, which crosstalk and can exist as a continuum in the same cell. In the present review we discuss the mechanisms of HI injury to the immature brain and the way they affect plasticity.

  18. Plasticity in the Neonatal Brain following Hypoxic-Ischaemic Injury.

    Science.gov (United States)

    Rocha-Ferreira, Eridan; Hristova, Mariya

    2016-01-01

    Hypoxic-ischaemic damage to the developing brain is a leading cause of child death, with high mortality and morbidity, including cerebral palsy, epilepsy, and cognitive disabilities. The developmental stage of the brain and the severity of the insult influence the selective regional vulnerability and the subsequent clinical manifestations. The increased susceptibility to hypoxia-ischaemia (HI) of periventricular white matter in preterm infants predisposes the immature brain to motor, cognitive, and sensory deficits, with cognitive impairment associated with earlier gestational age. In term infants HI causes selective damage to sensorimotor cortex, basal ganglia, thalamus, and brain stem. Even though the immature brain is more malleable to external stimuli compared to the adult one, a hypoxic-ischaemic event to the neonate interrupts the shaping of central motor pathways and can affect normal developmental plasticity through altering neurotransmission, changes in cellular signalling, neural connectivity and function, wrong targeted innervation, and interruption of developmental apoptosis. Models of neonatal HI demonstrate three morphologically different types of cell death, that is, apoptosis, necrosis, and autophagy, which crosstalk and can exist as a continuum in the same cell. In the present review we discuss the mechanisms of HI injury to the immature brain and the way they affect plasticity. PMID:27047695

  19. Demonstration of blood brain barrier injury by computed tomography

    International Nuclear Information System (INIS)

    Blood brain barrier (BBB) injury was evoked by the injection of hypertonic solution, 50% glucose or 80% sodium iothalamate, through the catheter placed in the common carotid artery of the adult mongrel dogs. Plain CT and then contrast CT were performed at 30 minutes intervals until 3 hours to determine the relationship between the degrees of contrast enhancement (CE) and the amount of injected hypertonic solution, and to examine the diminishing rates of CE according to time elapsed after the intravenous contrast injection. Another four groups of dogs received contrast CT immediately, at 1, 2 and 3 hours after the injection of hypertonic solution to examine the degree of repair of BBB injury. Contrast media, which was leaked through BBB injured by the injection of hypertonic solution, was recognized by CT, and the area of CE coincided exactly with the dyed area by Evans blue, injected intravenously after induction of BBB injury. Degrees of CE were found to correlate linearly to the amount of hypertonic solution within a certain range. These results indicate that CT can demonstrate BBB injury qualitatively and quantitatively. In sequential CT after the artificial injury of BBB, degree of CE diminished linearly with a half life of about 3 hours. Hydrocortisone accelerated this washout of leaked contrast media. Repair of BBB itself, determined by contrast CT which were performed at 1, 2 and 3 hours after the induction of BBB injury, has been accomplished until 3 hours, and not affected by the administration of hydrocortisone. These experimental results suggest that CT is the most promising method to detect quantitatively and non-invasively the degree and the extent of BBB injury in clinical cases. (J.P.N.)

  20. Epileptogenesis after traumatic brain injury in Plaur-deficient mice.

    Science.gov (United States)

    Bolkvadze, Tamuna; Puhakka, Noora; Pitkänen, Asla

    2016-07-01

    Binding of the extracellular matrix proteinase urokinase-type plasminogen activator (uPA) to its receptor, uPAR, regulates tissue remodeling during development and after injury in different organs, including the brain. Accordingly, mutations in the Plaur gene, which encodes uPAR, have been linked to language deficits, autism, and epilepsy, both in mouse and human. Whether uPAR deficiency modulates epileptogenesis and comorbidogenesis after brain injury, however, is unknown. To address this question, we induced traumatic brain injury (TBI) by controlled cortical impact (CCI) in 10 wild-type (Wt-CCI) and 16 Plaur-deficient (uPAR-CCI) mice. Sham-operated mice served as controls (10 Wt-sham, 10 uPAR-sham). During the 4-month follow-up, the mice were neurophenotyped by assessing the somatomotor performance with the composite neuroscore test, emotional learning and memory with fear conditioning to tone and context, and epileptogenesis with videoelectroencephalography monitoring and the pentylenetetrazol (PTZ) seizure susceptibility test. At the end of the testing, the mice were perfused for histology to analyze cortical and hippocampal neurodegeneration and mossy fiber sprouting. Fourteen percent (1/7) of the mice in the Wt-CCI and 0% in the uPAR-CCI groups developed spontaneous seizures (p>0.05; chi-square). Both the Wt-CCI and uPAR-CCI groups showed increased seizure susceptibility in the PTZ test (plearning showed a genotype effect, being more impaired in uPAR-CCI than in Wt-CCI mice (p<0.05). The findings of the present study indicate that uPAR deficiency does not increase susceptibility to epileptogenesis after CCI injury but has an unfavorable comorbidity-modifying effect after TBI. PMID:27208924

  1. Art Therapy for Individuals with Traumatic Brain Injury: A Comprehensive Neurorehabilitation-Informed Approach to Treatment

    Science.gov (United States)

    Kline, Tori

    2016-01-01

    I describe an approach to art therapy treatment for survivors of traumatic brain injury developed at a rehabilitation facility for adults that serves inpatient, outpatient, and long-term residential clients. This approach is based on a review of the literature on traumatic brain injury, comprehensive neurorehabilitation, brain plasticity, and art…

  2. Effects of NOS inhibitor on dentate gyrus neurogenesis after diffuse brain injury in the adult rats

    Institute of Scientific and Technical Information of China (English)

    SunLi-Sha; XuJiang-ping

    2004-01-01

    Objective To investigate the effects of selective nitric oxide synthase (NOS) inhibitors on dentate gyrus neurogenesis after diffuse brain injury (DBI) in the adult rat brain. Methods Adult male SD rats were subjected to diffuse brain injury (DBI) model. By using systemic bromodeoxyuridine (BrdU) to label dividing cells, we compared the proliferation rate of

  3. Optimizing sedation in patients with acute brain injury.

    Science.gov (United States)

    Oddo, Mauro; Crippa, Ilaria Alice; Mehta, Sangeeta; Menon, David; Payen, Jean-Francois; Taccone, Fabio Silvio; Citerio, Giuseppe

    2016-01-01

    Daily interruption of sedative therapy and limitation of deep sedation have been shown in several randomized trials to reduce the duration of mechanical ventilation and hospital length of stay, and to improve the outcome of critically ill patients. However, patients with severe acute brain injury (ABI; including subjects with coma after traumatic brain injury, ischaemic/haemorrhagic stroke, cardiac arrest, status epilepticus) were excluded from these studies. Therefore, whether the new paradigm of minimal sedation can be translated to the neuro-ICU (NICU) is unclear. In patients with ABI, sedation has 'general' indications (control of anxiety, pain, discomfort, agitation, facilitation of mechanical ventilation) and 'neuro-specific' indications (reduction of cerebral metabolic demand, improved brain tolerance to ischaemia). Sedation also is an essential therapeutic component of intracranial pressure therapy, targeted temperature management and seizure control. Given the lack of large trials which have evaluated clinically relevant endpoints, sedative selection depends on the effect of each agent on cerebral and systemic haemodynamics. Titration and withdrawal of sedation in the NICU setting has to be balanced between the risk that interrupting sedation might exacerbate brain injury (e.g. intracranial pressure elevation) and the potential benefits of enhanced neurological function and reduced complications. In this review, we provide a concise summary of cerebral physiologic effects of sedatives and analgesics, the advantages/disadvantages of each agent, the comparative effects of standard sedatives (propofol and midazolam) and the emerging role of alternative drugs (ketamine). We suggest a pragmatic approach for the use of sedation-analgesia in the NICU, focusing on some practical aspects, including optimal titration and management of sedation withdrawal according to ABI severity. PMID:27145814

  4. Are boys and girls that different? An analysis of traumatic brain injury in children.

    LENUS (Irish Health Repository)

    Collins, Niamh C

    2013-08-01

    The Phillips Report on traumatic brain injury (TBI) in Ireland found that injury was more frequent in men and that gender differences were present in childhood. This study determined when gender differences emerge and examined the effect of gender on the mechanism of injury, injury type and severity and outcome.

  5. Neuroendocrine abnormalities in patients with traumatic brain injury

    Science.gov (United States)

    Yuan, X. Q.; Wade, C. E.

    1991-01-01

    This article provides an overview of hypothalamic and pituitary alterations in brain trauma, including the incidence of hypothalamic-pituitary damage, injury mechanisms, features of the hypothalamic-pituitary defects, and major hypothalamic-pituitary disturbances in brain trauma. While hypothalamic-pituitary lesions have been commonly described at postmortem examination, only a limited number of clinical cases of traumatic hypothalamic-pituitary dysfunction have been reported, probably because head injury of sufficient severity to cause hypothalamic and pituitary damage usually leads to early death. With the improvement in rescue measures, an increasing number of severely head-injured patients with hypothalamic-pituitary dysfunction will survive to be seen by clinicians. Patterns of endocrine abnormalities following brain trauma vary depending on whether the injury site is in the hypothalamus, the anterior or posterior pituitary, or the upper or lower portion of the pituitary stalk. Injury predominantly to the hypothalamus can produce dissociated ACTH-cortisol levels with no response to insulin-induced hypoglycemia and a limited or failed metopirone test, hypothyroxinemia with a preserved thyroid-stimulating hormone response to thyrotropin-releasing hormone, low gonadotropin levels with a normal response to gonadotropin-releasing hormone, a variable growth hormone (GH) level with a paradoxical rise in GH after glucose loading, hyperprolactinemia, the syndrome of inappropriate ADH secretion (SIADH), temporary or permanent diabetes insipidus (DI), disturbed glucose metabolism, and loss of body temperature control. Severe damage to the lower pituitary stalk or anterior lobe can cause low basal levels of all anterior pituitary hormones and eliminate responses to their releasing factors. Only a few cases showed typical features of hypothalamic or pituitary dysfunction. Most severe injuries are sufficient to damage both structures and produce a mixed endocrine picture

  6. Neuroimaging in adult penetrating brain injury: a guide for radiographers

    Energy Technology Data Exchange (ETDEWEB)

    Temple, Nikki; Donald, Cortny; Skora, Amanda [Discipline of Medical Radiation Sciences, The University of Sydney, Lidcombe, New South Wales (Australia); Reed, Warren, E-mail: warren.reed@sydney.edu.au [Medical Image Optimisation and Perception Group, Discipline of Medical Radiation Sciences, The University of Sydney, Lidcombe, New South Wales (Australia)

    2015-06-15

    Penetrating brain injuries (PBI) are a medical emergency, often resulting in complex damage and high mortality rates. Neuroimaging is essential to evaluate the location and extent of injuries, and to manage them accordingly. Currently, a myriad of imaging modalities are included in the diagnostic workup for adult PBI, including skull radiography, computed tomography (CT), magnetic resonance imaging (MRI) and angiography, with each modality providing their own particular benefits. This literature review explores the current modalities available for investigating PBI and aims to assist in decision making for the appropriate use of diagnostic imaging when presented with an adult PBI. Based on the current literature, the authors have developed an imaging pathway for adult penetrating brain injury that functions as both a learning tool and reference guide for radiographers and other health professionals. Currently, CT is recommended as the imaging modality of choice for the initial assessment of PBI patients, while MRI is important in the sub-acute setting where it aids prognosis prediction and rehabilitation planning, Additional follow-up imaging, such as angiography, should be dependent upon clinical findings.

  7. Neuroimaging in adult penetrating brain injury: a guide for radiographers

    International Nuclear Information System (INIS)

    Penetrating brain injuries (PBI) are a medical emergency, often resulting in complex damage and high mortality rates. Neuroimaging is essential to evaluate the location and extent of injuries, and to manage them accordingly. Currently, a myriad of imaging modalities are included in the diagnostic workup for adult PBI, including skull radiography, computed tomography (CT), magnetic resonance imaging (MRI) and angiography, with each modality providing their own particular benefits. This literature review explores the current modalities available for investigating PBI and aims to assist in decision making for the appropriate use of diagnostic imaging when presented with an adult PBI. Based on the current literature, the authors have developed an imaging pathway for adult penetrating brain injury that functions as both a learning tool and reference guide for radiographers and other health professionals. Currently, CT is recommended as the imaging modality of choice for the initial assessment of PBI patients, while MRI is important in the sub-acute setting where it aids prognosis prediction and rehabilitation planning, Additional follow-up imaging, such as angiography, should be dependent upon clinical findings

  8. A Prospective Pilot Investigation of Brain Volume, White Matter Hyperintensities, and Hemorrhagic Lesions after Mild Traumatic Brain Injury

    OpenAIRE

    Jarrett, Michael; Tam, Roger; Hernández-Torres, Enedino; Martin, Nancy; Perera, Warren; Zhao, Yinshan; Shahinfard, Elham; Dadachanji, Shiroy; Taunton, Jack; Li, David K.B.; Rauscher, Alexander

    2016-01-01

    Traumatic brain injury (TBI) is among the most common neurological disorders. Hemorrhagic lesions and white matter hyperintensities (WMH) are radiological features associated with moderate and severe TBI. Brain volume reductions have also been observed during the months following injury. In concussion, no signs of injury are observed on conventional magnetic resonance imaging (MRI), which may be a true feature of concussion or merely due to the limited sensitivity of imaging techniques used s...

  9. Glucose administration after traumatic brain injury improves cerebral metabolism and reduces secondary neuronal injury

    OpenAIRE

    Moro, Nobuhiro; Ghavim, Sima; Harris, Neil G.; Hovda, David A.; Sutton, Richard L.

    2013-01-01

    Clinical studies have indicated an association between acute hyperglycemia and poor outcomes in patients with traumatic brain injury (TBI), although optimal blood glucose levels needed to maximize outcomes for these patients’ remains under investigation. Previous results from experimental animal models suggest that post-TBI hyperglycemia may be harmful, neutral, or beneficial. The current studies determined the effects of single or multiple episodes of acute hyperglycemia on cerebral glucose ...

  10. Lateral (Parasagittal) Fluid Percussion Model of Traumatic Brain Injury.

    Science.gov (United States)

    Van, Ken C; Lyeth, Bruce G

    2016-01-01

    Fluid percussion was first conceptualized in the 1940s and has evolved into one of the leading laboratory methods for studying experimental traumatic brain injury (TBI). Over the decades, fluid percussion has been used in numerous species and today is predominantly applied to the rat. The fluid percussion technique rapidly injects a small volume of fluid, such as isotonic saline, through a circular craniotomy onto the intact dura overlying the brain cortex. In brief, the methods involve surgical production of a circular craniotomy, attachment of a fluid-filled conduit between the dura overlying the cortex and the outlet port of the fluid percussion device. A fluid pulse is then generated by the free-fall of a pendulum striking a piston on the fluid-filled cylinder of the device. The fluid enters the cranium, producing a compression and displacement of the brain parenchyma resulting in a sharp, high magnitude elevation of intracranial pressure that is propagated diffusely through the brain. This results in an immediate and transient period of traumatic unconsciousness as well as a combination of focal and diffuse damage to the brain, which is evident upon histological and behavioral analysis. Numerous studies have demonstrated that the rat fluid percussion model reproduces a wide range of pathological features associated with human TBI. PMID:27604722

  11. Astrocytes mediate the neuroprotective effects of Tibolone following brain injury

    Directory of Open Access Journals (Sweden)

    Luis Miguel Garcia-Segura

    2015-04-01

    Full Text Available Recently, astrocytes have become a key central player in mediating important functions in the brain. These physiological processes include neurotransmitter recycling, energy management, metabolic shuttle, immune sensing, K+ buffer, antioxidant supply and release of neurotrophic factors and gliotransmitters. These astrocytic roles are somehow altered upon brain injury, therefore strategies aimed at better protecting astrocytes are an essential asset to maintain brain homeostasis. In this context, estrogenic compounds, such as Tibolone, have attracted attention for their beneficial effects in acute and chronic degenerative diseases. Tibolone may act through binding to estrogen, androgen or progesterone receptors and exert protective effects by reducing astrocytes cell death and oxidative stress signaling mechanisms. Although Tibolone has a multifactorial effect in the brain, its mechanisms of action are not completely understood. In this work, we highlight the role of Tibolone in brain protection upon damage, how astrocytes might mediate part of its neuroprotective actions and discuss the effects of Tibolone in diminishing the harmful consequences of a metabolic insult and energy failure in the setting of a pathological event.

  12. Factors affecting radiation injury after interstitial brachytherapy for brain tumors

    International Nuclear Information System (INIS)

    The effects of brachytherapy on normal brain tissue are not easily delineated in the clinical setting because of the presence of concurrent radiation-induced changes in the coexistent brain tumor. Sequential morphologic studies performed after the implantation of radioactive sources into the brains of experimental animals have provided a better understanding of the character and magnitude of the structural changes produced by interstitial irradiation on normal brain tissue. Furthermore, the clinical experience accumulated thus far provides not only relevant information, but also some guidelines for future treatment policies. In this paper, the authors summarize the experimental findings and review the pathologic and clinical features of brain injury caused by interstitial brachytherapy. A number of studies in the older literature examined the effects of radioisotopes such as radium-226 (38--43), radon-22 (44--46), gold-198 (29,47--50), tantalum-182 (29,51,52) yttrium-9- (50,53,54), and cobalt-60 (29,50,55). This review is restricted to low- and high-activity encapsulated iodine-125 (125I) and iridium-192 (192Ir), the isotopes that are most commonly used in current clinical practice

  13. Regional brain morphometry predicts memory rehabilitation outcome after traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Gary E Strangman

    2010-10-01

    Full Text Available Cognitive deficits following traumatic brain injury (TBI commonly include difficulties with memory, attention, and executive dysfunction. These deficits are amenable to cognitive rehabilitation, but optimally selecting rehabilitation programs for individual patients remains a challenge. Recent methods for quantifying regional brain morphometry allow for automated quantification of tissue volumes in numerous distinct brain structures. We hypothesized that such quantitative structural information could help identify individuals more or less likely to benefit from memory rehabilitation. Fifty individuals with TBI of all severities who reported having memory difficulties first underwent structural MRI scanning. They then participated in a 12 session memory rehabilitation program emphasizing internal memory strategies (I-MEMS. Primary outcome measures (HVLT, RBMT were collected at the time of the MRI scan, immediately following therapy, and again at one month post-therapy. Regional brain volumes were used to predict outcome, adjusting for standard predictors (e.g., injury severity, age, education, pretest scores. We identified several brain regions that provided significant predictions of rehabilitation outcome, including the volume of the hippocampus, the lateral prefrontal cortex, the thalamus, and several subregions of the cingulate cortex. The prediction range of regional brain volumes were in some cases nearly equal in magnitude to prediction ranges provided by pretest scores on the outcome variable. We conclude that specific cerebral networks including these regions may contribute to learning during I-MEMS rehabilitation, and suggest that morphometric measures may provide substantial predictive value for rehabilitation outcome in other cognitive interventions as well.

  14. Differential role of tumor necrosis factor receptors in mouse brain inflammatory responses in cryolesion brain injury

    DEFF Research Database (Denmark)

    Quintana, Albert; Giralt, Mercedes; Rojas, Santiago;

    2005-01-01

    Tumor necrosis factor-alpha (TNF-alpha) is one of the mediators dramatically increased after traumatic brain injury that leads to the activation, proliferation, and hypertrophy of mononuclear, phagocytic cells and gliosis. Eventually, TNF-alpha can induce both apoptosis and necrosis via intracell......Tumor necrosis factor-alpha (TNF-alpha) is one of the mediators dramatically increased after traumatic brain injury that leads to the activation, proliferation, and hypertrophy of mononuclear, phagocytic cells and gliosis. Eventually, TNF-alpha can induce both apoptosis and necrosis via...... intracellular signaling. This cytokine exerts its functions via interaction with two receptors: type-1 receptor (TNFR1) and type-2 receptor (TNFR2). In this work, the inflammatory response after a freeze injury (cryolesion) in the cortex was studied in wild-type (WT) animals and in mice lacking TNFR1 (TNFR1 KO...... affected by TNFR1 deficiency. Overall, these results suggest that TNFR1 is involved in the early establishment of the inflammatory response and that its deficiency causes a decreased inflammatory response and tissue damage following brain injury....

  15. Berberine Protects against Neuronal Damage via Suppression of Glia-Mediated Inflammation in Traumatic Brain Injury

    OpenAIRE

    Chien-Cheng Chen; Tai-Ho Hung; Chao Yu Lee; Liang-Fei Wang; Chun-Hu Wu; Chia-Hua Ke; Szu-Fu Chen

    2014-01-01

    Traumatic brain injury (TBI) triggers a series of neuroinflammatory processes that contribute to evolution of neuronal injury. The present study investigated the neuroprotective effects and anti-inflammatory actions of berberine, an isoquinoline alkaloid, in both in vitro and in vivo TBI models. Mice subjected to controlled cortical impact injury were injected with berberine (10 mg·kg(-1)) or vehicle 10 min after injury. In addition to behavioral studies and histology analysis, blood-brain ba...

  16. Astrocytic Ephrin-B1 Regulates Synapse Remodeling Following Traumatic Brain Injury

    OpenAIRE

    Nikolakopoulou, Angeliki M.; Koeppen, Jordan; Garcia, Michael; Leish, Joshua; Obenaus, Andre; Iryna M Ethell

    2016-01-01

    Traumatic brain injury (TBI) can result in tissue alterations distant from the site of the initial injury, which can trigger pathological changes within hippocampal circuits and are thought to contribute to long-term cognitive and neuropsychological impairments. However, our understanding of secondary injury mechanisms is limited. Astrocytes play an important role in brain repair after injury and astrocyte-mediated mechanisms that are implicated in synapse development are likely important in ...

  17. Personality Change due to Traumatic Brain Injury in Children and Adolescents: Neurocognitive Correlates

    OpenAIRE

    Wilde, Elisabeth A.; Bigler, Erin D; Hanten, Gerri; Dennis, Maureen; Schachar, Russell J.; Saunders, Ann E.; Ewing-Cobbs, Linda; Chapman, Sandra B.; Wesley K. Thompson; Yang, Tony T.; Levin, Harvey S.

    2015-01-01

    Personality Change due to traumatic brain injury (PC) in children is an important psychiatric complication of injury and is a form of severe affective dysregulation. The aim of the study was to examine neurocognitive correlates of PC. The sample included children (n=177) aged 5-14 years with traumatic brain injury from consecutive admissions to 5 trauma centers were followed prospectively at baseline and 6 months with semi-structured psychiatric interviews. Injury severity, socioeconomic stat...

  18. Late exercise reduces neuroinflammation and cognitive dysfunction after traumatic brain injury

    OpenAIRE

    Piao, Chun-Shu; Stoica, Bogdan A.; Wu, Junfang; Sabirzhanov, Boris; Zhao, Zaorui; Cabatbat, Rainier; Loane, David J.; Faden, Alan I.

    2013-01-01

    Delayed secondary biochemical and cellular changes after traumatic brain injury continue for months to years, and are associated with chronic neuroinflammation and progressive neurodegeneration. Physical activity can reduce inflammation and facilitate recovery after brain injury. Here, we investigated the time-dependent effects, and underlying mechanisms of post-traumatic exercise initiation on outcome after moderate traumatic brain injury using a well-characterized mouse controlled cortical ...

  19. Impaired Cerebral Autoregulation during Head Up Tilt in Patients with Severe Brain Injury

    OpenAIRE

    Riberholt, Christian Gunge; Olesen, Niels Damkjær; Thing, Mira; Juhl, Carsten Bogh; Mehlsen, Jesper; Petersen, Tue Hvass

    2016-01-01

    Early mobilization is of importance for improving long-term outcome for patients after severe acquired brain injury. A limiting factor for early mobilization by head-up tilt is orthostatic intolerance. The purpose of the present study was to examine cerebral autoregulation in patients with severe acquired brain injury and a low level of consciousness. Fourteen patients with severe acquired brain injury and orthostatic intolerance and fifteen healthy volunteers were enrolled. Blood pressure wa...

  20. Outcome from Complicated versus Uncomplicated Mild Traumatic Brain Injury.

    Science.gov (United States)

    Iverson, Grant L; Lange, Rael T; Wäljas, Minna; Liimatainen, Suvi; Dastidar, Prasun; Hartikainen, Kaisa M; Soimakallio, Seppo; Ohman, Juha

    2012-01-01

    Objective. To compare acute outcome following complicated versus uncomplicated mild traumatic brain injury (MTBI) using neurocognitive and self-report measures. Method. Participants were 47 patients who presented to the emergency department of Tampere University Hospital, Finland. All completed MRI scanning, self-report measures, and neurocognitive testing at 3-4 weeks after injury. Participants were classified into the complicated MTBI or uncomplicated MTBI group based on the presence/absence of intracranial abnormality on day-of-injury CT scan or 3-4 week MRI scan. Results. There was a large statistically significant difference in time to return to work between groups. The patients with uncomplicated MTBIs had a median of 6.0 days (IQR = 0.75-14.75, range = 0-77) off work compared to a median of 36 days (IQR = 13.5-53, range = 3-315) for the complicated group. There were no significant differences between groups for any of the neurocognitive or self-report measures. There were no differences in the proportion of patients who (a) met criteria for ICD-10 postconcussional disorder or (b) had multiple low scores on the neurocognitive measures. Conclusion. Patients with complicated MTBIs took considerably longer to return to work. They did not perform more poorly on neurocognitive measures or report more symptoms, at 3-4 weeks after injury compared to patients with uncomplicated MTBIs. PMID:22577556

  1. Outcome from Complicated versus Uncomplicated Mild Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Grant L. Iverson

    2012-01-01

    Full Text Available Objective. To compare acute outcome following complicated versus uncomplicated mild traumatic brain injury (MTBI using neurocognitive and self-report measures. Method. Participants were 47 patients who presented to the emergency department of Tampere University Hospital, Finland. All completed MRI scanning, self-report measures, and neurocognitive testing at 3-4 weeks after injury. Participants were classified into the complicated MTBI or uncomplicated MTBI group based on the presence/absence of intracranial abnormality on day-of-injury CT scan or 3-4 week MRI scan. Results. There was a large statistically significant difference in time to return to work between groups. The patients with uncomplicated MTBIs had a median of 6.0 days (IQR = 0.75–14.75, range = 0–77 off work compared to a median of 36 days (IQR = 13.5–53, range = 3–315 for the complicated group. There were no significant differences between groups for any of the neurocognitive or self-report measures. There were no differences in the proportion of patients who (a met criteria for ICD-10 postconcussional disorder or (b had multiple low scores on the neurocognitive measures. Conclusion. Patients with complicated MTBIs took considerably longer to return to work. They did not perform more poorly on neurocognitive measures or report more symptoms, at 3-4 weeks after injury compared to patients with uncomplicated MTBIs.

  2. Molecular Mechanisms of Cognitive Dysfunction following Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Kendall Rae Walker

    2013-07-01

    Full Text Available Traumatic brain injury (TBI results in significant disability due to cognitive deficits particularly in attention, learning and memory and higher-order executive functions. The role of TBI in chronic neurodegeneration and the development of neurodegenerative diseases including Alzheimer’s disease (AD, Parkinson’s disease (PD, Amyotrophic Lateral Sclerosis (ALS and most recently chronic traumatic encephalopathy (CTE is of particular importance. However, despite significant effort very few therapeutic options exist to prevent or reverse cognitive impairment following TBI. In this review we present experimental evidence of the known secondary injury mechanisms which contribute to neuronal cell loss, axonal injury and synaptic dysfunction and hence cognitive impairment both acutely and chronically following TBI. In particular we focus on the mechanisms linking TBI to the development of two forms of dementia: AD and CTE. We provide evidence of potential molecular mechanisms involved in modulating Aβ and Tau following TBI and provide evidence of the role of these mechanisms in AD pathology. Additionally we propose a mechanism by which Aβ generated as a direct result of TBI is capable of exacerbating secondary injury mechanisms thereby establishing a neurotoxic cascade that leads to chronic neurodegeneration.

  3. Traumatic brain injury impairs synaptic plasticity in hippocampus in rats

    Institute of Scientific and Technical Information of China (English)

    ZHANG Bao-liang; CHEN Xin; TAN Tao; YANG Zhuo; CARLOS Dayao; JIANG Rong-cai; ZHANG Jian-ning

    2011-01-01

    Background Traumatic brain injury (TBl) often causes cognitive deficits and remote symptomatic epilepsy.Hippocampal regional excitability is associated with the cognitive function. However, little is known about injury-induced neuronal loss and subsequent alterations of hippocampal regional excitability. The present study was designed to determine whether TBl may impair the cellular circuit in the hippocampus.Methods Forty male Wistar rats were randomized into control (n=20) and TBl groups (n=20). Long-term potentiation,extracellular input/output curves, and hippocampal parvalbumin-immunoreactive and cholecystokinin-immunoreactive interneurons were compared between the two groups.Results TBI resulted in a significantly increased excitability in the dentate gyrus (DG), but a significantly decreased excitability in the cornu ammonis 1 (CA1) area. Using design-based stereological injury procedures, we induced interneuronal loss in the DG and CA3 subregions in the hippocampus, but not in the CA1 area.Conclusions TBl leads to the impairment of hippocampus synaptic plasticity due to the changing of interneuronal interaction. The injury-induced disruption of synaptic efficacy within the hippocampal circuit may underlie the observed cognitive deficits and symptomatic epilepsy.

  4. Head motions while riding roller coasters: implications for brain injury.

    Science.gov (United States)

    Pfister, Bryan J; Chickola, Larry; Smith, Douglas H

    2009-12-01

    The risk of traumatic brain injury (TBI) while riding roller coasters has received substantial attention. Case reports of TBI around the time of riding roller coasters have led many medical professionals to assert that the high gravitational forces (G-forces) induced by roller coasters pose a significant TBI risk. Head injury research, however, has shown that G-forces alone cannot predict TBI. Established head injury criterions and procedures were employed to compare the potential of TBI between daily activities and roller coaster riding. Three-dimensional head motions were measured during 3 different roller coaster rides, a pillow fight, and car crash simulations. Data was analyzed and compared with published data, using similar analyses of head motions. An 8.05 m/s car crash lead to the largest head injury criterion measure of 28.1 and head impact power of 3.41, over 6 times larger than the roller coaster rides of 4.1 and 0.36. Notably, the linear and rotational components of head acceleration during roller coaster rides were milder than those induced by many common activities. As such, there appears to be an extremely low risk of TBI due to the head motions induced by roller coaster rides. PMID:19901817

  5. Structural Neuroimaging Findings in Mild Traumatic Brain Injury.

    Science.gov (United States)

    Bigler, Erin D; Abildskov, Tracy J; Goodrich-Hunsaker, Naomi J; Black, Garrett; Christensen, Zachary P; Huff, Trevor; Wood, Dawn-Marie G; Hesselink, John R; Wilde, Elisabeth A; Max, Jeffrey E

    2016-09-01

    Common neuroimaging findings in mild traumatic brain injury (mTBI), including sport-related concussion (SRC), are reviewed based on computed tomography and magnetic resonance imaging (MRI). Common abnormalities radiologically identified on the day of injury, typically a computed tomographic scan, are in the form of contusions, small subarachnoid or intraparenchymal hemorrhages as well as subdural and epidural collections, edema, and skull fractures. Common follow-up neuroimaging findings with MRI include white matter hyperintensities, hypointense signal abnormalities that reflect prior hemorrhage, focal encephalomalacia, presence of atrophy and/or dilated Virchow-Robins perivascular space. The MRI findings from a large pediatric mTBI study show low frequency of positive MRI findings at 6 months postinjury. The review concludes with an examination of some of the advanced MRI-based image analysis methods that can be performed in the patient who has sustained an mTBI. PMID:27482782

  6. Structural changes in the brain according to CT findings in children with long-term consequences of closed brain injury

    International Nuclear Information System (INIS)

    Long-term structural changes in the brain substance after closed brain injury (CBI) in children using computerized tomography was studied. 30 patients aged 11-18 with CBI with favourable and unfavourable course was examined. The obtained findings suggest a complicated picture of the reaction of the involved brain. The degree of neurologic signs and the type of traumatic injuries depend on the degree of structural changes

  7. Etanercept Attenuates Traumatic Brain Injury in Rats by Reducing Brain TNF-α Contents and by Stimulating Newly Formed Neurogenesis

    OpenAIRE

    Chong-Un Cheong; Ching-Ping Chang; Chien-Ming Chao; Bor-Chih Cheng; Chung-Zhing Yang; Chung-Ching Chio

    2013-01-01

    It remains unclear whether etanercept penetrates directly into the contused brain and improves the outcomes of TBI by attenuating brain contents of TNF- α and/or stimulating newly formed neurogenesis. Rats that sustained TBI are immediately treated with etanercept. Acute neurological and motor injury is assessed in all rats the day prior to and 7 days after surgery. The numbers of the colocalizations of 5-bromodeoxyuridine and doublecortin specific markers in the contused brain injury that oc...

  8. Magnetic resonance imaging and cell-based neurorestorative therapy after brain injury

    Institute of Scientific and Technical Information of China (English)

    Quan Jiang

    2016-01-01

    Restorative cell-based therapies for experimental brain injury, such as stroke and traumatic brain injury, substantially improve functional outcome. We discuss and review state of the art magnetic resonance im-aging methodologies and their applications related to cell-based treatment after brain injury. We focus on the potential of magnetic resonance imaging technique and its associated challenges to obtain useful new information related to cell migration, distribution, and quantitation, as well as vascular and neuronal remodeling in response to cell-based therapy after brain injury. The noninvasive nature of imaging might more readily help with translation of cell-based therapy from the laboratory to the clinic.

  9. Magnetic resonance imaging and cell-based neurorestorative therapy after brain injury

    Directory of Open Access Journals (Sweden)

    Quan Jiang

    2016-01-01

    Full Text Available Restorative cell-based therapies for experimental brain injury, such as stroke and traumatic brain injury, substantially improve functional outcome. We discuss and review state of the art magnetic resonance imaging methodologies and their applications related to cell-based treatment after brain injury. We focus on the potential of magnetic resonance imaging technique and its associated challenges to obtain useful new information related to cell migration, distribution, and quantitation, as well as vascular and neuronal remodeling in response to cell-based therapy after brain injury. The noninvasive nature of imaging might more readily help with translation of cell-based therapy from the laboratory to the clinic.

  10. Accelerated recovery from acute brain injuries: clinical efficacy of neurotrophic treatment in stroke and traumatic brain injuries.

    Science.gov (United States)

    Bornstein, N; Poon, W S

    2012-04-01

    Stroke is one of the most devastating vascular diseases in the world as it is responsible for almost five million deaths per year. Almost 90% of all strokes are ischemic and mainly due to atherosclerosis, cardiac embolism and small-vessel disease. Intracerebral or subarachnoid hemorrhage can lead to hemorrhagic stroke, which usually has the poorest prognosis. Cerebrolysin is a peptide preparation which mimics the action of a neurotrophic factor, protecting stroke-injured neurons and promoting neuroplasticity and neurogenesis. Cerebrolysin has been widely studied as a therapeutic tool for both ischemic and hemorrhagic stroke, as well as traumatic brain injury. In ischemic stroke, Cerebrolysin given as an adjuvant therapy to antiplatelet and rheologically active medication resulted in accelerated improvement in global, neurological and motor functions, cognitive performance and activities of daily living. Cerebrolysin was also safe and well tolerated when administered in patients suffering from hemorrhagic stroke. Traumatic brain injury leads to transient or chronic impairments in physical, cognitive, emotional and behavioral functions. This is associated with deficits in the recognition of basic emotions, the capacity to interpret the mental states of others, and executive functioning. Pilot clinical studies with adjuvant Cerebrolysin in the acute and postacute phases of the injury have shown faster recovery, which translates into an earlier onset of rehabilitation and shortened hospitalization time. PMID:22514794

  11. Correlation of cell apoptosis with brain edema and elevated intracranial pressure in traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    YANG Xiao-feng; LIU Wei-guo; SHEN Hong; GONG Jiang-biao; YU Jun; HU Wei-wei; L(U) Shi-ting; ZHENG Xiu-jue; FU Wei-ming

    2005-01-01

    Objective: To study the correlation between brain edema, elevated intracranial pressure (ICP) and cell apoptosis in traumatic brain injury (TBI). Methods: In this study, totally 42 rabbits in 7 groups were studied. Six of the animals were identified as a control group, and the remaining 36 animals were equally divided into 6 TBI groups. TBI models were produced by the modified method of Feeney. After the impact, ICP of each subject was recorded continuously by an ICP monitor until the animal was sacrificed at scheduled time. The apoptotic brain cells were detected by an terminal deoxynucleotide-transferase-mediated dUTP-digoxigenin nick end labeling (TUNEL) assay. Cerebral water content (CWC) was measured with a drying method and calculated according to the Elliott formula. Then, an analysis was conducted to determine the correlation between the count of apoptotic cells and the clinical pathological changes of the brain. Results: Apoptotic cell count began to increase 2 h after the impact, and reached its maximum about 3 days after the impact. The peak value of CWC and ICP appeared 1 day and 3 days after the impact, respectively. Apoptotic cell count had a positive correlation with CWC and ICP. Conclusions: In TBI, occurrence of brain edema and ICP increase might lead to apoptosis of brain cells. Any therapy which can relieve brain edema and/or decrease ICP would be able to reduce neuron apoptosis, thereby to attenuate the secondary brain damage.

  12. Gesture Based Educational Software for Children with Acquired Brain Injuries

    Directory of Open Access Journals (Sweden)

    Er. Zainab Pirani

    2010-05-01

    Full Text Available " GESBI” is gesture based audio visual teaching tool designed to help children with acquired brain injuries, providing hours of entertainment in a play-and-learn environment while introducing the foundation skills in basic arithmetic, spelling, reading and solving puzzles. These children communicate with the computer via gestures based on my previous research paper “KONCERN- Hand Gesture Recognition for Physically Impaired” in which gestures are captured by camera and processed without the need of wearing any sensor based gloves etc.

  13. Temporal-spatial feature of gait after traumatic brain injury.

    Science.gov (United States)

    Ochi, F; Esquenazi, A; Hirai, B; Talaty, M

    1999-04-01

    The temporal-spatial characteristics of the gait of patients with traumatic brain injury (TBI) were investigated and compared with those of normal gait and the gait of stroke survivors. A slower walking velocity is evident in the TBI population when compared with normal. The average walking speed of TBI survivors is faster than that of stroke patients and is mainly related to a longer step length. TBI survivors produce a gait pattern with a prolonged stance period for the unaffected limb, without prolonged stance period for the affected limb, and a shorter step length for the unaffected limb. PMID:10191370

  14. A patients perspective on eating difficulties following brain injury

    DEFF Research Database (Denmark)

    Kjaersgaard, Annette; Kristensen, Hanne Kaae; Borg, Tove

    Purpose: The aim of this study is to explore and interpret how persons with acquired brain injury (ABI) experience and adapt to reduced abilities to swallowing and eating - and clinical implications. Method: Explorative multiple-case study with qualitative interviews of six persons following ABI...... from the analysis: individual psychological assets, swallowing and ingestion, eating and drinking, communication and meals, rehabilitation of swallowing and eating. Three predominating sub-themes were: feeding by tube, difficulties in swallowing and meals with social interactions, and inpatient...

  15. 78 FR 28546 - Secondary Service Connection for Diagnosable Illnesses Associated With Traumatic Brain Injury

    Science.gov (United States)

    2013-05-15

    ... Traumatic Brain Injury Correction In proposed rule document 2012-29709 beginning on page 73366 in the issue...: Structural imaging of the brain. LOC--Loss of consciousness. AOC--Alteration of consciousness/mental...

  16. Sleep Doesn't Come Easy to Those with Brain Injuries

    Science.gov (United States)

    ... page: https://medlineplus.gov/news/fullstory_158527.html Sleep Doesn't Come Easy to Those With Brain ... who suffer a traumatic brain injury struggle with sleep problems they may not be aware of, Swiss ...

  17. Strongly compromised inflammatory response to brain injury in interleukin-6-deficient mice

    DEFF Research Database (Denmark)

    Penkowa, M; Moos, T; Carrasco, J;

    1999-01-01

    response in the brain following disruption of the blood-brain barrier (BBB), we examined the effects of a focal cryo injury to the fronto-parietal cortex in interleukin-6-deficient (IL-6-/-) and normal (IL-6+/+) mice. In IL-6+/+ mice, brain injury resulted in the appearance of brain macrophages and...... brain macrophages and reactive astrocytes was markedly depressed and the number of NSE positive neurons was reduced. Brain damage-induced GM-CSF and MT-I+II expression were also markedly depressed compared to IL-6+/+ mice. In contrast, MT-III immunoreactivity was markedly increased in brain macrophages...

  18. Assessing Neuro-Systemic & Behavioral Components in the Pathophysiology of Blast-Related Brain Injury

    OpenAIRE

    Kobeissy, Firas; Mondello, Stefania; Tümer, Nihal; Toklu, Hale Z.; Whidden, Melissa A; Kirichenko, Nataliya; Zhang, Zhiqun; Prima, Victor; Yassin, Walid; Anagli, John; Chandra, Namas; Svetlov, Stan; Wang, Kevin K. W.

    2013-01-01

    Among the U.S. military personnel, blast injury is among the leading causes of brain injury. During the past decade, it has become apparent that even blast injury as a form of mild traumatic brain injury (mTBI) may lead to multiple different adverse outcomes, such as neuropsychiatric symptoms and long-term cognitive disability. Blast injury is characterized by blast overpressure, blast duration, and blast impulse. While the blast injuries of a victim close to the explosion will be severe, maj...

  19. Assessing Neuro-Systemic & Behavioral Components in the Pathophysiology of Blast-Related Brain Injury

    OpenAIRE

    Firas H Kobeissy; Stefania eMondello; Nihal eTumer; Toklu, Hale Z.; Whidden, Melissa A; Nataliya eKirichenko; Zhiqun eZhang; Victor ePrima; Walid eYassin; Chandra eNamas; John eAnagli; Stanislav eSvetlov; Wang, Kevin K. W.

    2013-01-01

    Among the U.S. military personnel, blast injury is among the leading causes of brain injury. During the past decade, it has become apparent that even blast injury as a form of mild traumatic brain injury (mTBI) may lead to multiple different adverse outcomes, such as neuropsychiatric symptoms and long-term cognitive disability. Blast injury is characterized by blast overpressure (BOP), blast duration, and blast impulse. While the blast injuries of a victim close to the explosion will be sever...

  20. Clinical utility of brain stimulation modalities following traumatic brain injury: current evidence

    Directory of Open Access Journals (Sweden)

    Li S

    2015-06-01

    Full Text Available Shasha Li,1,2 Ana Luiza Zaninotto,2,3 Iuri Santana Neville,4 Wellingson Silva Paiva,4 Danuza Nunn,2 Felipe Fregni21Department of Rehabilitation Medicine, West China Hospital, Sichuan University, Chengdu, Sichuan, People’s Republic of China; 2Spaulding Neuromodulation Center, Harvard Medical School, Boston, MA, USA; 3Division of Psychology, Hospital das Clínicas, University of São Paulo, São Paulo, Brazil; 4Division of Neurosurgery, University of São Paulo Medical School, São Paulo, São Paulo, BrazilAbstract: Traumatic brain injury (TBI remains the main cause of disability and a major public health problem worldwide. This review focuses on the neurophysiology of TBI, and the rationale and current state of evidence of clinical application of brain stimulation to promote TBI recovery, particularly on consciousness, cognitive function, motor impairments, and psychiatric conditions. We discuss the mechanisms of different brain stimulation techniques including major noninvasive and invasive stimulations. Thus far, most noninvasive brain stimulation interventions have been nontargeted and focused on the chronic phase of recovery after TBI. In the acute stages, there is limited available evidence of the efficacy and safety of brain stimulation to improve functional outcomes. Comparing the studies across different techniques, transcranial direct current stimulation is the intervention that currently has the higher number of properly designed clinical trials, though total number is still small. We recognize the need for larger studies with target neuroplasticity modulation to fully explore the benefits of brain stimulation to effect TBI recovery during different stages of recovery.Keywords: traumatic brain injury, brain stimulation, neuroplasticity

  1. Resveratrol attenuates peripheral and brain inflammation and reduces ischemic brain injury in aged female mice.

    Science.gov (United States)

    Jeong, Sae Im; Shin, Jin A; Cho, Sunghee; Kim, Hye Won; Lee, Ji Yoon; Kang, Jihee Lee; Park, Eun-Mi

    2016-08-01

    Resveratrol is known to improve metabolic dysfunction associated with obesity. Visceral obesity is a sign of aging and is considered a risk factor for ischemic stroke. In this study, we investigated the effects of resveratrol on inflammation in visceral adipose tissue and the brain and its effects on ischemic brain injury in aged female mice. Mice treated with resveratrol (0.1 mg/kg, p.o.) for 10 days showed reduced levels of interleukin-1β and tumor necrosis factor-α, as well as a reduction in the size of adipocytes in visceral adipose tissue. Resveratrol also reduced interleukin-1β and tumor necrosis factor-α protein levels and immunoglobulin G extravasation in the brain. Mice treated with resveratrol demonstrated smaller infarct size, improved neurological function, and blunted peripheral inflammation at 3 days postischemic stroke. These results showed that resveratrol counteracted inflammation in visceral adipose tissue and in the brain and reduced stroke-induced brain injury and peripheral inflammation in aged female mice. Therefore, resveratrol administration can be a valuable strategy for the prevention of age-associated and disease-provoked inflammation in postmenopausal women. PMID:27318135

  2. Recovery from Mild Traumatic Brain Injury in Previously Healthy Adults.

    Science.gov (United States)

    Losoi, Heidi; Silverberg, Noah D; Wäljas, Minna; Turunen, Senni; Rosti-Otajärvi, Eija; Helminen, Mika; Luoto, Teemu M; Julkunen, Juhani; Öhman, Juha; Iverson, Grant L

    2016-04-15

    This prospective longitudinal study reports recovery from mild traumatic brain injury (MTBI) across multiple domains in a carefully selected consecutive sample of 74 previously healthy adults. The patients with MTBI and 40 orthopedic controls (i.e., ankle injuries) completed assessments at 1, 6, and 12 months after injury. Outcome measures included cognition, post-concussion symptoms, depression, traumatic stress, quality of life, satisfaction with life, resilience, and return to work. Patients with MTBI reported more post-concussion symptoms and fatigue than the controls at the beginning of recovery, but by 6 months after injury, did not differ as a group from nonhead injury trauma controls on cognition, fatigue, or mental health, and by 12 months, their level of post-concussion symptoms and quality of life was similar to that of controls. Almost all (96%) patients with MTBI returned to work/normal activities (RTW) within the follow-up of 1 year. A subgroup of those with MTBIs and controls reported mild post-concussion-like symptoms at 1 year. A large percentage of the subgroup who had persistent symptoms had a modifiable psychological risk factor at 1 month (i.e., depression, traumatic stress, and/or low resilience), and at 6 months, they had greater post-concussion symptoms, fatigue, insomnia, traumatic stress, and depression, and worse quality of life. All of the control subjects who had mild post-concussion-like symptoms at 12 months also had a mental health problem (i.e., depression, traumatic stress, or both). This illustrates the importance of providing evidence-supported treatment and rehabilitation services early in the recovery period. PMID:26437675

  3. Magnetic resonance imaging research progress on brain functional reorganization after peripheral nerve injury

    International Nuclear Information System (INIS)

    In the recent years, with the development of functional magnetic resonance imaging technology the brain plasticity and functional reorganization are hot topics in the central nervous system imaging studies. Brain functional reorganization and rehabilitation after peripheral nerve injury may have certain regularity. In this paper, the progress of brain functional magnetic resonance imaging technology and its applications in the world wide clinical and experimental researches of the brain functional reorganization after peripheral nerve injury is are reviewed. (authors)

  4. SPECT brain perfusion findings in mild or moderate traumatic brain injury

    International Nuclear Information System (INIS)

    Background: The purpose of this manuscript is to present the findings in the largest series of SPECT brain perfusion imaging reported to date for mild or moderate traumatic brain injury. PATIENTS AND METHODS: This is a retrospective evaluation of 228 SPECT brain perfusion-imaging studies of patients who suffered mild or moderate traumatic brain injury with or without loss of consciousness (LOC). All patients had no past medical history of previous brain trauma, neurological, or psychiatric diseases, HIV, alcohol or drug abuse. The patient population included 135 males and 93 females. The ages ranged from 11-88 years (mean 40.8). The most common complaints were characteristic of the postconcussion syndrome: headaches 139/228 (61%); dizziness 61/228 (27%); and memory problems 63/228 (28%). LOC status was reported to be positive in 121/228 (53%), negative in 41/228 (18%), and unknown for 63/228 (28%). RESULTS: Normal studies accounted for 52/228 (23%). For abnormal studies (176/228 or 77%) the findings were as follows: basal ganglia hypoperfusion 338 lesions (55.2%); frontal lobe hypoperfusion 146 (23.8%); temporal lobes hypoperfusion 80 (13%); parietal lobes hypoperfusion 20 (3.7%); insular and or occipital lobes hypoperfusion 28 (4.6%). Patients' symptoms correlated with the SPECT brain perfusion findings. The SPECT BPI studies in 122/228 (54%) were done early within 3 months of the date of the accident, and for the remainder, 106/228 (46%) over 3 months and less than 3 years from the date of the injury. In early imaging, 382 lesions were detected; in 92 patients (average 4.2 lesions per study) imaging after 3 months detected 230 lesions: in 84 patients (average 2.7 lesions per study). CONCLUSIONS: Basal ganglia hypoperfusion is the most common abnormality following mild or moderate traumatic brain injury (p = 0.006), and is more common in patients complaining of memory problem (p = 0.0005) and dizziness (p = 0.003). Early imaging can detect more lesions than

  5. The role of markers of inflammation in traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Thomas eWoodcock

    2013-03-01

    Full Text Available Within minutes of a traumatic impact, a robust inflammatory response is elicited in the injured brain. The complexity of this post-traumatic squeal involves a cellular component, comprising the activation of resident glial cells, microglia and astrocytes, and the infiltration of blood leukocytes. The second component regards the secretion immune mediators, which can be divided into the following sub-groups: the archetypal pro-inflammatory cytokines (IL-1, TNF, IL-6, the anti-inflammatory cytokines (IL-4, IL-10 and TGF-beta and the chemotactic cytokines or chemokines, which specifically drive the accumulation of parenchymal and peripheral immune cells in the injured brain region. Such mechanisms have been demonstrated in animal models, mostly in rodents, as well as in human brain. Whilst the humoral immune response is particularly pronounced in the acute phase following TBI, the activation of glial cells seems to be a rather prolonged effect lasting for several months. The complex interaction of cytokines and cell types installs a network of events, which subsequently intersect with adjacent pathological cascades including oxidative stress, excitotoxicity, or reparative events including angiogenesis, scarring and neurogenesis. It is well accepted that neuroinflammation is responsible of beneficial and detrimental effects, contributing to secondary brain damage but also facilitating neurorepair.Although such mediators are clear markers of immune activation, to what extent cytokines can be defined as diagnostic factors reflecting brain injury or as predictors of long term outcome needs to be further substantiated. In clinical studies some groups reported a proportional cytokine production in either the cerebrospinal fluid or intraparenchymal tissue with initial brain damage, mortality or poor outcome scores. However, the validity of cytokines as biomarkers is not broadly accepted. This review article will discuss the evidence from both clinical and

  6. Brain response to traumatic brain injury in wild-type and interleukin-6 knockout mice: a microarray analysis

    DEFF Research Database (Denmark)

    Poulsen, Christian Bjørn; Penkowa, Milena; Borup, Rehannah; Nielsen, Finn Cilius; Cáceres, Mario; Quintana, Albert; Molinero, Amalia; Carrasco, Javier; Giralt, Mercedes; Hidalgo, Juan

    2005-01-01

    Traumatic injury to the brain is one of the leading causes of injury-related death or disability. Brain response to injury is orchestrated by cytokines, such as interleukin (IL)-6, but the full repertoire of responses involved is not well known. We here report the results obtained with microarrays...... processes involved in the initial tissue injury and later regeneration of the parenchyma. IL-6 deficiency showed a dramatic effect in the expression of many genes, especially in the 1 day post-lesion timing, which presumably underlies the poor capacity of IL-6 knockout mice to cope with brain damage. The...... results highlight the importance of IL-6 controlling the response of the brain to injury as well as the suitability of microarrays for identifying specific targets worthy of further study....

  7. Traumatic brain injury patients: does frontal brain lesion influence basic emotion recognition?

    OpenAIRE

    A.T. Martins; Faísca, L.; Esteves, F.; A. Muresan; Justo, M.; Simão, C.; Reis, A.

    2011-01-01

    Adequate emotion recognition is relevant to individuals’ interpersonal communication. Patients with frontal traumatic brain injury (TBI) exhibit a lower response to facial emotional stimuli, influencing social interactions. In this sense, the main goal of the current study was to assess the ability of TBI patients in recognizing basic emotions. Photographs of facial expressions of five basic emotions (happiness, sadness, fear, anger, and surprise) were presented to 32 TBI patients an...

  8. Pharmacotherapy in rehabilitation of post-acute traumatic brain injury.

    Science.gov (United States)

    Bhatnagar, Saurabha; Iaccarino, Mary Alexis; Zafonte, Ross

    2016-06-01

    There are nearly 1.8 million annual emergency room visits and over 289,000 annual hospitalizations related to traumatic brain injury (TBI). The goal of this review article is to highlight pharmacotherapies that we often use in the clinic that have been shown to benefit various sequelae of TBI. We have decided to focus on sequelae that we commonly encounter in our practice in the post-acute phase after a TBI. These symptoms are hyper-arousal, agitation, hypo-arousal, inattention, slow processing speed, memory impairment, sleep disturbance, depression, headaches, spasticity, and paroxysmal sympathetic hyperactivity. In this review article, the current literature for the pharmacological management of these symptoms are mentioned, including medications that have not had success and some ongoing trials. It is clear that the pharmacological management specific to those with TBI is often based on small studies and that often treatment is based on assumptions of how similar conditions are managed when not relating to TBI. As the body of the literature expands and targeted treatments start to emerge for TBI, the function of pharmacological management will need to be further defined. This article is part of a Special Issue entitled SI:Brain injury and recovery. PMID:26801831

  9. Percutaneous dilatational tracheostomy for ICU patients with severe brain injury

    Institute of Scientific and Technical Information of China (English)

    Ai Xiaoshun; Gou Dongyuan; Zhang Li; Chen Liying

    2014-01-01

    Objective: To sum up our experience in percutaneous dilatational tracheostomy (PDT) in ICU patient with severe brain injury. Methods: Between November 2011 and April 2014, PDTs were performed on 32 severe brain injury patients in ICU by a team of physicians and intensivists. The success rate, efficacy, safety, and complications including stomal infection and bleeding, paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, as well as clinically significant tracheal stenosis were carefully monitored and recorded respectively. Results: The operations took 4-15 minutes (mean 9.1 minutes±4.2 minutes). Totally 4 cases suffered from complications in the operations: 3 cases of stomal bleeding, and 1 case of intratracheal bloody secretion, but none required intervention. Paratracheal insertion, pneumothorax, pneumomediastinum, tracheal laceration, or clinically significant tracheal stenosis were not found in PDT patients. There was no procedure-related death occurring during or after PDT. Conclusion: Our study demonstrats that PDT is a safe, highly effective, and minimally invasive procedure. The appropriate sedation and airway management perioperatively help to reduce complication rates. PDT should be performed or supervised by a team of physicians with extensive experience in this procedure, and also an intensivist with experience in difficult airway management.

  10. Traumatic brain injury: future assessment tools and treatment prospects

    Directory of Open Access Journals (Sweden)

    Steven R Flanagan

    2008-10-01

    Full Text Available Steven R Flanagan1, Joshua B Cantor2, Teresa A Ashman21New York University School of Medicine, The Rusk Institute of Rehabilitation, New York, NY, USA; 2Department of Rehabilitation Medicine, Mount Sinai School of Medicine, New York, NY, USAAbstract: Traumatic brain injury (TBI is widespread and leads to death and disability in millions of individuals around the world each year. Overall incidence and prevalence of TBI are likely to increase in absolute terms in the future. Tackling the problem of treating TBI successfully will require improvements in the understanding of normal cerebral anatomy, physiology, and function throughout the lifespan, as well as the pathological and recuperative responses that result from trauma. New treatment approaches and combinations will need to be targeted to the heterogeneous needs of TBI populations. This article explores and evaluates the research evidence in areas that will likely lead to a reduction in TBI-related morbidity and improved outcomes. These include emerging assessment instruments and techniques in areas of structural/chemical and functional neuroimaging and neuropsychology, advances in the realms of cell-based therapies and genetics, promising cognitive rehabilitation techniques including cognitive remediation and the use of electronic technologies including assistive devices and virtual reality, and the emerging field of complementary and alternative medicine.Keywords: traumatic brain injury, assessments, treatments

  11. A multidimensional approach to apathy after traumatic brain injury.

    Science.gov (United States)

    Arnould, Annabelle; Rochat, Lucien; Azouvi, Philippe; Van der Linden, Martial

    2013-09-01

    Apathy is commonly described following traumatic brain injury (TBI) and is associated with serious consequences, notably for patients' participation in rehabilitation, family life and later social reintegration. There is strong evidence in the literature of the multidimensional nature of apathy (behavioural, cognitive and emotional), but the processes underlying each dimension are still unclear. The purpose of this article is first, to provide a critical review of the current definitions and instruments used to measure apathy in neurological and psychiatric disorders, and second, to review the prevalence, characteristics, neuroanatomical correlates, relationships with other neurobehavioural disorders and mechanisms of apathy in the TBI population. In this context, we propose a new multidimensional framework that takes into account the various mechanisms at play in the facets of apathy, including not only cognitive factors, especially executive, but also affective factors (e.g., negative mood), motivational variables (e.g., anticipatory pleasure) and aspects related to personal identity (e.g., self-esteem). Future investigations that consider these various factors will help improve the understanding of apathy. This theoretical framework opens up relevant prospects for better clinical assessment and rehabilitation of these frequently described motivational disorders in patients with brain injury. PMID:23921453

  12. Correlation between heat shock protein 70 expression in the brain stem and sudden death after experimental traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    ZHAO Lian-xu; XU Xiao-hu; LIU Chao; PAN Su-yue; ZHU Jia-zhen; ZHANG Cheng

    2001-01-01

    Objective: The aim of this study was to determine the patterns of heat-shock protein 70 (HSP70) biosynthesis following traumatic brain injury, and observe the effect of HSP70 induction on the function of the vital center in the brain stem. Methods: Rat models of sudden death resulted form traumatic brain injury were produced, and HSP70 expression in the rat brain stem was determined by immunohistochemistry, the induction of HSP70 mRNA detected by RT-PCR. Results: The level of HSP70 mRNA was prominently elevated in the brain stem as early as 1 5 min following the impact injury, while HSP70 expression was only observed 3 to 6 h after the injury. It was also observed that the levels of HSP70 mRNA but not the protein were elevated in the brain stem of sudden death rats. Conclusion: The synthesis of HSP70 was significantly enhanced in the brain stem following traumatic injury, and the expression of HSP70 is beneficial to eliminate the stress agents, and to sustain the cellular protein homeostasis. When the injury disturbs the synthesis of HSP70 to disarm the protective mechanism of heat-shock proteins, dysfunction of the vital center in the brain stem, and consequently death may occur. Breach in the synchronization of HSP70 mRNA-protein can be indicative of fatal damage to the nerve cells.

  13. Immunochemical method for quantitative evaluation of vasogenic brain edema following cold injury of rat brain

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    Bodsch, W.; Huerter, T.; Hossmann, K.A. (Max-Planck-Institut fuer Hirnforschung, Koeln (Germany, F.R.). Forschungsstelle fuer Hirnkreislauf-Forschung)

    1982-10-07

    An immunochemical method is described for quantitative assessment of serum proteins and hemoglobin content in brain tissue homogenates. Using a combination of affinity chromatography and radioimmunoassay, the sensitivity of the method is 50 ng hemoglobin and 100 ng serum protein per assay, respectively. The method was used to measure cerebral hematocrit, blood volume and serum protein extravasation in rat brain at various times following cold injury. In control rats cerebral blood volume was 6.88 +- 0.15 ml/100 g and cerebral hematocrit 26.4 +- 0.86% (means +- S.E.). Following cold injury blood volume did not significantly change, but there was a gradual increase of extravasated serum proteins, reaching a maximum of 21.54 +- 2.76 mg/g d.w. after 8 hours. Thereafter protein content gradually declined, but even after 64 h it was distinctly increased. Protein extravasation was partly dissociated from the increase of brain water and sodium which reached a maximum already after 2 h and which normalized within 32 and 64 h, respectively. It is concluded that edema fluid associated with cold injury is not simply an ultrafiltrate of blood serum but consists of cytotoxic and vasogenic components which follow a different time course both during formation and resolution of edema.

  14. Immunochemical method for quantitative evaluation of vasogenic brain edema following cold injury of rat brain

    International Nuclear Information System (INIS)

    An immunochemical method is described for quantitative assessment of serum proteins and hemoglobin content in brain tissue homogenates. Using a combination of affinity chromatography and radioimmunoassay, the sensitivity of the method is 50 ng hemoglobin and 100 ng serum protein per assay, respectively. The method was used to measure cerebral hematocrit, blood volume and serum protein extravasation in rat brain at various times following cold injury. In control rats cerebral blood volume was 6.88 +- 0.15 ml/100 g and cerebral hematocrit 26.4 +- 0.86% (means +- S.E.). Following cold injury blood volume did not significantly change, but there was a gradual increase of extravasated serum proteins, reaching a maximum of 21.54 +- 2.76 mg/g d.w. after 8 hours. Thereafter protein content gradually declined, but even after 64 h it was distinctly increased. Protein extravasation was partly dissociated from the increase of brain water and sodium which reached a maximum already after 2 h and which normalized within 32 and 64 h, respectively. It is concluded that edema fluid associated with cold injury is not simply an ultrafiltrate of blood serum but consists of cytotoxic and vasogenic components which follow a different time course both during formation and resolution of edema. (Auth.)

  15. Activation of NF-κB mediates astrocyte swelling and brain edema in traumatic brain injury.

    Science.gov (United States)

    Jayakumar, Arumugam R; Tong, Xiao Y; Ruiz-Cordero, Roberto; Bregy, Amade; Bethea, John R; Bramlett, Helen M; Norenberg, Michael D

    2014-07-15

    Brain edema and associated increased intracranial pressure are major consequences of traumatic brain injury (TBI). While astrocyte swelling (cytotoxic edema) represents a major component of the brain edema in the early phase of TBI, its mechanisms are unclear. One factor known to be activated by trauma is nuclear factor-κB (NF-κB). Because this factor has been implicated in the mechanism of cell swelling/brain edema in other neurological conditions, we examined whether NF-κB might also be involved in the mediation of post-traumatic astrocyte swelling/brain edema. Here we show an increase in NF-κB activation in cultured astrocytes at 1 and 3 h after trauma (fluid percussion injury, FPI), and that BAY 11-7082, an inhibitor of NF-κB, significantly blocked the trauma-induced astrocyte swelling. Increased activities of nicotinamide adenine dinucleotide phosphate-oxidase and the Na(+), K(+), 2Cl(-) cotransporter were also observed in cultured astrocytes after trauma, and BAY 11-7082 reduced these effects. We also examined the role of NF-κB in the mechanism of cell swelling by using astrocyte cultures derived from transgenic (Tg) mice with a functional inactivation of astrocytic NF-κB. Exposure of cultured astrocytes from wild-type mice to in vitro trauma (3 h) caused a significant increase in cell swelling. By contrast, traumatized astrocyte cultures derived from NF-κB Tg mice showed no swelling. We also found increased astrocytic NF-κB activation and brain water content in rats after FPI, while BAY 11-7082 significantly reduced such effects. Our findings strongly suggest that activation of astrocytic NF-κB represents a key element in the process by which cytotoxic brain edema occurs after TBI. PMID:24471369

  16. Ventilator-Associated Pneumonia in Pediatric Traumatic Brain Injury.

    Science.gov (United States)

    Hamele, Mitchell; Stockmann, Chris; Cirulis, Meghan; Riva-Cambrin, Jay; Metzger, Ryan; Bennett, Tellen D; Bratton, Susan L

    2016-05-01

    Ventilator-associated pneumonia (VAP) is a common occurrence among intubated pediatric traumatic brain injury (TBI) patients. However, little is known about the epidemiology, risk factors, and microbiology of VAP in pediatric TBI. We reviewed a cohort of 119 pediatric moderate-to-severe TBI patients and identified 42 with VAP by positive protected bronchial brush specimens. Location of intubation, severity of injury, and antibiotic administration within 2 days after injury were not associated with VAP. Most treatments for elevated intracranial pressure were associated with increased risk of VAP; however, in a multi-variable analysis barbiturate coma (hazard ratio [HR], 3.2; 95% confidence interval [CI] 1.4-7.3), neuromuscular blockade (NMBA; HR, 3.4; 95% CI 1.6-7.3), and use of a cooling blanket for euthermia (HR 2.4; 95% CI 1.1-5.5) remained independently associated with VAP. Most VAP (55%) occurred prior to hospital Day 4 and only 7% developed VAP after Day 7. Methicillin-sensitive Staphylococcus aureus (34%), Haemophilus influenzae (22%), and Streptococcus pneumoniae (15%) were the most common organisms, comprising 71% of isolated pathogens (36% of infections were polymicrobial). Patients with VAP had significantly longer intensive care unit and hospital stays, as well as increased risk of chronic care needs after discharge, but not mortality. VAP is a common occurrence in pediatric TBI patients, and early empiric therapy for patients requiring barbiturate infusion, NMBA, or use of a cooling blanket could mitigate morbidity. PMID:26203702

  17. Family environment influences emotion recognition following paediatric traumatic brain injury

    Science.gov (United States)

    SCHMIDT, ADAM T.; ORSTEN, KIMBERLEY D.; HANTEN, GERRI R.; LI, XIAOQI; LEVIN, HARVEY S.

    2011-01-01

    Objective This study investigated the relationship between family functioning and performance on two tasks of emotion recognition (emotional prosody and face emotion recognition) and a cognitive control procedure (the Flanker task) following paediatric traumatic brain injury (TBI) or orthopaedic injury (OI). Methods A total of 142 children (75 TBI, 67 OI) were assessed on three occasions: baseline, 3 months and 1 year post-injury on the two emotion recognition tasks and the Flanker task. Caregivers also completed the Life Stressors and Resources Scale (LISRES) on each occasion. Growth curve analysis was used to analyse the data. Results Results indicated that family functioning influenced performance on the emotional prosody and Flanker tasks but not on the face emotion recognition task. Findings on both the emotional prosody and Flanker tasks were generally similar across groups. However, financial resources emerged as significantly related to emotional prosody performance in the TBI group only (p = 0.0123). Conclusions Findings suggest family functioning variables—especially financial resources—can influence performance on an emotional processing task following TBI in children. PMID:21058900

  18. Systematic Review of Traumatic Brain Injury Animal Models.

    Science.gov (United States)

    Phipps, Helen W

    2016-01-01

    The goals of this chapter are to provide an introduction into the variety of animal models available for studying traumatic brain injury (TBI) and to provide a concise systematic review of the general materials and methods involved in each model. Materials and methods were obtained from a literature search of relevant peer-reviewed articles. Strengths and weaknesses of each animal choice were presented to include relative cost, anatomical and physiological features, and mechanism of injury desired. Further, a variety of homologous, isomorphic/induced, and predictive animal models were defined, described, and compared with respect to their relative ease of use, characteristics, range, adjustability (e.g., amplitude, duration, mass/size, velocity, and pressure), and rough order of magnitude cost. Just as the primary mechanism of action of TBI is limitless, so are the animal models available to study TBI. With such a wide variety of available animals, types of injury models, along with the research needs, there exists no single "gold standard" model of TBI rendering cross-comparison of data extremely difficult. Therefore, this chapter reflects a representative sampling of the TBI animal models available and is not an exhaustive comparison of every possible model and associated parameters. Throughout this chapter, special considerations for animal choice and TBI animal model classification are discussed. Criteria central to choosing appropriate animal models of TBI include ethics, funding, complexity (ease of use, safety, and controlled access requirements), type of model, model characteristics, and range of control (scope). PMID:27604713

  19. A transdiagnostic investigation of emotional distress after traumatic brain injury.

    Science.gov (United States)

    Shields, Cassandra; Ownsworth, Tamara; O'Donovan, Analise; Fleming, Jennifer

    2016-06-01

    Emotional distress after traumatic brain injury (TBI) often presents as a range of neurobehavioural and emotional reactions rather than distinct disorders. This study adopted a transdiagnostic approach with the aim of identifying psychological processes common to depression, anxiety and global distress after TBI. Fifty participants with TBI (aged 19-66 years, 12-65 months post-injury) completed measures of threat appraisals and avoidance behaviour (Appraisal of Threat and Avoidance Questionnaire), self-discrepancy (Head Injury Semantic Differential Scale III), emotion dysregulation (Difficulties in Emotion Regulation Scale), worry (Penn State Worry Questionnaire), negative self-focused attention (Self-Focus Sentence Completion) and emotional distress (Depression Anxiety Stress Scales and Brief Symptom Inventory). Significant correlations were found among the proposed transdiagnostic variables (rs = .29-.82, p Emotion Dysregulation. Only the Emotion Dysregulation factor accounted for significant unique variance in levels of depression, anxiety and global distress (sr(2) = .12-.17). Such findings indicate the need for interventions to target difficulties in identifying and regulating emotions after TBI to facilitate emotional adjustment. PMID:25918948

  20. SDF-1α induces angiogenesis after traumatic brain injury.

    Science.gov (United States)

    Li, Shenghui; Wei, Ming; Zhou, Ziwei; Wang, Bin; Zhao, Xinliang; Zhang, Jianning

    2012-03-20

    This study aimed to investigate the effects of SDF-1α on brain angiogenesis and neurological functional recovery in rats after traumatic brain injury (TBI) and the potentially involved mechanisms. Youth male Wistar rats were injured via lateral fluid percussion injury and then randomly divided into one of 3 groups: I. vehicle treated group; II. SDF-1α neutralizing antibody treated group and III. rhSDF-1α treated group. rhSDF-1α and its neutralizing antibody or normal saline were administered to the brain penumbra via stereotactic injection 30min after TBI. Modified neurological severity score (mNSS) and Morris water maze (MWM) test were used to assess the neurologic functional recovery (n=6/group). 14days after injury, animals were euthanized and brain tissues were collected for quantitative real time polymerase chain reaction (qRT-PCR) (n=6/group) and immunohistochemistry (n=6/group) analysis. mNSS and MWM test indicated distinct amelioration of neurological disability in rhSDF-1α group(P<0.05). Microvessel density (MVD) of rhSDF-1α treated animals was remarkably increased around the injured area. On the contrary, MVD of the SDF-1α antibody administrated group was significantly decreased compared to that of vehicle treated animals (P<0.05). The mNSS and MVD had significant negative correlation as tested by Spearman rank correlation coefficient. Immunofluorescence staining showed that CD34 and CXCR4 co-expressed on microvessels. The rhSDF-1α treated animals had greater, contrarily, the SDF-1α antibody treated animals had lesser number of double positive microvessels compared to that of vehicle treated animals. The mRNA expression of CD34 and CXCR4 was obviously elevated in the rhSDF-1α administration group, conversely, declined in SDF-1α antibody treated animals around the injured area compared with that of the vehicle treatment group (P<0.05). These data indicated that SDF-1α could induce angiogenesis after TBI, potentially via SDF-1/CXCR4 axis. PMID

  1. Diagnostic value of low-field MRI for acute poisoning brain injury

    International Nuclear Information System (INIS)

    Objective: To investigate the value of low-field MIR in diagnosis of acute CO poisoning brain injury. Methods: The brain MIR and clinical data of 110 patients with acute CO poisoning brain injury confirmed by clinical examination were retrospectively analyzed. Results: Long T1 and T2 signal intensity was showed on MRI in cerebral hemispheres and globus pallidus symmetrically. There were three basic types of MIR manifestations, white matter of brain type, globus pallidus type and brain mixed type. Conclusions: MRI could be used for confirming the degree and range of acute CO poisoning brain injury. It has important clinical value in the diagnosis, staging and prognosis of patients with acute CO poisoning brain injury. (authors)

  2. Post-injury atomoxetine treatment improves cognition following experimental traumatic brain injury.

    Science.gov (United States)

    Reid, Wendy M; Hamm, Robert J

    2008-03-01

    Catecholaminergic neurotransmission is regionally altered following injury, and drugs aimed at these systems offer promising avenues for post-traumatic brain injury (TBI) pharmacotherapies. Atomoxetine is a selective norepinephrine transporter (NET) inhibitor currently indicated for treatment of attention-deficit hyperactivity disorder (ADHD). The current study was designed to test the efficacy of atomoxetine in treating cognitive deficits following experimental TBI in animals and to determine an optimal dose and therapeutic window for drug treatment. Sprague-Dawley rats were subjected to lateral fluid-percussion injury (L-FPI) of moderate severity (2.08 atm +/- 0.05). Two experiments were performed. In the first study, atomoxetine (0.3, 1, 3, or 9 mg/kg) or vehicle was administered daily on post-injury days (PID) 1-15. Cognitive assessment was performed using the Morris water maze on PID 11-15. L-FPI resulted in significant cognitive impairment when compared to Sham-Injury. Treatment with lower doses of atomoxetine (0.3, 1, and 3 mg/kg) significantly attenuated the cognitive deficits in injured animals. Treatment with the higher dosage (9 mg/kg) of atomoxetine resulted in animals that were not significantly different than injured-vehicle treated animals. The optimal response was achieved using 1 mg/kg atomoxetine. In the second study, treatment with atomoxetine (1 mg/kg) or vehicle was delayed for 11 days post-injury. Rats were administered atomoxetine daily for 15 days, and cognitive assessment was performed on PID 25-29. In this study, treatment with atomoxetine (1 mg/kg) did not result in improved cognitive performance. In conclusion, this is the first study to show low-dose atomoxetine initiated early after experimental TBI results in improved cognition. PMID:18352838

  3. Glycolysis and the significance of lactate in traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Keri Linda Carpenter

    2015-04-01

    Full Text Available In traumatic brain injury (TBI patients, elevation of the brain extracellular lactate concentration and the lactate/pyruvate ratio are well recognised, and are associated statistically with unfavourable clinical outcome. Brain extracellular lactate was conventionally regarded as a waste product of glucose, when glucose is metabolised via glycolysis (Embden-Meyerhof-Parnas pathway to pyruvate, followed by conversion to lactate by the action of lactate dehydrogenase, and export of lactate into the extracellular fluid. In TBI, glycolytic lactate is ascribed to hypoxia or mitochondrial dysfunction, although the precise nature of the latter is incompletely understood. Seemingly in contrast to lactate’s association with unfavourable outcome is a growing body of evidence that lactate can be beneficial. The idea that the brain can utilise lactate by feeding into the tricarboxylic acid (TCA cycle of neurons, first published two decades ago, has become known as the astrocyte-neuron lactate shuttle hypothesis. Direct evidence of brain utilisation of lactate was first obtained 5 years ago in a cerebral microdialysis study in TBI patients, where administration of 13C-labelled lactate via the microdialysis catheter and simultaneous collection of the emerging microdialysates, with 13C NMR analysis, revealed 13C labelling in glutamine consistent with lactate utilisation via the TCA cycle. This suggests that where neurons are too damaged to utilise the lactate produced from glucose by astrocytes, i.e. uncoupling of neuronal and glial metabolism, high extracellular levels of lactate would accumulate, explaining association between high lactate and poor outcome. An intravenous exogenous lactate supplementation study in TBI patients showed evidence for a beneficial effect judged by surrogate endpoints. Here we review current knowledge about glycolysis and lactate in TBI, how it can be measured in patients, and whether it can be modulated to achieve better

  4. Imaging of rare radiation injuries after radiosurgery for brain metastases

    International Nuclear Information System (INIS)

    Gamma knife radiosurgery (GKS) is generally an effective and safe treatment for brain metastases. We report 3 rare complicated cases after GKS due to radiation injury including image findings. Case 1: A 58-year-old man received whole brain radiation therapy for right occipital brain metastasis from lung cancer. However, local recurrence was noted and GKS was carried out 5 months later (size 28 mm, marginal dose 23 Gy (50% isodose)). Four years later, a cyst appeared and the patient developed apraxia and visual disturbance. Surgery was performed and the histopathology showed necrosis. Case 2: A 51-year-old woman received GKS for 4 brain metastases from breast cancer. The right occipital lobe lesion was treated with marginal dose of 18 Gy (size 24 mm, 50% isodose). Thirty-one months later, she developed left homonymous hemianopsia and MR imaging and CT scan showed intracerebral hemorrhage with cyst formation. An operation was performed and the histology revealed necrosis. Case 3: A 37-year-old man received GKS for left temporal brain metastasis from lung cancer (size 14 mm, marginal dose 23 Gy (50% isodose)). Twelve months later, the lesion increased in size again, so we carried out a second GKS on the same lesion (size 15 mm, marginal dose 23 Gy (50% isodose)). Thirty-five months later, massive peritumoral edema appeared and the patient developed left oculomotor palsy. An emergency operation was performed and the histopathological diagnosis was cavernous malformation that was thought to be induced by radiosurgery. Although the incidence is low, rare complications associated with radiation therapy can also occur by radiosurgery. (author)

  5. Aquaporin 4 expression and ultrastructure of the blood-brain barrier following cerebral contusion injury

    Institute of Scientific and Technical Information of China (English)

    Xinjun Li; Yangyun Han; Hong Xu; Zhongshu Sun; Zengjun Zhou; Xiaodong Long; Yumin Yang; Linbo Zou

    2013-01-01

    This study aimed to investigate aquaporin 4 expression and the ultrastructure of the blood-brain barrier at 2–72 hours following cerebral contusion injury, and correlate these changes to the formation of brain edema. Results revealed that at 2 hours after cerebral contusion and laceration injury, aquaporin 4 expression significantly increased, brain water content and blood-brain barrier permeability increased, and the number of pinocytotic vesicles in cerebral microvascular endothelial cells increased. In addition, the mitochondrial accumulation was observed. As contusion and laceration injury became aggravated, aquaporin 4 expression continued to increase, brain water content and blood-brain barrier permeability gradually increased, brain capillary endothelial cells and astrocytes swelled, and capillary basement membrane injury gradually increased. The above changes were most apparent at 12 hours after injury, after which they gradually attenuated. Aquaporin 4 expression positively correlated with brain water content and the blood-brain barrier index. Our experimental findings indicate that increasing aquaporin 4 expression and blood-brain barrier permeability after cerebral contusion and laceration injury in humans is involved in the formation of brain edema.

  6. Magnetic resonance imaging and pathologic studies on lateral fluid percussion injury as a model of focal brain injury in rats

    International Nuclear Information System (INIS)

    In this study, morphologic changes in brain lesions initiated by moderate lateral fluid percussion injury in rats were investigated chronologically using high-resolution magnetic resonance imaging (MRI) and histopathologic methods. Rats were subjected to moderate fluid percussion injury (average 2.80±0.48 atmospheres) over the exposed dura overlying the right parietal cortex. MRI obtained in vivo were compared with corresponding pathologic findings at 1, 6, and 24 h and at 3, 6, 14 and 80 days after injury. T2-weighted images showed scattered low-signal intensity in the injured cortex within a few hours after injury, whereas histologic findings revealed intraparenchymal hemorrhages. T2-weighted images of the ipsilateral cerebral cortex and/or corpus callosum showed a high-signal-intensity area 4 h after injury. The high-signal-intensity area became largest in size between 6 and 24 h, then declined gradually, and almost disappeared 14 days after injury. Histologic examination revealed pyknosis, retraction of the cell body of neurons with vacuolated neuropile in the corresponding regions 6 and 24 h after injury, and cystic necrosis 14 days after injury. The location and extent of these pathologic changes were depicted accurately by MRI in vivo. In the hippocampus, pyknosis and retraction of the cell body of pyramidal neurons were observed on the injured side 24 h after injury, and the number of neurons in the CA1 and CA2-CA3 regions decreased significantly on the same side by 14 days after injury. It is concluded that morphologic changes in the brain following experimental traumatic brain injury in rats are detectable in vivo by high-resolution MRI, and that MRI may be useful for the evaluation of treatment effects in experimental brain injury. (author)

  7. Long-term neuropsychological outcomes following mild traumatic brain injury.

    Science.gov (United States)

    Vanderploeg, Rodney D; Curtiss, Glenn; Belanger, Heather G

    2005-05-01

    Mild traumatic brain injury (MTBI) is common, yet few studies have examined neuropsychological outcomes more than 1 year postinjury. Studies of nonreferred individuals with MTBI or studies with appropriate control groups are lacking, but necessary to draw conclusions regarding natural recovery from MTBI. We examined the long-term neuropsychological outcomes of a self-reported MTBI an average of 8 years postinjury in a nonreferred community-dwelling sample of male veterans. This was a cross-sectional cohort study derived from the Vietnam Experience Study. Three groups matched on premorbid cognitive ability were examined, those who (1) had not been injured in a MVA nor had a head injury (Normal Control; n = 3214), (2) had been injured in a motor vehicle accident (MVA) but did not have a head injury (MVA Control; n = 539), and (3) had a head injury with altered consciousness (MTBI; n = 254). A MANOVA found no group differences on a standard neuropsychological test battery of 15 measures. Across 15 measures, the average neuropsychological effect size of MTBI compared with either control group was -.03. Subtle aspects of attention and working memory also were examined by comparing groups on Paced Auditory Serial Addition Test (PASAT) continuation rate and California Verbal Learning Test (CVLT) proactive interference (PI). Compared with normal controls, the MTBI group evidenced attention problems in their lower rate of continuation to completion on the PASAT (odds ratio = 1.32, CI = 1.0-1.73) and in excessive PI (odds ratio = 1.66, CI = 1.11-2.47). Unique to the MTBI group, PASAT continuation problems were associated with left-sided visual imperceptions and excessive PI was associated with impaired tandem gait. These results show that MTBI can have adverse long-term neuropsychological outcomes on subtle aspects of complex attention and working memory. PMID:15892899

  8. The quantitative analysis of S100 in the brain tissue and serum following diffuse brain injury in rats

    Institute of Scientific and Technical Information of China (English)

    Wang Qi; Huang Ping; Xing Bo; Tuo Ya; Zhang Yongpan; Tian Weiping; Wang Zhenyuan

    2007-01-01

    Objective To investigate the dynamics of the level of S100 in cerebrum, brainstem, and serum following the diffuse brain injury in rats and provide the experimental evidences for estimating injury time. Methods ELISA was used to determine whether S100 protein is changed after diffuse brain injury in rats. Forty rats were sacrificed at 0.5 hour, 2 hours, 4 hours, 12 hours, 24 hours, 3 d and 7 d after diffuse brain injury and normal rats as control. Results The level of S100 in cerebrum, brainstem, and serum increased, followed by a decrease, and then further increased. The level of S100 could be detected to increase at 30 minutes and reached the peak at 4 hours after DBI. The level decreased gradually to the normal at 1d and till 3 d formed the second peak. The level returned to the normal at 7d following injury again. In the postmortem injury groups, there were no significant changes compared to the control group. Conclusion The present study showed that the time-dependent expression of S100 is obvious following diffuse brain injury in rats and suggested that S100 will be a suitable marker for diffuse brain injury age determination.

  9. Acute neuroprotective effects of extremely low-frequency electromagnetic fields after traumatic brain injury in rats.

    Science.gov (United States)

    Yang, Yang; Li, Ling; Wang, Yan-Gang; Fei, Zhou; Zhong, Jun; Wei, Li-Zhou; Long, Qian-Fa; Liu, Wei-Ping

    2012-05-10

    Traumatic brain injury commonly has a result of a short window of opportunity between the period of initial brain injury and secondary brain injury, which provides protective strategies and can reduce damages of brain due to secondary brain injury. Previous studies have reported neuroprotective effects of extremely low-frequency electromagnetic fields. However, the effects of extremely low-frequency electromagnetic fields on neural damage after traumatic brain injury have not been reported yet. The present study aims to investigate effects of extremely low-frequency electromagnetic fields on neuroprotection after traumatic brain injury. Male Sprague-Dawley rats were used for the model of lateral fluid percussion injury, which were placed in non-electromagnetic fields and 15 Hz (Hertz) electromagnetic fields with intensities of 1 G (Gauss), 3 G and 5 G. At various time points (ranging from 0.5 to 30 h) after lateral fluid percussion injury, rats were treated with kainic acid (administered by intraperitoneal injection) to induce apoptosis in hippocampal cells. The results were as follows: (1) the expression of hypoxia-inducible factor-1α was dramatically decreased during the neuroprotective time window. (2) The kainic acid-induced apoptosis in the hippocampus was significantly decreased in rats exposed to electromagnetic fields. (3) Electromagnetic fields exposure shortened the escape time in water maze test. (4) Electromagnetic fields exposure accelerated the recovery of the blood-brain barrier after brain injury. These findings revealed that extremely low-frequency electromagnetic fields significantly prolong the window of opportunity for brain protection and enhance the intensity of neuroprotection after traumatic brain injury. PMID:22484017

  10. 78 FR 12334 - Proposed Collection; Comment Request: Federal Interagency Traumatic Brain Injury Research (FITBIR...

    Science.gov (United States)

    2013-02-22

    ... Traumatic Brain Injury Research (FITBIR) Informatics System Data Access Request SUMMARY: In compliance with... of the function of the agency, including whether the information will have practical utility; (2) The.... Proposed Collection: Federal Interagency Traumatic Brain Injury Research (FITBIR) Informatics System...

  11. Gait and Glasgow Coma Scale scores can predict functional recovery in patients with traumatic brain injury.

    Science.gov (United States)

    Bilgin, Sevil; Guclu-Gunduz, Arzu; Oruckaptan, Hakan; Kose, Nezire; Celik, Bülent

    2012-09-01

    Fifty-one patients with mild (n = 14), moderate (n = 10) and severe traumatic brain injury (n = 27) received early rehabilitation. Level of consciousness was evaluated using the Glasgow Coma Score. Functional level was determined using the Glasgow Outcome Score, whilst mobility was evaluated using the Mobility Scale for Acute Stroke. Activities of daily living were assessed using the Barthel Index. Following Bobath neurodevelopmental therapy, the level of consciousness was significantly improved in patients with moderate and severe traumatic brain injury, but was not greatly influenced in patients with mild traumatic brain injury. Mobility and functional level were significantly improved in patients with mild, moderate and severe traumatic brain injury. Gait recovery was more obvious in patients with mild traumatic brain injury than in patients with moderate and severe traumatic brain injury. Activities of daily living showed an improvement but this was insignificant except for patients with severe traumatic brain injury. Nevertheless, complete recovery was not acquired at discharge. Multiple regression analysis showed that gait and Glasgow Coma Scale scores can be considered predictors of functional outcomes following traumatic brain injury. PMID:25624828

  12. All astrocytes are not created equal—the role of astroglia in brain injury

    OpenAIRE

    Moore, Darcie L; Jessberger, Sebastian

    2013-01-01

    In two recent papers published in Nature Neuroscience and Cell Stem Cells, Magdalena Götz and colleagues shed new light on the in vivo response of glial cells to brain injury and characterize a highly heterogeneous behavior of astrocytes to chronic and acute brain injury.

  13. Domiciliary therapy during inpatient rehabilitation treatment for patients with an acquired brain injury : A preliminary study

    NARCIS (Netherlands)

    Boonstra, AM; Spikman, JM; Wijbrandi, Wilma

    2005-01-01

    The objective was to assess the feasibility of additional domiciliary treatment for patients with an acquired brain injury while they are still inpatients at a rehabilitation centre. This cohort study included 22 patients with an acquired brain injury (mainly stroke) and with moderate to severe neur

  14. Acquired Brain Injury Club at a Community College: Opportunities for Support, Involvement, and Leadership

    Science.gov (United States)

    Chinn, Nancy Resendes

    2009-01-01

    College students with acquired brain injuries face unique challenges. The likelihood of individuals with acquired brain injury experiencing isolation, lack of social support, and diminished self-esteem, along with cognitive impairments, is well documented in the literature. This article presents an overview of a community college's club for…

  15. 77 FR 34363 - Disability and Rehabilitation Research Projects and Centers Program; Traumatic Brain Injury Model...

    Science.gov (United States)

    2012-06-11

    ... Disability and Rehabilitation Research Projects and Centers Program; Traumatic Brain Injury Model Systems... Program--Disability Rehabilitation Research Project (DRRP)-- Traumatic Brain Injury Model Systems Centers... Plan, which was published in the Federal Register on February 15, 2006 (71 FR 8165), can be accessed...

  16. Gait and Glasgow Coma Scale scores can predict functional recovery in patients with traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Sevil Bilgin; Arzu Guclu-Gunduz; Hakan Oruckaptan; Nezire Kose; Bülent Celik

    2012-01-01

    Fifty-one patients with mild (n = 14), moderate (n = 10) and severe traumatic brain injury (n = 27)received early rehabilitation. Level of consciousness was evaluated using the Glasgow Coma Score. Functional level was determined using the Glasgow Outcome Score, whilst mobility was evaluated using the Mobility Scale for Acute Stroke. Activities of daily living were assessed using the Barthel Index. Following Bobath neurodevelopmental therapy, the level of consciousness was significantly improved in patients with moderate and severe traumatic brain injury, but was not greatly influenced in patients with mild traumatic brain injury. Mobility and functional level were significantly improved in patients with mild, moderate and severe traumatic brain injury. Gait recovery was more obvious in patients with mild traumatic brain injury than in patients with moderate and severe traumatic brain injury. Activities of daily living showed an improvement but this was insignificant except for patients with severe traumatic brain injury. Nevertheless, complete recovery was not acquired at discharge. Multiple regression analysis showed that gait and Glasgow Coma Scale scores can be considered predictors of functional outcomes following traumatic brain injury.

  17. Hydrocephalus following severe traumatic brain injury in adults. Incidence, timing, and clinical predictors during rehabilitation

    DEFF Research Database (Denmark)

    Kammersgaard, Lars Peter; Linnemann, Mia; Tibæk, Maiken

    2013-01-01

    To investigate timing and clinical predictors that might predict hydrocephalus emerging during rehabilitation until 1 year following severe traumatic brain injury (TBI).......To investigate timing and clinical predictors that might predict hydrocephalus emerging during rehabilitation until 1 year following severe traumatic brain injury (TBI)....

  18. Using the endocannabinoid system as a neuroprotective strategy in perinatal hypoxic- ischemic brain injury

    Institute of Scientific and Technical Information of China (English)

    Lara-Celador, I.; Go(n)i-de-Cerio, F.; Antonia Alvarez; Enrique Hilario

    2013-01-01

    One of the most important causes of brain injury in the neonatal period is a perinatal hypoxic- ischemic event. This devastating condition can lead to long-term neurological deficits or even death. After hypoxic-ischemic brain injury, a variety of specific cellular mechanisms are set in motion, triggering cell damage and finally producing cell death. Effective therapeutic treatments against this phenomenon are still unavailable because of complex molecular mechanisms underlying hypoxic-ischemic brain injury. After a thorough understanding of the mechanism underlying neural plasticity following hypoxic-ischemic brain injury, various neuroprotective therapies have been developed for alleviating brain injury and improving long-term outcomes. Among them, the endocannabinoid system emerges as a natural system of neuroprotection. The endocannabinoid system modulates a wide range of physiological processes in mammals and has demonstrated neuroprotective effects in different paradigms of acute brain injury, acting as a natural neuroprotectant. The aim of this review is to study the use of different therapies to induce long-term therapeutic effects after hypoxic-ischemic brain injury, and analyze the important role of the endocannabinoid system as a new neuroprotective strategy against perinatal hypoxic-ischemic brain injury.

  19. Sodium and brain injury: do we know what we are doing?

    OpenAIRE

    Zygun, David A

    2009-01-01

    There is mounting evidence, including the recent report by Maggiore and colleagues, of an association between hypernatremia and mortality in patients with traumatic brain injury. This mandates a re-evaluation of routine administration of agents such as hypertonic saline for the management of intracranial hypertension in those with traumatic brain injury.

  20. Computer-Aided Relearning Activity Patterns for People with Acquired Brain Injury

    Science.gov (United States)

    Montero, Francisco; Lopez-Jaquero, Victor; Navarro, Elena; Sanchez, Enriqueta

    2011-01-01

    People with disabilities constitute a collective that requires continuous and customized attention, since their conditions or abilities are affected with respect to specific standards. People with "Acquired Brain Injury" (ABI), or those who have suffered brain injury at some stage after birth, belong to this collective. The treatment these people…

  1. Getting My Bearings, Returning to School: Issues Facing Adolescents with Traumatic Brain Injury

    Science.gov (United States)

    Schilling, Ethan J.; Getch, Yvette Q.

    2012-01-01

    Traumatic brain injury (TBI) is characterized by a blow to the head or other penetrating head injury resulting in impairment of the brain's functioning. Despite the high incidence of TBI in adolescents, many educators still consider TBI to be a low-incidence disability. In addition, school personnel often report receiving little to no pre-service…

  2. A Danish national strategy for treatment and rehabilitation after acquired brain injury

    DEFF Research Database (Denmark)

    Engberg, Aase W

    2007-01-01

    This study describes the establishment of a Danish national strategy for treatment and rehabilitation of acquired brain injury, particularly traumatic brain injury, in 1997. The vision was to create a system of tax-financed continuous treatment, restoration of function, and outpatient...

  3. Expression of c-jun in brain stem following moderate lateral fluid percussion brain injury in rats

    Institute of Scientific and Technical Information of China (English)

    2001-01-01

    AIM: To study the expression of c-jun in brain stem following moderate lateral fluid percussion brain injury in rats, and to observe the temporal patterns of its expressions following percussion.METHODS: Male Sprague-Dawley rats were divided into normal control, sham operation control and injury groups. The rats of injury group subjected to moderate lateral fluid percussion injury (0.2 mPa), and then were subdivided into 5 min, 15 min, 30 min, 1 h, 2 h, 4 h, 8 h and 12 h groups according to the time elapsed after injury. The expression of c-jun was studied by immunohistochemistry and in situ hybridization. RESULTS: After percussion for 15 min, Jun positive neurons increased in brain stem progressively, and peaked at 12h. At 5min after percussion, the induction of c-jun mRNA was increased, and remained elevated up to 1h-2h after brain injury. CONCLUSION: The induction and expression of the c-jun in brain stem after fluid percussion brain injury were increased rapidly and lasted for a long time.

  4. Blood brain barrier and brain tissue injury by Gd-DTPA in uremia-induced rabbits

    International Nuclear Information System (INIS)

    An experimental study was carried out to evaluate the morphological changes in the blood brain barrier and neighbouring brain tissue caused by Gd-DTPA in uremia-induced rabbits. Bilateral renal arteries and veins of ten rabbits were ligated. Gd-DTPA(0.2mmol/kg) was intravenously injected into seven rabbits immediately after ligation. After MRI, they were sacrificed 2 or 3 days after ligation in order to observe light and electron microscopic changes in the blood brain barrier and brain tissue. MRI findings were normal, except for enhancement of the superior and inferior sagittal sinuses on T1 weighted images in uremia-induced rabbits injected with Gd-DTPA. On light microscopic examination, these rabbits showed perivascular edema and glial fibrillary acidic protein expression: electron microscopic examination showed separation of tight junctions of endothelial cells, duplication/rarefaction of basal lamina, increased lysosomes of neurons with neuronal death, demyelination of myelin, and extravasation of red blood cells. Uremia-induced rabbits injected with Gd-DTPA showed more severe changes than those without Gd-DTPA injection. Injuries to the blood brain barrier and neighbouring brain tissue were aggravated by Gd-DTPA administration in uremia-induced rabbits. These findings appear to be associated with the neurotoxicity of Gd-DTPA

  5. Patients' and relatives' experience of difficulties following severe traumatic brain injury: the sub-acute stage

    DEFF Research Database (Denmark)

    Holm, Sara; Schönberger, Michael; Poulsen, Ingrid;

    2008-01-01

    The present study aimed to (1) identify the difficulties most frequently reported by individuals with severe traumatic brain injury (TBI) at the time of discharge from a sub-acute rehabilitation brain injury unit as well as difficulties reported by their relatives, (2) compare patients' and...... relatives' reports of patient difficulties, and (3) explore the role of injury severity, disability and other factors on subjective experience of difficulties. The primary measure was the European Brain Injury Questionnaire (EBIQ) administered to patients and to one of their close relatives at discharge...

  6. Scales for assessment of patients with traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Vieira RC

    2015-11-01

    Full Text Available Rita de Cassia Almeida Vieira,1 Daniel Vieira de Oliveira,2 Manoel Jacobsen Teixeira,2 Wellingson da Silva Paiva2 1Nursing School, 2Division of Neurological Surgery, University of Sao Paulo, Sao Paulo, BrazilWe read with great interest the paper by Ślusarz et al1 published in the Patient Preference and Adherence. The functional recovery after traumatic brain injury (TBI is related to the severity of the brain lesion and the time after TBI. The consequences of brain damage remain beyond the acute phase, extending and modifying for a long period after the traumatic event.2 Knowing the functional recovery after TBI is relevant to evaluating the results of new techniques and treatments to minimize the severity of the disability. As a result, the pathophysiology of disability after TBI and the mechanisms involved in functional recovery are the subject of investigations, which provide the foundation to direct rehabilitation programs and guide the development of individualized therapy after TBI.3 Ślusarz et al’s1 article focused on the role of establishing the relationships between measurements by the Glasgow Coma Scale (GCS and the scales used for the assessment of functional capacity of TBI patients.View original paper by Ślusarz et al.

  7. Selective CDK inhibitors:promising candidates for future clinical traumatic brain injury trials

    Institute of Scientific and Technical Information of China (English)

    Shruti V.Kabadi; Alan I.Faden

    2014-01-01

    Traumatic brain injury induces secondary injury that contributes to neuroinlfammation, neuronal loss, and neurological dysfunction. One important injury mechanism is cell cycle activation which causes neuronal apoptosis and glial activation. The neuroprotective effects of both non-selective (Flavopiridol) and selective (Roscovitine and CR-8) cyclin-dependent kinase inhibitors have been shown across multiple experimental traumatic brain injury models and species. Cyclin-depen-dent kinaseinhibitors, administered as a single systemic dose up to 24 hours after traumatic brain injury, provide strong neuroprotection-reducing neuronal cell death, neuroinflammation and neurological dysfunction. Given their effectiveness and long therapeutic window, cyclin-depen-dent kinase inhibitors appear to be promising candidates for clinical traumatic brain injury trials.

  8. Evidence for Impaired Plasticity after Traumatic Brain Injury in the Developing Brain

    Science.gov (United States)

    Li, Nan; Yang, Ya; Glover, David P.; Zhang, Jiangyang; Saraswati, Manda; Robertson, Courtney

    2014-01-01

    Abstract The robustness of plasticity mechanisms during brain development is essential for synaptic formation and has a beneficial outcome after sensory deprivation. However, the role of plasticity in recovery after acute brain injury in children has not been well defined. Traumatic brain injury (TBI) is the leading cause of death and disability among children, and long-term disability from pediatric TBI can be particularly devastating. We investigated the altered cortical plasticity 2–3 weeks after injury in a pediatric rat model of TBI. Significant decreases in neurophysiological responses across the depth of the noninjured, primary somatosensory cortex (S1) in TBI rats, compared to age-matched controls, were detected with electrophysiological measurements of multi-unit activity (86.4% decrease), local field potential (75.3% decrease), and functional magnetic resonance imaging (77.6% decrease). Because the corpus callosum is a clinically important white matter tract that was shown to be consistently involved in post-traumatic axonal injury, we investigated its anatomical and functional characteristics after TBI. Indeed, corpus callosum abnormalities in TBI rats were detected with diffusion tensor imaging (9.3% decrease in fractional anisotropy) and histopathological analysis (14% myelination volume decreases). Whole-cell patch clamp recordings further revealed that TBI results in significant decreases in spontaneous firing rate (57% decrease) and the potential to induce long-term potentiation in neurons located in layer V of the noninjured S1 by stimulation of the corpus callosum (82% decrease). The results suggest that post-TBI plasticity can translate into inappropriate neuronal connections and dramatic changes in the function of neuronal networks. PMID:24050267

  9. Barriers to Meeting the Needs of Students with Traumatic Brain Injury

    Science.gov (United States)

    Canto, Angela I.; Chesire, David J.; Buckley, Valerie A.; Andrews, Terrie W.; Roehrig, Alysia D.

    2014-01-01

    Many students with traumatic brain injury (TBI) are identified by the medical community each year and many more experience head injuries that are not examined by medical personnel. School psychologists and allied consultants have important liaison roles to identify and assist these students post-injury. In this study, 75 school psychologists (the…

  10. An experimental protocol for mimicking pathomechanisms of traumatic brain injury in mice

    Directory of Open Access Journals (Sweden)

    Albert-Weißenberger Christiane

    2012-02-01

    Full Text Available Abstract Traumatic brain injury (TBI is a result of an outside force causing immediate mechanical disruption of brain tissue and delayed pathogenic events. In order to examine injury processes associated with TBI, a number of rodent models to induce brain trauma have been described. However, none of these models covers the entire spectrum of events that might occur in TBI. Here we provide a thorough methodological description of a straightforward closed head weight drop mouse model to assess brain injuries close to the clinical conditions of human TBI.

  11. Using laser confocal scanning microscope to study ischemia-hypoxia injury in rat brain slice

    Institute of Scientific and Technical Information of China (English)

    2000-01-01

    The level of lipid peroxidation and cellular necrosis in rat living brain slices during brain ischemia-hypoxia injury have been observed using a laser confocal scanning microscope (LCSM) with double labeling of fluorescent probes D-399 (2,7-dichlorofluorescin diacetate) and propidium iodide (PI).The hypoxia and/or reoxygenation injury in rat brain slices is markedly decreased by pretreatment with L-NG-nitro-arginine (L-NNA) and N-acetylcysteine (NAC),showing that the nitric oxide (NO) and other free radicals play an important role in brain ischemia-hypoxia injury.

  12. Simulation of blast-induced, early-time intracranial wave physics leading to traumatic brain injury.

    Energy Technology Data Exchange (ETDEWEB)

    Taylor, Paul Allen; Ford, Corey C. (University of New Mexico, Albuquerque, NM)

    2008-04-01

    U.S. soldiers are surviving blast and impacts due to effective body armor, trauma evacuation and care. Blast injuries are the leading cause of traumatic brain injury (TBI) in military personnel returning from combat. Understanding of Primary Blast Injury may be needed to develop better means of blast mitigation strategies. The objective of this paper is to investigate the effects of blast direction and strength on the resulting mechanical stress and wave energy distributions generated in the brain.

  13. Traumatic brain injuries in children: A hospital-based study in Nigeria

    OpenAIRE

    David O Udoh; Adeyemo, Adebolajo A.

    2013-01-01

    Background: Traumatic Brain Injury (TBI) is a significant cause of morbidity and mortality worldwide. Our previous studies showed a high frequency of motor vehicle accidents among neurosurgical patients. However, there is a dearth of data on head injuries in children in Nigeria. Aims: To determine the epidemiology of paediatric traumatic brain injuries. Setting and Design: This is a prospective analysis of paediatric head trauma at the University of Benin Teaching Hospital, a major referral c...

  14. An animal-to-human scaling law for blast-induced traumatic brain injury risk assessment

    OpenAIRE

    Jean, Aurélie; Nyein, Michelle K.; Zheng, James Q.; Moore, David F.; Joannopoulos, John D.; Radovitzky, Raúl

    2014-01-01

    A physics-based animal-to-human scaling law for the effects of a blast wave on brain tissue is proposed. This scaling law, or transfer function, enables the translation of animal-based assessments of injury to the human, thus effectively enabling the derivation of human injury criteria based on animal tests. This is critical both in the diagnosis of traumatic brain injury as well as in the design of blast-protective helmets.

  15. Delayed, post-injury treatment with aniracetam improves cognitive performance after traumatic brain injury in rats.

    Science.gov (United States)

    Baranova, Anna I; Whiting, Mark D; Hamm, Robert J

    2006-08-01

    Chronic cognitive impairment is an enduring aspect of traumatic brain injury (TBI) in both humans and animals. Treating cognitive impairment in the post-traumatic stages of injury often involves the delivery of pharmacologic agents aimed at specific neurotransmitter systems. The current investigation examined the effects of the nootropoic drug aniracetam on cognitive recovery following TBI in rats. Three experiments were performed to determine (1) the optimal dose of aniracetam for treating cognitive impairment, (2) the effect of delaying drug treatment for a period of days following TBI, and (3) the effect of terminating drug treatment before cognitive assessment. In experiment 1, rats were administered moderate fluid percussion injury and treated with vehicle, 25, or 50 mg/kg aniracetam for 15 days. Both doses of aniracetam effectively reduced injury-induced deficits in the Morris water maze (MWM) as measured on postinjury days 11-15. In experiment 2, injured rats were treated with 50 mg/kg aniracetam or vehicle beginning on day 11 postinjury and continuing for 15 days. MWM performance, assessed on days 26-30, indicates that aniracetam-treated animals performed as well as sham-injured controls. In experiment 3, animals were injured and treated with aniracetam for 15 days. Drug treatment was terminated during MWM testing on postinjury days 16-20. In this experiment, aniracetam-treated rats did not perform better than vehicle-treated rats. The results of these experiments indicate that aniracetam is an effective treatment for cognitive impairment induced by TBI, even when treatment is delayed for a period of days following injury. PMID:16928181

  16. The Minimal Energetic Requirement of Sustained Awareness after Brain Injury.

    Science.gov (United States)

    Stender, Johan; Mortensen, Kristian Nygaard; Thibaut, Aurore; Darkner, Sune; Laureys, Steven; Gjedde, Albert; Kupers, Ron

    2016-06-01

    Differentiation of the minimally conscious state (MCS) and the unresponsive wakefulness syndrome (UWS) is a persistent clinical challenge [1]. Based on positron emission tomography (PET) studies with [(18)F]-fluorodeoxyglucose (FDG) during sleep and anesthesia, the global cerebral metabolic rate of glucose has been proposed as an indicator of consciousness [2, 3]. Likewise, FDG-PET may contribute to the clinical diagnosis of disorders of consciousness (DOCs) [4, 5]. However, current methods are non-quantitative and have important drawbacks deriving from visually guided assessment of relative changes in brain metabolism [4]. We here used FDG-PET to measure resting state brain glucose metabolism in 131 DOC patients to identify objective quantitative metabolic indicators and predictors of awareness. Quantitation of images was performed by normalizing to extracerebral tissue. We show that 42% of normal cortical activity represents the minimal energetic requirement for the presence of conscious awareness. Overall, the cerebral metabolic rate accounted for the current level, or imminent return, of awareness in 94% of the patient population, suggesting a global energetic threshold effect, associated with the reemergence of consciousness after brain injury. Our data further revealed that regional variations relative to the global resting metabolic level reflect preservation of specific cognitive or sensory modules, such as vision and language comprehension. These findings provide a simple and objective metabolic marker of consciousness, which can readily be implemented clinically. The direct correlation between brain metabolism and behavior further suggests that DOCs can fundamentally be understood as pathological neuroenergetic conditions and provide a unifying physiological basis for these syndromes. PMID:27238279

  17. Alcohol Withdrawal and Brain Injuries: Beyond Classical Mechanisms

    Directory of Open Access Journals (Sweden)

    Marianna E. Jung

    2010-07-01

    Full Text Available Unmanaged sudden withdrawal from the excessive consumption of alcohol (ethanol adversely alters neuronal integrity in vulnerable brain regions such as the cerebellum, hippocampus, or cortex. In addition to well known hyperexcitatory neurotransmissions, ethanol withdrawal (EW provokes the intense generation of reactive oxygen species (ROS and the activation of stress-responding protein kinases, which are the focus of this review article. EW also inflicts mitochondrial membranes/membrane potential, perturbs redox balance, and suppresses mitochondrial enzymes, all of which impair a fundamental function of mitochondria. Moreover, EW acts as an age-provoking stressor. The vulnerable age to EW stress is not necessarily the oldest age and varies depending upon the target molecule of EW. A major female sex steroid, 17β-estradiol (E2, interferes with the EW-induced alteration of oxidative signaling pathways and thereby protects neurons, mitochondria, and behaviors. The current review attempts to provide integrated information at the levels of oxidative signaling mechanisms by which EW provokes brain injuries and E2 protects against it. Unmanaged sudden withdrawal from the excessive consumption of alcohol (ethanol adversely alters neuronal integrity in vulnerable brain regions such as the cerebellum, hippocampus, or cortex. In addition to well known hyperexcitatory neurotransmissions, ethanol withdrawal (EW provokes the intense generation of reactive oxygen species (ROS and the activation of stress-responding protein kinases, which are the focus of this review article. EW also inflicts mitochondrial membranes/membrane potential, perturbs redox balance, and suppresses mitochondrial enzymes, all of which impair a fundamental function of mitochondria. Moreover, EW acts as an age-provoking stressor. The vulnerable age to EW stress is not necessarily the oldest age and varies depending upon the target molecule of EW. A major female sex steroid, 17

  18. Practice Update: What Professionals Who Are Not Brain Injury Specialists Need to Know About Intimate Partner Violence-Related Traumatic Brain Injury.

    Science.gov (United States)

    Murray, Christine E; Lundgren, Kristine; Olson, Loreen N; Hunnicutt, Gwen

    2016-07-01

    There is growing recognition of the risk for traumatic brain injury (TBI) among victims and survivors of intimate partner violence (IPV). A wide range of physically abusive behaviors may lead to injuries to the head or neck and place an individual at risk for a TBI. The purpose of this article is to consolidate current research and present practical guidelines for professionals, who are not brain injury specialists, but work with clients who may have sustained a TBI in the context of IPV. Recommendations are provided for TBI risk screening, making appropriate referrals, and providing services in light of a potential TBI. PMID:25951838

  19. Reorganization and Preservation of Motor Control of the Brain in Spinal Cord Injury: A Systematic Review

    OpenAIRE

    Kokotilo, K J; Eng, J; Curt, A.

    2009-01-01

    Reorganization of brain function in people with CNS damage has been identified as one of the fundamental mechanisms involved in the recovery of sensori-motor function. Spinal cord injury (SCI) brain mapping studies during motor tasks aim for assessing the reorganization and preservation of brain networks involved in motor control. Revealing the activation of cortical and sub-cortical brain areas in people with SCI can indicate principal patterns of brain reorganization when the neurotrauma is...

  20. Neuroprotective effect of Pycnogenol® following traumatic brain injury.

    Science.gov (United States)

    Scheff, Stephen W; Ansari, Mubeen A; Roberts, Kelly N

    2013-01-01

    Traumatic brain injury (TBI) involves primary and secondary injury cascades that underlie delayed neuronal dysfunction and death. Oxidative stress is one of the most celebrated secondary injury mechanisms. A close relationship exists between levels of oxidative stress and the pathogenesis of TBI. However, other cascades, such as an increase in proinflammatory cytokines, also play important roles in the overall response to the trauma. Pharmacologic intervention, in order to be successful, requires a multifaceted approach. Naturally occurring flavonoids are unique in possessing not only tremendous free radical scavenging properties but also the ability to modulate cellular homeostasis leading to a reduction in inflammation and cell toxicity. This study evaluated the therapeutic role of Pycnogenol (PYC), a patented combinational bioflavonoid. Young adult Sprague-Dawley rats were subjected to a unilateral moderate cortical contusion and treated post injury with PYC or vehicle. At either 48 or 96 h post trauma, the animals were killed and the cortex and hippocampus analyzed for changes in enzymatic and non-enzymatic oxidative stress markers. In addition, possible changes in both pre- and post-synaptic proteins (synapsin-1, PSD-95, drebrin, synapse associated protein-97) were analyzed. Finally, a separate cohort of animals was used to evaluate two proinflammatory cytokines (IL-6, TNF-α). Following the trauma there was a significant increase in oxidative stress in both the injured cortex and the ipsilateral hippocampus. Animals treated with PYC significantly ameliorated levels of protein carbonyls, lipid peroxidation, and protein nitration. The PYC treatment also significantly reduced the loss of key pre- and post-synaptic proteins with some levels in the hippocampus of PYC treated animals not significantly different from sham operated controls. Although levels of the proinflammatory cytokines were significantly elevated in both injury groups, the cohort treated with PYC

  1. Traumatic Brain Injury Studies in Britain during World War II.

    Science.gov (United States)

    Lanska, Douglas J

    2016-01-01

    As a result of the wartime urgency to understand, prevent, and treat patients with traumatic brain injury (TBI) during World War II (WWII), clinicians and basic scientists in Great Britain collaborated on research projects that included accident investigations, epidemiologic studies, and development of animal and physical models. Very quickly, investigators from different disciplines shared information and ideas that not only led to new insights into the mechanisms of TBI but also provided very practical approaches for preventing or ameliorating at least some forms of TBI. Neurosurgeon Hugh Cairns (1896-1952) conducted a series of influential studies on the prevention and treatment of head injuries that led to recognition of a high rate of fatal TBI among motorcycle riders and subsequently to demonstrations of the utility of helmets in lowering head injury incidence and case fatality. Neurologists Derek Denny-Brown (1901-1981) and (William) Ritchie Russell (1903-1980) developed an animal model of TBI that demonstrated the fundamental importance of sudden acceleration (i.e., jerking) of the head in causing concussion and forced a distinction between head injury associated with sudden acceleration/deceleration and that associated with crush or compression. Physicist A.H.S. Holbourn (1907-1962) used theoretical arguments and simple physical models to illustrate the importance of shear stress in TBI. The work of these British neurological clinicians and scientists during WWII had a strong influence on subsequent clinical and experimental studies of TBI and also eventually resulted in effective (albeit controversial) public health campaigns and legislation in several countries to prevent head injuries among motorcycle riders and others through the use of protective helmets. Collectively, these studies accelerated our understanding of TBI and had subsequent important implications for both military and civilian populations. As a result of the wartime urgency to understand

  2. Vergence in mild traumatic brain injury: A pilot study

    Directory of Open Access Journals (Sweden)

    Dora Szymanowicz, OD, MS

    2012-10-01

    Full Text Available Vergence dysfunction in individuals with mild traumatic brain injury (mTBI may have a negative effect on quality of life, functional abilities, and rehabilitative progress. In this study, we used a range of dynamic and static objective and subjective measures of vergence to assess 21 adult patients with mTBI and nearwork symptoms. The results were compared with 10 control adult subjects. With respect to dynamic parameters, responses in those with mTBI were slowed, variable, and delayed. With respect to static parameters, reduced near point of convergence and restricted near vergence ranges were found in those with mTBI. The present results provide evidence for the substantial adverse effect of mTBI on vergence function.

  3. Neuropsychology of Neuroendocrine Dysregulation after Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Josef Zihl

    2015-05-01

    Full Text Available Endocrine dysfunction is a common effect of traumatic brain injury (TBI. In addition to affecting the regulation of important body functions, the disruption of endocrine physiology can significantly impair mental functions, such as attention, memory, executive function, and mood. This mini-review focuses on alterations in mental functioning that are associated with neuroendocrine disturbances in adults who suffered TBI. It summarizes the contribution of hormones to the regulation of mental functions, the consequences of TBI on mental health and neuroendocrine homeostasis, and the effects of hormone substitution on mental dysfunction caused by TBI. The available empirical evidence suggests that comprehensive assessment of mental functions should be standard in TBI subjects presenting with hormone deficiency and that hormone replacement therapy should be accompanied by pre- and post-assessments.

  4. Persistent vertigo and dizziness after mild traumatic brain injury.

    Science.gov (United States)

    Fife, Terry D; Kalra, Deepak

    2015-04-01

    Vertigo, dizziness, and disequilibrium are common symptoms following concussion or mild traumatic brain injury (mTBI). Dizziness and vertigo may be the result of trauma to the peripheral vestibular system or the central nervous system, or, in some cases, may be due to anxiety, depression, or posttraumatic stress disorder; these mechanisms are not mutually exclusive. While most peripheral vestibular disorders can be identified by testing and examination, those without inner-ear causes that have persisting complaints of dizziness and motion sickness are more difficult to understand and to manage. Some of these patients exhibit features compatible with vestibular migraine and may be treated successfully with migraine-preventative medications. This paper reviews the nonotogenic causes of persisting dizziness, the possible mechanisms, and the pathophysiology, as a framework for patient management and for future research. PMID:25728715

  5. Effect of Preferred Music on Agitation After Traumatic Brain Injury.

    Science.gov (United States)

    Park, Soohyun; Williams, Reg Arthur; Lee, Donghyun

    2016-04-01

    Agitation is a common behavioral problem after traumatic brain injury (TBI), which threatens the safety of patients and caregivers and disrupts the rehabilitation process. This study aimed to evaluate the effects of a preferred music intervention on the reduction of agitation in TBI patients and to compare the effects of preferred music with those of classical "relaxation" music. A single group, within-subjects, randomized crossover trial design was formed, consisting of 14 agitated patients with cognitive impairment after severe TBI. Patients listened to preferred music and classical "relaxation" music, with a wash-out period in between. Patients listening to the preferred music reported a significantly greater reduction in agitation compared with the effect seen during the classical "relaxation" music intervention (p = .046). These findings provide preliminary evidence that the preferred music intervention may be effective as an environmental therapeutic approach for reducing agitation after TBI. PMID:26129873

  6. Brain injuries due to neonatal hypoglycemia: case report

    International Nuclear Information System (INIS)

    Although hypoglycemia may be common among neonates, brain injuries resulting from isolated neonatal hypoglycemia are rare. The condition may cause neurological symptoms such as stupor, jitteriness, and seizures, though in their absence, diagnosis delayed or difficult. Hypoglycemia was diagnosed in a three-day-old neonate after he visited the emergency department with loose stool, poor oral intake, and decreased activity, first experienced two days earlier. Two days after his visity, several episodes of seizure occurred. T2 and diffusion-weighted magnetic resonance (MR) scanning, performed at 11 days of age, revealed bilateral and symmetrical high signal intensity lesions in occipital, parietal, and temporal lobes. We report the MR findings of hypoglycemic encephalopathy in a neonate

  7. Brain injuries due to neonatal hypoglycemia: case report

    Energy Technology Data Exchange (ETDEWEB)

    Kim, Dae Bong; Song, Chang Joon; Chang, Mae Young; Youn, Hyae Won [College of Medicine, Chungram National Univ., Daejeon (Korea, Republic of)

    2003-10-01

    Although hypoglycemia may be common among neonates, brain injuries resulting from isolated neonatal hypoglycemia are rare. The condition may cause neurological symptoms such as stupor, jitteriness, and seizures, though in their absence, diagnosis delayed or difficult. Hypoglycemia was diagnosed in a three-day-old neonate after he visited the emergency department with loose stool, poor oral intake, and decreased activity, first experienced two days earlier. Two days after his visity, several episodes of seizure occurred. T2 and diffusion-weighted magnetic resonance (MR) scanning, performed at 11 days of age, revealed bilateral and symmetrical high signal intensity lesions in occipital, parietal, and temporal lobes. We report the MR findings of hypoglycemic encephalopathy in a neonate.

  8. Dietary fructose aggravates the pathobiology of traumatic brain injury by influencing energy homeostasis and plasticity.

    Science.gov (United States)

    Agrawal, Rahul; Noble, Emily; Vergnes, Laurent; Ying, Zhe; Reue, Karen; Gomez-Pinilla, Fernando

    2016-05-01

    Fructose consumption has been on the rise for the last two decades and is starting to be recognized as being responsible for metabolic diseases. Metabolic disorders pose a particular threat for brain conditions characterized by energy dysfunction, such as traumatic brain injury. Traumatic brain injury patients experience sudden abnormalities in the control of brain metabolism and cognitive function, which may worsen the prospect of brain plasticity and function. The mechanisms involved are poorly understood. Here we report that fructose consumption disrupts hippocampal energy homeostasis as evidenced by a decline in functional mitochondria bioenergetics (oxygen consumption rate and cytochrome C oxidase activity) and an aggravation of the effects of traumatic brain injury on molecular systems engaged in cell energy homeostasis (sirtuin 1, peroxisome proliferator-activated receptor gamma coactivator-1alpha) and synaptic plasticity (brain-derived neurotrophic factor, tropomyosin receptor kinase B, cyclic adenosine monophosphate response element binding, synaptophysin signaling). Fructose also worsened the effects of traumatic brain injury on spatial memory, which disruption was associated with a decrease in hippocampal insulin receptor signaling. Additionally, fructose consumption and traumatic brain injury promoted plasma membrane lipid peroxidation, measured by elevated protein and phenotypic expression of 4-hydroxynonenal. These data imply that high fructose consumption exacerbates the pathology of brain trauma by further disrupting energy metabolism and brain plasticity, highlighting the impact of diet on the resilience to neurological disorders. PMID:26661172

  9. A brief report on MRI investigation of experimental traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Timothy Q.Duong; Lora T.Watts

    2016-01-01

    Traumatic brain injury is a major cause of death and disability. This is a brief report based on a symposium presentation to the2014 Chinese Neurotrauma Association Meeting in San Francisco, USA. It covers the work from our laboratory in applying multimodal MRI to study experimental traumatic brain injury in rats with comparisons made to behavioral tests and histology. MRI protocols include structural, perfusion, manganese-enhanced, diffusion-tensor MRI, and MRI of blood-brain barrier integrity and cerebrovascular reactivity.

  10. Potential application of hydrogen in traumatic and surgical brain injury, stroke and neonatal hypoxia-ischemia

    OpenAIRE

    Eckermann Jan M; Krafft Paul R; Shoemaker Lorelei; Lieberson Robert E; Chang Steven D; Colohan Austin

    2012-01-01

    Abstract This article summarized findings of current preclinical studies that implemented hydrogen administration, either in the gas or liquid form, as treatment application for neurological disorders including traumatic brain injury (TBI), surgically induced brain injury (SBI), stroke, and neonatal hypoxic-ischemic brain insult (HI). Most reviewed studies demonstrated neuroprotective effects of hydrogen administration. Even though anti-oxidative potentials have been reported in several studi...

  11. Brain core temperature of patients with mild traumatic brain injury as assessed by DWI-thermometry

    Energy Technology Data Exchange (ETDEWEB)

    Tazoe, Jun; Yamada, Kei; Akazawa, Kentaro [Kyoto Prefectural University of Medicine, Department of Radiology, Graduate School of Medical Science, Kyoto City, Kyoto (Japan); Sakai, Koji [Kyoto University, Department of Human Health Science, Graduate School of Medicine, Kyoto (Japan); Mineura, Katsuyoshi [Kyoto Prefectural University of Medicine, Department of Neurosurgery, Graduate School of Medical Science, Kyoto City, Kyoto (Japan)

    2014-10-15

    The aim of this study was to assess the brain core temperature of patients with mild traumatic brain injury (mTBI) using a noninvasive temperature measurement technique based on the diffusion coefficient of the cerebrospinal fluid. This retrospective study used the data collected from April 2008 to June 2011. The patient group comprised 20 patients with a Glasgow Coma Scale score of 14 or 15 who underwent magnetic resonance imaging within 30 days after head trauma. The normal control group comprised 14 subjects who volunteered for a brain checkup (known in Japan as ''brain dock''). We compared lateral ventricular (LV) temperature between patient and control groups. Follow-up studies were performed for four patients. LV temperature measurements were successfully performed for both patients and controls. Mean (±standard deviation) measured LV temperature was 36.9 ± 1.5 C in patients, 38.7 ± 1.8 C in follow-ups, and 37.9 ± 1.2 C in controls, showing a significant difference between patients and controls (P = 0.017). However, no significant difference was evident between patients and follow-ups (P = 0.595) or between follow-ups and controls (P = 0.465). A reduction in brain core temperature was observed in patients with mTBI, possibly due to a global decrease in metabolism. (orig.)

  12. Brain core temperature of patients with mild traumatic brain injury as assessed by DWI-thermometry

    International Nuclear Information System (INIS)

    The aim of this study was to assess the brain core temperature of patients with mild traumatic brain injury (mTBI) using a noninvasive temperature measurement technique based on the diffusion coefficient of the cerebrospinal fluid. This retrospective study used the data collected from April 2008 to June 2011. The patient group comprised 20 patients with a Glasgow Coma Scale score of 14 or 15 who underwent magnetic resonance imaging within 30 days after head trauma. The normal control group comprised 14 subjects who volunteered for a brain checkup (known in Japan as ''brain dock''). We compared lateral ventricular (LV) temperature between patient and control groups. Follow-up studies were performed for four patients. LV temperature measurements were successfully performed for both patients and controls. Mean (±standard deviation) measured LV temperature was 36.9 ± 1.5 C in patients, 38.7 ± 1.8 C in follow-ups, and 37.9 ± 1.2 C in controls, showing a significant difference between patients and controls (P = 0.017). However, no significant difference was evident between patients and follow-ups (P = 0.595) or between follow-ups and controls (P = 0.465). A reduction in brain core temperature was observed in patients with mTBI, possibly due to a global decrease in metabolism. (orig.)

  13. ‘Studying Injured Minds’ - The Vietnam Head Injury Study and 40 years of brain injury research

    Directory of Open Access Journals (Sweden)

    Vanessa Raymont

    2011-03-01

    Full Text Available The study of those who have sustained traumatic brain injuries (TBI during military conflicts has greatly facilitated research in the fields of neuropsychology, neurosurgery, psychiatry, neurology and neuroimaging. The Vietnam Head Injury Study (VHIS is a prospective, long-term follow-up study of a cohort of 1,221 Vietnam veterans with mostly penetrating brain injuries, which has stretched over more than 40 years. The scope of this study, both in terms of the types of injury and fields of examination, has been extremely broad. It has been instrumental in extending the field of TBI research and in exposing pressing medical and social issues that affect those who suffer such injuries. This review summarizes the history of conflict-related TBI research and the VHIS to date, as well as the vast range of important findings the VHIS has established.

  14. Effect of cocaine use on outcomes in traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Jacky T Yeung

    2013-01-01

    Full Text Available Context: Animal and molecular studies have shown that cocaine exerts a neuroprotective effect against cerebral ischemia. Aims: To determine if the presence of cocaine metabolites on admission following traumatic brain injury (TBI is associated with better outcomes. Settings and Design: Level-1 trauma center, retrospective cohort. Materials and Methods: After obtaining Institutional Review Board (IRB approval, the trauma registry was searched from 2006 to 2009 for all patients aged 15-55 years with blunt head trauma and non-head AIS <3. Exclusion criteria were pre-existing brain pathology and death within 30 min of admission. The primary outcome was in-hospital mortality; secondary outcomes were hospital length of stay (LOS, and Glasgow Outcome Score (GOS. Statistical Analysis: Logistic regression was used to determine the independent effect of cocaine on mortality. Hospital LOS was compared with multiple linear regression. Results: A total of 741 patients met criteria and had drug screens. The screened versus unscreened groups were similar. Cocaine positive patients were predominantly African-American (46% vs. 21%, P < 0.0001, older (40 years vs. 30 years, P < 0.0001, and had ethanol present more often (50.7% vs. 37.8%, P = 0.01. There were no differences in mortality (cocaine-positive 1.4% vs. cocaine-negative 2.7%, P = 0.6 on both univariate and multivariate analysis. Conclusions: Positive cocaine screening was not associated with mortality in TBI. An effect may not have been detected because of the low mortality rate. LOS is affected by many factors unrelated to the injury and may not be a good surrogate for recovery. Similarly, GOS may be too coarse a measure to identify a benefit.

  15. Neuroprotective efficacy of a proneurogenic compound after traumatic brain injury.

    Science.gov (United States)

    Blaya, Meghan O; Bramlett, Helen M; Naidoo, Jacinth; Pieper, Andrew A; Dietrich, W Dalton

    2014-03-01

    Traumatic brain injury (TBI) is characterized by histopathological damage and long-term sensorimotor and cognitive dysfunction. Recent studies have reported the discovery of the P7C3 class of aminopropyl carbazole agents with potent neuroprotective properties for both newborn neural precursor cells in the adult hippocampus and mature neurons in other regions of the central nervous system. This study tested, for the first time, whether the highly active P7C3-A20 compound would be neuroprotective, promote hippocampal neurogenesis, and improve functional outcomes after experimental TBI. Sprague-Dawley rats subjected to moderate fluid percussion brain injury were evaluated for quantitative immunohistochemical and behavioral changes after trauma. P7C3-A20 (10 mg/kg) or vehicle was initiated intraperitoneally 30 min postsurgery and twice per day every day thereafter for 7 days. Administration of P7C3-A20 significantly reduced overall contusion volume, preserved vulnerable anti-neuronal nuclei (NeuN)-positive pericontusional cortical neurons, and improved sensorimotor function 1 week after trauma. P7C3-A20 treatment also significantly increased both bromodeoxyuridine (BrdU)- and doublecortin (DCX)-positive cells within the subgranular zone of the ipsilateral dentate gyrus 1 week after TBI. Five weeks after TBI, animals treated with P7C3-A20 showed significantly increased BrdU/NeuN double-labeled neurons and improved cognitive function in the Morris water maze, compared to TBI-control animals. These results suggest that P7C3-A20 is neuroprotective and promotes endogenous reparative strategies after TBI. We propose that the chemical scaffold represented by P7C3-A20 provides a basis for optimizing and advancing new pharmacological agents for protecting patients against the early and chronic consequences of TBI. PMID:24070637

  16. Selenoprotein S expression in reactive astrocytes following brain injury.

    Science.gov (United States)

    Fradejas, Noelia; Serrano-Pérez, Maria Del Carmen; Tranque, Pedro; Calvo, Soledad

    2011-06-01

    Selenoprotein S (SelS) is an endoplasmic reticulum (ER)-resident protein involved in the unfolded protein response. Besides reducing ER-stress, SelS attenuates inflammation by decreasing pro-inflammatory cytokines. We have recently shown that SelS is responsive to ischemia in cultured astrocytes. To check the possible association of SelS with astrocyte activation, here we investigate the expression of SelS in two models of brain injury: kainic acid (KA) induced excitotoxicity and cortical mechanical lesion. The regulation of SelS and its functional consequences for neuroinflammation, ER-stress, and cell survival were further analyzed using cultured astrocytes from mouse and human. According to our immunofluorescence analysis, SelS expression is prominent in neurons and hardly detectable in astrocytes from control mice. However, brain injury intensely upregulates SelS, specifically in reactive astrocytes. SelS induction by KA was evident at 12 h and faded out after reaching maximum levels at 3-4 days. Analysis of mRNA and protein expression in cultured astrocytes showed SelS upregulation by inflammatory stimuli as well as ER-stress inducers. In turn, siRNA-mediated SelS silencing combined with adenoviral overexpression assays demonstrated that SelS reduces ER-stress markers CHOP and spliced XBP-1, as well as inflammatory cytokines IL-1β and IL-6 in stimulated astrocytes. SelS overexpression increased astrocyte resistance to ER-stress and inflammatory stimuli. Conversely, SelS suppression compromised astrocyte viability. In summary, our results reveal the upregulation of SelS expression in reactive astrocytes, as well as a new protective role for SelS against inflammation and ER-stress that can be relevant to astrocyte function in the context of inflammatory neuropathologies. PMID:21456042

  17. Long-term global and regional brain volume changes following severe traumatic brain injury: A longitudinal study with clinical correlates

    DEFF Research Database (Denmark)

    Sidaros, Annette; Skimminge, Arnold Jesper Møller; Liptrot, Matthew George;

    2009-01-01

    Traumatic brain injury (TBI) results in neurodegenerative changes that progress for months, perhaps even years post-injury. However, there is little information on the spatial distribution and the clinical significance of this late atrophy. In 24 patients who had sustained severe TBI we acquired ......, inferior and superior longitudinal fasciculus, corpus callosum and corona radiata. This indicates that the long-term atrophy is attributable to consequences of traumatic axonal injury. Despite progressive atrophy, remarkable clinical improvement occurred in most patients....

  18. Non-invasive brain stimulation for the treatment of symptoms following traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Simarjot K Dhaliwal

    2015-08-01

    Full Text Available Background: Traumatic brain injury (TBI is a common cause of physical, psychological, and cognitive impairment, but many current treatments for TBI are ineffective or produce adverse side effects. Non-invasive methods of brain stimulation could help ameliorate some common trauma-induced symptoms.Objective: This review summarizes instances in which repetitive Transcranial Magnetic Stimulation (rTMS and transcranial Direct Current Stimulation (tDCS have been used to treat symptoms following a traumatic brain injury. A subsequent discussion attempts to determine the value of these methods in light of their potential risks.Methods: The research databases of PubMed/MEDLINE and PsycINFO were electronically searched using terms relevant to the use of rTMS and tDCS as a tool to decrease symptoms in the context of rehabilitation post-TBI.Results: Eight case-studies and four multi-subject reports using rTMS and six multi-subject studies using tDCS were found. Two instances of seizure are discussed. Conclusions: There is evidence that rTMS can be an effective treatment option for some post-TBI symptoms such as depression, tinnitus, and neglect. Although the safety of this method remains uncertain, the use of rTMS in cases of mild-TBI without obvious structural damage may be justified. Evidence on the effectiveness of tDCS is mixed, highlighting the need for additional

  19. Determining client cognitive status following mild traumatic brain injury.

    Science.gov (United States)

    Hobson, Elizabeth; Lannin, Natasha A; Taylor, Amelia; Farquhar, Michelle; Morarty, Jacqui; Unsworth, Carolyn

    2016-03-01

    Background People with mild traumatic brain injury (mTBI) commonly experience cognitive impairments. Occupational therapists working in acute general hospitals in Australia routinely access client Glasgow Coma Scale (GCS) scores, and assess cognitive status using standardized tools and by observing basic activity of daily living (ADL) performance. However, limited evidence exists to identify the best assessment(s) to determine client cognitive status. Aim/objectives To determine whether cognitive status assessed by GCS score and the Cognistat are predictive of basic ADL performance among clients with mTBI in an acute general hospital and make inferences concerning the clinical utility of these assessment tools. Material and methods Retrospective analysis of medical record data on demographics, Cognistat, GCS, and modified Barthel Index (MBI) using descriptive statistics, chi-square tests and linear regression. Results Data analysis of 166 participants demonstrated that no associations exist between GCS and Cognistat scores, or Cognistat scores and MBI dependency level. The presence of co-morbid multi-trauma injuries and length of stay were the only variables that significantly predicted MBI dependency level. Conclusion and significance While the MBI scores are of value in identifying clients with difficulty in basic ADLs, Cognistat and GCS scores are of limited use in differentiating client levels of cognitive impairment and the authors caution against the routine administration of the Cognistat following mTBI. Further research is required to identify more suitable assessments for use with a mTBI population. PMID:26458152

  20. Voltage-Gated Calcium Channel Antagonists and Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Bruce Lyeth

    2013-06-01

    Full Text Available Traumatic brain injury (TBI is a leading cause of death and disability in the United States. Despite more than 30 years of research, no pharmacological agents have been identified that improve neurological function following TBI. However, several lines of research described in this review provide support for further development of voltage gated calcium channel (VGCC antagonists as potential therapeutic agents. Following TBI, neurons and astrocytes experience a rapid and sometimes enduring increase in intracellular calcium ([Ca2+]i. These fluxes in [Ca2+]i drive not only apoptotic and necrotic cell death, but also can lead to long-term cell dysfunction in surviving cells. In a limited number of in vitro experiments, both L-type and N-type VGCC antagonists successfully reduced calcium loads as well as neuronal and astrocytic cell death following mechanical injury. In rodent models of TBI, administration of VGCC antagonists reduced cell death and improved cognitive function. It is clear that there is a critical need to find effective therapeutics and rational drug delivery strategies for the management and treatment of TBI, and we believe that further investigation of VGCC antagonists should be pursued before ruling out the possibility of successful translation to the clinic.

  1. Risk Factors Analysis on Traumatic Brain Injury Prognosis

    Institute of Scientific and Technical Information of China (English)

    Xiao-dong Qu; Resha Shrestha; Mao-de Wang

    2011-01-01

    To investigate the independent risk factors of traumatic brain injury (TBI) prognosis.Methods A retrospective analysis was performed in 885 hospitalized TEl patients from January 1,2003 to January 1, 2010 in the First Affiliated Hospital of Medical College of Xi' an Jiaotong University. Single-factor and logistic regression analysis were conducted to evaluate the association of different variables with TBI outcome.Results The single-factor analysis revealed significant association between several variables and TEl outcome, including age (P=0.044 for the age group 40-60, P<0.001 for the age group ≥60), complications (P<0.001), cerebrospinal fluid leakage (P<0.001), Glasgow Coma Scale (GCS) (P<0.001), pupillary light reflex (P<0.001), shock (P<0.001), associated extra-cranial lesions (P=0.01), subdural hematoma (P<0.001), cerebral contusion (P<0.001), diffuse axonal injury (P<0.001), and subarachnoid hemorrhage (P<0.001), suggesting the influence of those factors on the prognosis of TBI. Furthermore, logistic regression analysis identified age, GCS score, pupillary light reflex, subdural hematoma, and subarachnoid hemorrhage as independent risk factors of TEl prognosis.Conclusion Age, GCS score, papillary light reflex, subdural hematoma, and subarachnoid hemorrhage may be risk factors influencing the prognosis of TEl. Paying attention to those factors might improve the outcome of TBI in clinical treatment.

  2. Traumatic brain injury: endocrine consequences in children and adults.

    Science.gov (United States)

    Richmond, Erick; Rogol, Alan D

    2014-02-01

    Traumatic brain injury (TBI) is a common cause of death and disability in young adults with consequences ranging from physical disabilities to long-term cognitive, behavioral, psychological and social defects. Recent data suggest that pituitary hormone deficiency is not infrequent among TBI survivors; the prevalence of reported hypopituitarism following TBI varies widely among published studies. The most common cause of TBI is motor vehicle accidents, including pedestrian-car and bicycle car encounters, falls, child abuse, violence and sports injuries. Prevalence of hypopituitarism, from total to isolated pituitary deficiency, ranges from 5 to 90 %. The time interval between TBI and pituitary function evaluation is one of the major factors responsible for variations in the prevalence of hypopituitarism reported. Endocrine dysfunction after TBI in children and adolescents is common. Adolescence is a time of growth, freedom and adjustment, consequently TBI is also common in this group. Sports-related TBI is an important public health concern, but many cases are unrecognized and unreported. Sports that are associated with an increased risk of TBI include those involving contact and/or collisions such as boxing, football, soccer, ice hockey, rugby, and the martial arts, as well as high velocity sports such as cycling, motor racing, equestrian sports, skiing and roller skating. The aim of this paper is to summarize the best evidence of TBI as a cause of pituitary deficiency in children and adults. PMID:24030696

  3. A model for traumatic brain injury using laser induced shockwaves

    Science.gov (United States)

    Selfridge, A.; Preece, D.; Gomez, V.; Shi, L. Z.; Berns, M. W.

    2015-08-01

    Traumatic brain injury (TBI) represents a major treatment challenge in both civilian and military medicine; on the cellular level, its mechanisms are poorly understood. As a method to study the dysfunctional repair mechanisms following injury, laser induced shock waves (LIS) are a useful way to create highly precise, well characterized mechanical forces. We present a simple model for TBI using laser induced shock waves as a model for damage. Our objective is to develop an understanding of the processes responsible for neuronal death, the ways in which we can manipulate these processes to improve cell survival and repair, and the importance of these processes at different levels of biological organization. The physics of shock wave creation has been modeled and can be used to calculate forces acting on individual neurons. By ensuring that the impulse is in the same regime as that occurring in practical TBI, the LIS model can ensure that in vitro conditions and damage are similar to those experienced in TBI. This model will allow for the study of the biochemical response of neurons to mechanical stresses, and can be combined with microfluidic systems for cell growth in order to better isolate areas of damage.

  4. Neuropsychological differential diagnosis of mild traumatic brain injury.

    Science.gov (United States)

    Larrabee, Glenn J; Rohling, Martin L

    2013-01-01

    The diagnosis and evaluation of mild traumatic brain injury (mTBI) is reviewed from the perspective of meta-analyses of neuropsychological outcome, showing full recovery from a single, uncomplicated mTBI by 90 days post-trauma. Persons with history of complicated mTBI characterized by day-of-injury computed tomography or magnetic resonance imaging abnormalities, and those who have suffered prior mTBIs may or may not show evidence of complete recovery similar to that experienced by persons suffering a single, uncomplicated mTBI. Persistent post-concussion syndrome (PCS) is considered as a somatoform presentation, influenced by the non-specificity of PCS symptoms which commonly occur in non-TBI samples and co-vary as a function of general life stress, and psychological factors including symptom expectation, depression and anxiety. A model is presented for forensic evaluation of the individual mTBI case, which involves open-ended interview, followed by structured interview, record review, and detailed neuropsychological testing. Differential diagnosis includes consideration of other neurologic and psychiatric disorders, symptom expectation, diagnosis threat, developmental disorders, and malingering. PMID:24105915

  5. Clinical application of magnetic resonance in acute traumatic brain injury

    Energy Technology Data Exchange (ETDEWEB)

    Morais, Dionei F.; Gaia, Felipe F.P. [Hospital de Base de Sao Jose do Rio Preto, SP (Brazil). Servico de Neurocirurgia]. E-mail: centro@cerebroecoluna.com.br; Spotti, Antonio R.; Tognola, Waldir A. [Faculdade de Medicina de Sao Jose do Rio Preto (FAMERP), SP (Brazil). Dept. de Ciencias Neurologicas; Andrade, Almir F. [Universidade de Sao Paulo (USP), SP (Brazil). Hospital das Clinicas. Dept. de Neurocirurgia da Emergencia

    2008-07-01

    Purpose: To evaluate the clinical applications of magnetic resonance imaging (MRI) in patients with acute traumatic brain injury (TBI): to identify the type, quantity, severity; and improvement clinical-radiological correlation. Method: Assessment of 55 patients who were imaged using CT and MRI, 34 (61.8%) males and 21 (38.2%) females, with acute (0 to 5 days) and closed TBI. Results: Statistical significant differences (McNemar test): occurred fractures were detected by CT in 29.1% and by MRI in 3.6% of the patients; subdural hematoma by CT in 10.9% and MRI in 36.4 %; diffuse axonal injury (DAI) by CT in 1.8% and MRI in 50.9%; cortical contusions by CT in 9.1% and MRI in 41.8%; subarachnoid hemorrhage by CT in 18.2% and MRI in 41.8%. Conclusion: MRI was superior to the CT in the identification of DAI, subarachnoid hemorrhage, cortical contusions, and acute subdural hematoma; however it was inferior in diagnosing fractures. The detection of DAI was associated with the severity of acute TBI. (author)

  6. Inosine improves functional recovery after experimental traumatic brain injury.

    Science.gov (United States)

    Dachir, Shlomit; Shabashov, Dalia; Trembovler, Victoria; Alexandrovich, Alexander G; Benowitz, Larry I; Shohami, Esther

    2014-03-25

    Despite years of research, no effective therapy is yet available for the treatment of traumatic brain injury (TBI). The most prevalent and debilitating features in survivors of TBI are cognitive deficits and motor dysfunction. A potential therapeutic method for improving the function of patients following TBI would be to restore, at least in part, plasticity to the CNS in a controlled way that would allow for the formation of compensatory circuits. Inosine, a naturally occurring purine nucleoside, has been shown to promote axon collateral growth in the corticospinal tract (CST) following stroke and focal TBI. In the present study, we investigated the effects of inosine on motor and cognitive deficits, CST sprouting, and expression of synaptic proteins in an experimental model of closed head injury (CHI). Treatment with inosine (100 mg/kg i.p. at 1, 24 and 48 h following CHI) improved outcome after TBI, significantly decreasing the neurological severity score (NSS, pcognitive performance (object recognition, peffect on sensorimotor coordination (rotarod) and spatial cognitive functions (Y-maze). Inosine did not affect CST sprouting in the lumbar spinal cord but did restore levels of the growth-associated protein GAP-43 in the hippocampus, though not in the cerebral cortex. Our results suggest that inosine may improve functional outcome after TBI. PMID:24502983

  7. Outcome of 2 284 cases with acute traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    2001-01-01

    Objective: To analyze the prognosis of 2 284 cases with acute traumatic brain injury and discuss possible methods to improve the outcome of head injuries.   Methods: The relationship between trauma cause, trauma severity and management and patients outcome was retrospectively analyzed.   Results: Good recovery was achieved in 60.20%, moderate disability was 13.22%, severe disability 15.24%, vegetative status 0.31% and mortality 11.03%. The mortality was 1.07% in cases with GCS 15-13, 2.47% in cases with GCS 12-9, 13.29% in cases with GCS 8-6, and 57.4% in cases with GCS 5-3.   Conclusions: To prevent hypoxia, remove intracranial hematoma as soon as possible, use standard large traumatic craniotomy and apply mild hypothermia may be useful means for improving the outcome of severely head injured patients.

  8. Perceptual organization deficits in traumatic brain injury patients.

    Science.gov (United States)

    Costa, Thiago L; Zaninotto, Ana Luiza C; Benute, Gláucia G; De Lúcia, Mara C S; Paiva, Wellingson S; Wagemans, Johan; Boggio, Paulo S

    2015-11-01

    Traumatic brain injury (TBI) is a prevalent condition and there is limited visual perception research with this population. Here, we investigated perceptual organization changes in a rather homogeneous sample of closed head TBI outpatients with diffuse axonal injury only and no other known comorbidities. Patients had normal or corrected visual acuity. Perceptual organization was measured with the Leuven Perceptual Organization Screening Test (L-POST), a coherent motion task (CM) and the Leuven Embedded Figures Test (L-EFT). These tests were chosen to screen for deficits in different aspects of perceptual organization (L-POST), to evaluate local and global processing (L-EFT) and grouping in a dynamic set of stimuli (CM). TBI patients were significantly impaired compared to controls in all measures for both response time and accuracy, except for CM thresholds and object recognition subtests. The TBI group was similarly affected in all aspects of the L-EFT. TBI was also similarly affected in all perceptual factors of the L-POST. No significant correlations were found between scores and time post-injury, except for CM thresholds (rs=-0.74), which might explain the lack of group-level differences. The only score significantly correlated to IQ was L-EFT response time (rs=-0.67). These findings demonstrate that perceptual organization is diffusely affected in TBI and this effect has no substantial correlations with IQ. As many of the neuropsychological tests used to measure different cognitive functions involve some level of visual discrimination and perceptual organization demands, these results must be taken into account in the general neuropsychological evaluation of TBI patients. PMID:26455804

  9. Evolving brain lesions in the follow-up CT scans 12 h after traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Muhammad Sohail Umerani; Asad Abbas; Saqib Kamran Bakhshi; Ujala Muhammad Qasim; Salman Sharif

    2016-01-01

    Objective: To establish the frequency of evolution in CT appearance from an initial scan to a subsequent scan within 12 h and the prognostic significance of such deterioration. Methods: All patients who presented to Department of Neurosurgery, Liaquat National Hospital and Medical College with traumatic brain injury and received their CT scan within the first 4 h of injury were included in the study. Indications for repeat CT scan were: any deterioration in neurological status after the initial scan, potentially deterio-rating lesion on initial scan with or without worsening neurology, worsening neurological status after the initial CT scan findings, or no neurological improvement after initial management in patients with normal CT scan with significant head injury. This compiled with the data of 107 patients. Results: There were 67 males and 40 females. The cause of trauma of the 70%patients was road traffic accident. In 11 patients, the lesion evolved towards resorption while 32 patients had no significant changes in the subsequent CT scan. Sixty four patients showed an increase in the size of the lesion and 65.6%of them were required surgical intervention subsequently. Conclusions: In case where the initial CT scan performed within 4 h of significant head injury was not correlated with the patient's neurology, it should be repeated within 12 h.

  10. Molecular mechanisms of estrogen for neuroprotection in spinal cord injury and traumatic brain injury.

    Science.gov (United States)

    Chakrabarti, Mrinmay; Das, Arabinda; Samantaray, Supriti; Smith, Joshua A; Banik, Naren L; Haque, Azizul; Ray, Swapan K

    2016-04-01

    Estrogen (EST) is a steroid hormone that exhibits several important physiological roles in the human body. During the last few decades, EST has been well recognized as an important neuroprotective agent in a variety of neurological disorders in the central nervous system (CNS), such as spinal cord injury (SCI), traumatic brain injury (TBI), Alzheimer's disease, and multiple sclerosis. The exact molecular mechanisms of EST-mediated neuroprotection in the CNS remain unclear due to heterogeneity of cell populations that express EST receptors (ERs) in the CNS as well as in the innate and adaptive immune system. Recent investigations suggest that EST protects the CNS from injury by suppressing pro-inflammatory pathways, oxidative stress, and cell death, while promoting neurogenesis, angiogenesis, and neurotrophic support. In this review, we have described the currently known molecular mechanisms of EST-mediated neuroprotection and neuroregeneration in SCI and TBI. At the same time, we have emphasized on the recent in vitro and in vivo findings from our and other laboratories, implying potential clinical benefits of EST in the treatment of SCI and TBI. PMID:26461840

  11. Mental Trauma Experienced by Caregivers of patients with Diffuse Axonal Injury or Severe Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Syed Tajuddin Syed Hassan

    2013-09-01

    Full Text Available Context: As with care giving and rehabilitation in chronic illnesses, the concern with traumatic brain injury (TBI, particularly with diffuse axonal injury (DAI, is that the caregivers are so overwhelmingly involved in caring and rehabilitation of the victim that in the process they become traumatized themselves. This review intends to shed light on the hidden and silent trauma sustained by the caregivers of severe brain injury survivors. Motor vehicle accident (MVA is the highest contributor of TBI or DAI. The essence of trauma is the infliction of pain and suffering and having to bear the pain (i.e. by the TBI survivor and the burden of having to take care and manage and rehabilitate the TBI survivor (i.e. by the TBI caregiver. Moreover many caregivers are not trained for their care giving task, thus compounding the stress of care giving and rehabilitating patients. Most research on TBI including DAI, focus on the survivors and not on the caregivers. TBI injury and its effects and impacts remain the core question of most studies, which are largely based on the quantitative approach.Evidence Acquisition: Qualitative research can better assess human sufferings such as in the case of DAI trauma. While quantitative research can measure many psychometric parameters to assess some aspects of trauma conditions, qualitative research is able to fully reveal the meaning, ramification and experience of TBI trauma. Both care giving and rehabilitation are overwhelmingly demanding; hence , they may complicate the caregivers’ stress. However, some positive outcomes also exist.Results: Caregivers involved in caring and rehabilitation of TBI victims may become mentally traumatized. Posttraumatic recovery of the TBI survivor can enhance the entire family’s closeness and bonding as well as improve the mental status of the caregiver.Conclusions: A long-term longitudinal study encompassing integrated research is needed to fully understand the traumatic

  12. Microstructural brain injury in post-concussion syndrome after minor head injury

    Energy Technology Data Exchange (ETDEWEB)

    Smits, Marion; Wielopolski, Piotr A.; Vernooij, Meike W.; Lugt, Aad van der [Erasmus MC-University Medical Centre Rotterdam, Department of Radiology (Hs-224), PO Box 2040, Rotterdam (Netherlands); Houston, Gavin C. [Applied Science Lab, GE Healthcare, Hertogenbosch (Netherlands); Dippel, Diederik W.J.; Koudstaal, Peter J. [Erasmus MC-University Medical Centre Rotterdam, Department of Neurology, Rotterdam (Netherlands); Hunink, M.G.M. [Erasmus MC-University Medical Centre Rotterdam, Department of Radiology (Hs-224), PO Box 2040, Rotterdam (Netherlands); Erasmus MC-University Medical Centre Rotterdam, Department of Epidemiology, Rotterdam (Netherlands); Harvard School of Public Health, Department of Health Policy and Management, Boston, MA (United States)

    2011-08-15

    After minor head injury (MHI), post-concussive symptoms commonly occur. The purpose of this study was to correlate the severity of post-concussive symptoms in MHI patients with MRI measures of microstructural brain injury, namely mean diffusivity (MD) and fractional anisotropy (FA), as well as the presence of microhaemorrhages. Twenty MHI patients and 12 healthy controls were scanned at 3 T using diffusion tensor imaging (DTI) and high-resolution gradient recalled echo (HRGRE) T2*-weighted sequences. One patient was excluded from the analysis because of bilateral subdural haematomas. DTI data were preprocessed using Tract Based Spatial Statistics. The resulting MD and FA images were correlated with the severity of post-concussive symptoms evaluated with the Rivermead Postconcussion Symptoms Questionnaire. The number and location of microhaemorrhages were assessed on the HRGRE T2*-weighted images. Comparing patients with controls, there were no differences in MD. FA was decreased in the right temporal subcortical white matter. MD was increased in association with the severity of post-concussive symptoms in the inferior fronto-occipital fasciculus (IFO), the inferior longitudinal fasciculus and the superior longitudinal fasciculus. FA was reduced in association with the severity of post-concussive symptoms in the uncinate fasciculus, the IFO, the internal capsule and the corpus callosum, as well as in the parietal and frontal subcortical white matter. Microhaemorrhages were observed in one patient only. The severity of post-concussive symptoms after MHI was significantly correlated with a reduction of white matter integrity, providing evidence of microstructural brain injury as a neuropathological substrate of the post-concussion syndrome. (orig.)

  13. Microstructural brain injury in post-concussion syndrome after minor head injury

    International Nuclear Information System (INIS)

    After minor head injury (MHI), post-concussive symptoms commonly occur. The purpose of this study was to correlate the severity of post-concussive symptoms in MHI patients with MRI measures of microstructural brain injury, namely mean diffusivity (MD) and fractional anisotropy (FA), as well as the presence of microhaemorrhages. Twenty MHI patients and 12 healthy controls were scanned at 3 T using diffusion tensor imaging (DTI) and high-resolution gradient recalled echo (HRGRE) T2*-weighted sequences. One patient was excluded from the analysis because of bilateral subdural haematomas. DTI data were preprocessed using Tract Based Spatial Statistics. The resulting MD and FA images were correlated with the severity of post-concussive symptoms evaluated with the Rivermead Postconcussion Symptoms Questionnaire. The number and location of microhaemorrhages were assessed on the HRGRE T2*-weighted images. Comparing patients with controls, there were no differences in MD. FA was decreased in the right temporal subcortical white matter. MD was increased in association with the severity of post-concussive symptoms in the inferior fronto-occipital fasciculus (IFO), the inferior longitudinal fasciculus and the superior longitudinal fasciculus. FA was reduced in association with the severity of post-concussive symptoms in the uncinate fasciculus, the IFO, the internal capsule and the corpus callosum, as well as in the parietal and frontal subcortical white matter. Microhaemorrhages were observed in one patient only. The severity of post-concussive symptoms after MHI was significantly correlated with a reduction of white matter integrity, providing evidence of microstructural brain injury as a neuropathological substrate of the post-concussion syndrome. (orig.)

  14. Top-cited articles in traumatic brain injury.

    Directory of Open Access Journals (Sweden)

    Bhanu Sharma

    2014-11-01

    Full Text Available A review of the top-cited articles in a scientific discipline can identify areas of research that are well established and those in need of further development, and may, as a result, inform and direct future research efforts. Our objective was to identify and characterize the top-cited articles in traumatic brain injury (TBI. We used publically available software to identify the 50 TBI articles with the most lifetime citations, and the 50 TBI articles with the highest annual citation rates. A total of 73 articles were included in this review, with 27 of the 50 papers with the highest annual citation rates common to the cohort of 50 articles with the most lifetime citations. All papers were categorized by their primary topic or focus, namely: predictor of outcome, pathology/natural history, treatment, guidelines and consensus statements, epidemiology, assessment measures, or experimental model of TBI. The mean year of publication of the articles with the most lifetime citations and highest annual citation rates was, respectively, 1990 ± 14.9 years and 2003 ± 6.7 years. The 50 articles with the most lifetime citations typically studied predictors of outcome (34.0%, 17/50 and were specific to severe TBI (38.0%, 19/50. In contrast, the most common subject of papers with the highest annual citation rates was treatment of brain injury (22.0%, 11/50, and these papers most frequently investigated mild TBI (36.0%, 18/50. These findings suggest an intensified focus on mild TBI, which is perhaps a response to the dedicated attention these injuries are currently receiving in the context of sports and war, and because of their increasing incidence in developing nations. Our findings also indicate increased focus on treatment of TBI, possibly due to the limited efficacy of current interventions for TBI. This review provides a cross-sectional summary of some of the most influential articles in TBI, and a bibliometric examination of the current status of TBI

  15. Psychogenic seizures in brain injury: diagnosis, treatment and case study.

    Science.gov (United States)

    Conder, R L; Zasler, N D

    1990-01-01

    Psychogenic seizures are a functional phenomena in which a person experiences a paroxysmal event that may be interpreted as epileptiform in nature. By definition, psychogenic seizures imply a sudden episode of change in behaviour or psychic state that is not associated with an identifiable process, either vasculogenic or neurogenic, and during which there is an absence of characteristic epileptiform changes on the electroencephalogram. Prevalence rates range from 5% to 50% in outpatient populations seen in epilepsy clinics. However, approximately 20% of true seizure patients also have psychogenic seizures. As psychogenic seizures are not a pathophysiological phenomena, pharmacological interventions do not alter their aetiology and can cloud the cognitive skills necessary to ameliorate the psychogenic seizure behaviour. In non-aphasic true seizure patients, as well as psychogenic seizure patients, self-control relaxation paradigms have been successful where pharmacological intervention has failed. This case involved an aphasic brain-injured patient who had both psychogenic and true seizures. For this patient, the self-control paradigm was modified to include use of gesture and prosody to achieve similar psychotherapeutic effects. Additionally, family therapy was instituted to provide a constructive means for the patient's family to participate in the reduction of psychogenic seizures. As seizures are a common sequelae of brain injury, the differential diagnosis of seizures and knowledge of standard and alternative treatment is essential for rehabilitation professionals. PMID:1701326

  16. Mild fluid percussion injury in mice produces evolving selective axonal pathology and cognitive deficits relevant to human brain injury.

    Science.gov (United States)

    Spain, Aisling; Daumas, Stephanie; Lifshitz, Jonathan; Rhodes, Jonathan; Andrews, Peter J D; Horsburgh, Karen; Fowler, Jill H

    2010-08-01

    Mild traumatic brain injury (TBI) accounts for up to 80% of clinical TBI and can result in cognitive impairment and white matter damage that may develop and persist over several years. Clinically relevant models of mild TBI for investigation of neurobiological changes and the development of therapeutic strategies are poorly developed. In this study we investigated the temporal profile of axonal and somal injury that may contribute to cognitive impairments in a mouse model of mild TBI. Neuronal perikaryal damage (hematoxylin and eosin and Fluoro-Jade C), myelin integrity (myelin basic protein and myelin-associated glycoprotein), and axonal damage (amyloid precursor protein), were evaluated by immunohistochemistry at 4 h, 24 h, 72 h, 4 weeks, and 6 weeks after mild lateral fluid percussion brain injury (0.9 atm; righting time 167 +/- 15 sec). At 3 weeks post-injury spatial reference learning and memory were tested in the Morris water maze (MWM). Levels of damage to neuronal cell bodies were comparable in the brain-injured and sham groups. Myelin integrity was minimally altered following injury. Clear alterations in axonal damage were observed at various time points after injury. Axonal damage was localized to the cingulum at 4 h post-injury. At 4 and 6 weeks post-injury, axonal damage was evident in the external capsule, and was seen at 6 weeks in the dorsal thalamic nuclei. At 3 weeks post-injury, injured mice showed an impaired ability to learn the water maze task, suggesting injury-induced alterations in search strategy learning. The evolving localization of axonal damage points to ongoing degeneration after injury that is concomitant with a deficit in learning. PMID:20528171

  17. Chapter 3 animal models of traumatic brain injury: is there an optimal model that parallels human brain injury?

    Science.gov (United States)

    Briones, Teresita L

    2015-01-01

    Traumatic brain injury (TBI) is the leading cause of mortality and morbidity in the younger population worldwide. Survivors of TBI often experience long-term disability in the form of cognitive, sensorimotor, and affective impairments. Despite the high prevalence in, and cost of TBI to, both individuals and society, some of its underlying pathophysiology is not completely understood. Animal models have been developed over the past few decades to closely replicate the different facets of TBI in humans to better understand the underlying pathophysiology and behavioral impairments and assess potential therapies that can promote neuroprotection. However, no effective treatment for TBI has been established to date in the clinical setting, despite promising results generated in preclinical studies in the use of neuroprotective strategies. The failure to translate results from preclinical studies to the clinical setting underscores a compelling need to revisit the current state of knowledge in the use of animal models in TBI. PMID:25946383

  18. Sustained Delivery of Nicotinamide Limits Cortical Injury and Improves Functional Recovery Following Traumatic Brain Injury

    Directory of Open Access Journals (Sweden)

    Andrea M. Goffus

    2010-01-01

    Full Text Available Previously, we have demonstrated that nicotinamide (NAM, a neuroprotective soluble B-group vitamin, improves recovery of function following traumatic brain injury (TBI. However, no prior studies have examined whether NAM is beneficial following continuous infusions over 7 days post-TBI. The purpose of this study was to investigate the preclinical efficacy of NAM treatment as it might be delivered clinically; over several days by slow infusion. Rats were prepared with either unilateral controlled cortical impact (CCI injuries or sham procedures and divided into three groups: CCI-NAM, CCI-vehicle and sham. Thirty minutes following CCI, Alzet osmotic mini-pumps were implanted subcutaneously. NAM was delivered at a rate of 50 mg/kg/day for 7 days immediately post-CCI. On day 7 following injury, the pumps were removed and blood draws were collected for serum NAM and nicotinamide adenine dinucleotide (NAD+ analyses. Starting on day 2 post-CCI, animals were tested on a battery of sensorimotor tests (bilateral tactile adhesive removal, locomotor placing and limb-use asymmetry. Continuous infusion of NAM resulted in a significant serum elevation in NAM, but not NAD+. Statistical analyses of the tactile removal and locomotor placing data revealed that continuous administration of NAM significantly reduced the initial magnitude of the injury deficit and improved overall recovery compared to the vehicle-treated animals. NAM treatment also significantly decreased limb-use asymmetries compared to vehicle-treated animals. The overall extent of the cortical damage was also reduced by NAM treatment. No detrimental effects were seen following continuous infusion. The present results suggest that NAM delivered via a clinically relevant therapeutic regimen may truncate behavioral damage following TBI. Thus our results offer strong support for translation into the clinical population.

  19. Mismatch negativity, social cognition, and functional outcomes in patients after traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Hui-yan Sun; Qiang Li; Xi-ping Chen; Lu-yang Tao

    2015-01-01

    Mismatch negativity is generated automatically, and is an early monitoring indicator of neuronal integrity impairment and functional abnormality in patients with brain injury, leading to decline of cognitive function. Antipsychotic medication cannot affect mismatch negativity. The present study aimed to explore the relationships of mismatch negativity with neurocognition, daily life and social functional outcomes in patients after brain injury. Twelve patients with traumatic brain injury and 12 healthy controls were recruited in this study. We examined neurocogni-tion with the Wechsler Adult Intelligence Scale-Revised China, and daily and social functional outcomes with the Activity of Daily Living Scale and Social Disability Screening Schedule, re-spectively. Mismatch negativity was analyzed from electroencephalogram recording. The results showed that mismatch negativity amplitudes decreased in patients with traumatic brain injury compared with healthy controls. Mismatch negativity amplitude was negatively correlated with measurements of neurocognition and positively correlated with functional outcomes in patients after traumatic brain injury. Further, the most signiifcant positive correlations were found be-tween mismatch negativity in the fronto-central region and measures of functional outcomes. The most signiifcant positive correlations were also found between mismatch negativity at the FCz electrode and daily living function. Mismatch negativity amplitudes were extremely positive-ly associated with Social Disability Screening Schedule scores at the Fz electrode in brain injury patients. These experimental ifndings suggest that mismatch negativity might efifciently relfect functional outcomes in patients after traumatic brain injury.

  20. Mismatch negativity, social cognition, and functional outcomes in patients after traumatic brain injury

    Directory of Open Access Journals (Sweden)

    Hui-yan Sun

    2015-01-01

    Full Text Available Mismatch negativity is generated automatically, and is an early monitoring indicator of neuronal integrity impairment and functional abnormality in patients with brain injury, leading to decline of cognitive function. Antipsychotic medication cannot affect mismatch negativity. The present study aimed to explore the relationships of mismatch negativity with neurocognition, daily life and social functional outcomes in patients after brain injury. Twelve patients with traumatic brain injury and 12 healthy controls were recruited in this study. We examined neurocognition with the Wechsler Adult Intelligence Scale-Revised China, and daily and social functional outcomes with the Activity of Daily Living Scale and Social Disability Screening Schedule, respectively. Mismatch negativity was analyzed from electroencephalogram recording. The results showed that mismatch negativity amplitudes decreased in patients with traumatic brain injury compared with healthy controls. Mismatch negativity amplitude was negatively correlated with measurements of neurocognition and positively correlated with functional outcomes in patients after traumatic brain injury. Further, the most significant positive correlations were found between mismatch negativity in the fronto-central region and measures of functional outcomes. The most significant positive correlations were also found between mismatch negativity at the FCz electrode and daily living function. Mismatch negativity amplitudes were extremely positively associated with Social Disability Screening Schedule scores at the Fz electrode in brain injury patients. These experimental findings suggest that mismatch negativity might efficiently reflect functional outcomes in patients after traumatic brain injury.

  1. Energy Drinks, Alcohol, Sports and Traumatic Brain Injuries among Adolescents.

    Directory of Open Access Journals (Sweden)

    Gabriela Ilie

    Full Text Available The high prevalence of traumatic brain injuries (TBI among adolescents has brought much focus to this area in recent years. Sports injuries have been identified as a main mechanism. Although energy drinks, including those mixed with alcohol, are often used by young athletes and other adolescents they have not been examined in relation to TBI.We report on the prevalence of adolescent TBI and its associations with energy drinks, alcohol and energy drink mixed in with alcohol consumption.Data were derived from the Centre for Addiction and Mental Health's 2013 Ontario Student Drug Use and Health Survey (OSDUHS. This population-based cross-sectional school survey included 10,272 7th to 12th graders (ages 11-20 who completed anonymous self-administered questionnaires in classrooms.Mild to severe TBI were defined as those resulting in a loss of consciousness for at least five minutes, or being hospitalized for at least one night. Mechanism of TBI, prevalence estimates of TBI, and odds of energy drink consumption, alcohol use, and consumption of energy drinks mixed with alcohol are assessed.Among all students, 22.4% (95% CI: 20.7, 24.1 reported a history of TBI. Sports injuries remain the main mechanism of a recent (past year TBI (45.5%, 95% CI: 41.0, 50.1. Multinomial logistic regression showed that relative to adolescents who never sustained a TBI, the odds of sustaining a recent TBI were greater for those consuming alcohol, energy drinks, and energy drinks mixed in with alcohol than abstainers. Odds ratios were higher for these behaviors among students who sustained a recent TBI than those who sustained a former TBI (lifetime but not past 12 months. Relative to recent TBI due to other causes of injury, adolescents who sustained a recent TBI while playing sports had higher odds of recent energy drinks consumption than abstainers.TBI remains a disabling and common condition among adolescents and the consumption of alcohol, energy drinks, and alcohol

  2. Spillway-induced salmon head injury triggers the generation of brain alphaII-spectrin breakdown product biomarkers similar to mammalian traumatic brain injury.

    Directory of Open Access Journals (Sweden)

    Ann Miracle

    Full Text Available Recent advances in biomedical research have resulted in the development of specific biomarkers for diagnostic testing of disease condition or physiological risk. Of specific interest are alphaII-spectrin breakdown products (SBDPs, which are produced by proteolytic events in traumatic brain injury and have been used as biomarkers to predict the severity of injury in humans and other mammalian brain injury models. This study describes and demonstrates the successful use of antibody-based mammalian SBDP biomarkers to detect head injury in migrating juvenile Chinook salmon (Oncorhynchus tshawytscha that have been injured during passage through high-energy hydraulic environments present in spillways under different operational configurations. Mortality and injury assessment techniques currently measure only near-term direct mortality and easily observable acute injury. Injury-based biomarkers may serve as a quantitative indicator of subacute physical injury and recovery, and aid hydropower operators in evaluation of safest passage configuration and operation actions for migrating juvenile salmonids. We describe a novel application of SBDP biomarkers for head injury for migrating salmon. To our knowledge, this is the first documented cross-over use of a human molecular biomarker in a wildlife and operational risk management scenario.

  3. Environmental enrichment and the sensory brain: the role of enrichment in remediating brain injury

    Directory of Open Access Journals (Sweden)

    Ramesh Rajan

    2014-09-01

    Full Text Available The brain’s life-long capacity for experience-dependent plasticity allows adaptation to new environments or to changes in the environment, and to changes in internal brain states such as occurs in brain damage. Since the initial discovery by Hebb (1947 that environmental enrichment (EE was able to confer improvements in cognitive behaviour, EE has been investigated as a powerful form of experience-dependent plasticity. Animal studies have shown that exposure to EE results in a number of molecular and morphological alterations, which are thought to underpin changes in neuronal function and ultimately, behaviour. These consequences of EE make it ideally suited for investigation into its use as a potential therapy after neurological disorders, such as traumatic brain injury (TBI. In this review, we aim to first briefly discuss the effects of EE on behaviour and neuronal function, followed by a review of the underlying molecular and structural changes that account for EE-dependent plasticity in the normal (uninjured adult brain. We then extend this review to specifically address the role of EE in the treatment of experimental TBI, where we will discuss the demonstrated sensorimotor and cognitive benefits associated with exposure to EE, and their possible mechanisms. Finally, we will explore the use of EE-based rehabilitation in the treatment of human TBI patients, highlighting the remaining questions regarding the effects of EE.

  4. Marrow stromal cells administrated intracisternally to rats after traumatic brain injury migrate into the brain and improve neurological function

    Institute of Scientific and Technical Information of China (English)

    胡德志; 周良辅; 朱剑虹

    2004-01-01

    @@ Marrow stromal cells(MSCs) have been reported to transplant into injured brain via intravenous or intraarterial or direct intracerebral administration.1-3 In the present study, we observed that MSCs migrated into the brain, survived and diffeneriated into neural cells after they were injected into the cisterna magna of rats, and that the behavior of the rats after traumatic brain injury (TBI) was improved.

  5. [Paradise lost - Reflexion of preterm birth from the perspective after a brain injury. A case study].

    Science.gov (United States)

    Cignacco, Eva; Zuñiga, Franziska; Kurth, Elisabeth

    2011-04-01

    This case study describes the history of an older person, born in 1942 preterminally, who suffered from a brain injury in 2005. Problems in rehabilitation elicited the search for a new meaning in life. In analysing and interpreting the brain injury, preterm birth played a crucial role. The theme of lifelong compensation of deficits, caused by preterm birth, gained new importance. The consequences of brain injury left unsuccessful his former modes of compensation. He was confronted with finding new strategies in order to counterbalance the growing decompensation. This report is based on and was developed through respect for the principles of user involvement in research. PMID:21480177

  6. Botulinum toxin injection for bruxism associated with brain injury: Case report

    OpenAIRE

    Serdar Kesikburun, MD; Rıdvan Alaca, MD; Berke Aras, MD; İlknur Tuğcu, MD; Arif Kenan Tan, MD

    2014-01-01

    Bruxism is involuntary grinding of the teeth and can occur as a complication of brain injury. If untreated, bruxism can lead to severe occlusal trauma. Herein, we present a patient with traumatic brain injury and nocturnal bruxism that was treated with botulinum toxin injection. A 21 yr old male patient with traumatic brain injury from a car accident was admitted to our inpatient rehabilitation unit. He had a history of coma for 2 wk in the intensive care unit. The initial cranial computed to...

  7. Early initiation of prophylactic heparin in severe traumatic brain injury is associated with accelerated improvement on brain imaging

    Directory of Open Access Journals (Sweden)

    Luke Kim

    2014-01-01

    Full Text Available Background: Venous thromboembolic prophylaxis (VTEp is often delayed following traumatic brain injury (TBI, yet animal data suggest that it may reduce cerebral inflammation and improve cognitive recovery. We hypothesized that earlier VTEp initiation in severe TBI patients would result in more rapid neurologic recovery and reduced progression of brain injury on radiologic imaging. Study Design: Medical charts of severe TBI patients admitted to a level 1 trauma center in 2009-2010 were queried for admission Glasgow Coma Scale (GCS, head Abbreviated Injury Scale, Injury Severity Score (ISS, osmotherapy use, emergency neurosurgery, and delay to VTEp initiation. Progression (+1 = better, 0 = no change, −1 = worse of brain injury on head CTs and neurologic exam (by bedside MD, nurse was collected from patient charts. Head CT scan Marshall scores were calculated from the initial head CT results. Results: A total of 22, 34, and 19 patients received VTEp at early (5 days time intervals, respectively. Clinical and radiologic brain injury characteristics on admission were similar among the three groups (P > 0.05, but ISS was greatest in the early group (P < 0.05. Initial head CT Marshall scores were similar in early and late groups. The slowest progression of brain injury on repeated head CT scans was in the early VTEp group up to 10 days after admission. Conclusion: Early initiation of prophylactic heparin in severe TBI is not associated with deterioration neurologic exam and may result in less progression of injury on brain imaging. Possible neuroprotective effects of heparin in humans need further investigation.

  8. Feasibility of computerized brain plasticity-based cognitive training after traumatic brain injury

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    Matthew S. Lebowitz, AB

    2013-01-01

    Full Text Available The present study investigates the feasibility and utility of using a computerized brain plasticity-based cognitive training (BPCT program as an intervention for community-dwelling individuals with traumatic brain injury (TBI. In a pre-post pilot study, 10 individuals with mild to severe TBI who were 6 mo to 22 yr postinjury were asked to use a computerized BPCT intervention—designed to improve cognitive functioning through a graduated series of structured exercises—at their homes in an urban community. Outcome measures included objective neuropsychological and self-report measures of cognitive functioning. All participants were able to use the software in their homes. Some mild fatigue was reported, which tended to dissipate over time. Few technical difficulties were reported. Remote support was sufficient for what technical assistance was needed. Participants reported subjective improvement in cognitive functioning, and small to large effect sizes on self-report and neuropsychological measures are reported. We conclude that BPCT may be a viable intervention for TBI outpatients as an adjunct to comprehensive neurorehabilitation. The intervention can be delivered in patients’ homes with support provided remotely. Results of this study demonstrate the potential for treatment-related improvements many years after injury. Further study in controlled trials is warranted.

  9. Blast injury in a civilian trauma setting is associated with a delay in diagnosis of traumatic brain injury.

    Science.gov (United States)

    Bochicchio, Grant V; Lumpkins, Kimberly; O'Connor, James; Simard, Marc; Schaub, Stacey; Conway, Anne; Bochicchio, Kelly; Scalea, Thomas M

    2008-03-01

    High-pressure waves (blast) account for the majority of combat injuries and are becoming increasingly common in terrorist attacks. To our knowledge, there are no data evaluating the epidemiology of blast injury in a domestic nonterrorist setting. Data were analyzed retrospectively on patients admitted with any type of blast injury over a 10-year period at a busy urban trauma center. Injuries were classified by etiology of explosion and anatomical location. Eighty-nine cases of blast injury were identified in 57,392 patients (0.2%) treated over the study period. The majority of patients were male (78%) with a mean age of 40 +/- 17 years. The mean Injury Severity Score was 13 +/- 11 with an admission Trauma and Injury Severity Score of 0.9 +/- 0.2 and Revised Trauma Score of 7.5 +/- 0.8. The mean intensive care unit and hospital length of stay was 2 +/- 7 days and 4.6 +/- 10 days, respectively, with an overall mortality rate of 4.5 per cent. Private dwelling explosion [n = 31 (35%)] was the most common etiology followed by industrial pressure blast [n = 20 (22%)], industrial gas explosion [n = 16 (18%)], military training-related explosion [n = 15 (17%)], home explosive device [n = 8 (9%)], and fireworks explosion [n = 1 (1%)]. Maxillofacial injuries were the most common injury (n = 78) followed by upper extremity orthopedic (n = 29), head injury (n = 32), abdominal (n = 30), lower extremity orthopedic (n = 29), and thoracic (n = 19). The majority of patients with head injury [28 of 32 (88%)] presented with a Glasgow Coma Scale score of 15. CT scans on admission were initially positive for brain injury in 14 of 28 patients (50%). Seven patients (25%) who did not have a CT scan on admission had a CT performed later in their hospital course as a result of mental status change and were positive for traumatic brain injury (TBI). Three patients (11%) had a negative admission CT with a subsequently positive CT for TBI over the next 48 hours. The remaining four patients (14

  10. Gender differences in self reported long term outcomes following moderate to severe traumatic brain injury

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    Ratcliff Graham

    2010-10-01

    Full Text Available Abstract Background The majority of research on health outcomes after a traumatic brain injury is focused on male participants. Information examining gender differences in health outcomes post traumatic brain injury is limited. The purpose of this study was to investigate gender differences in symptoms reported after a traumatic brain injury and to examine the degree to which these symptoms are problematic in daily functioning. Methods This is a secondary data analysis of a retrospective cohort study of 306 individuals who sustained a moderate to severe traumatic brain injury 8 to 24 years ago. Data were collected using the Problem Checklist (PCL from the Head Injury Family Interview (HIFI. Using Bonferroni correction, group differences between women and men were explored using Chi-square and Wilcoxon analysis. Results Chi-square analysis by gender revealed that significantly more men reported difficulty setting realistic goals and restlessness whereas significantly more women reported headaches, dizziness and loss of confidence. Wilcoxon analysis by gender revealed that men reported sensitivity to noise and sleep disturbances as significantly more problematic than women, whereas for women, lack of initiative and needing supervision were significantly more problematic in daily functioning. Conclusion This study provides insight into gender differences on outcomes after traumatic brain injury. There are significant differences between problems reported by men compared to women. This insight may facilitate health service planners and clinicians when developing programs for individuals with brain injury.

  11. Effect of mild hypothermia on glucose metabolism and glycerol of brain tissue in patients with severe traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    WANG Qiong; LI Ai-lin; ZHI Da-shi; HUANG Hui-ling

    2007-01-01

    Objective:To study the effect of mild hypothermia on glucose metabolism and glycerol of brain tissue in patients with severe traumatic brain injury (STBI) using clinical microdialysis.Methods: Thirty-one patients with STBI ( GCS ≤8) were randomly divided into hypothermic group (Group A) and control group (Group B). Microdialysis catheters were inserted into the cerebral cortex of perilesional and normal brain tissue. All samples were analyzed using CMA microdialysis analyzer.Results: In comparison with the control group, lactate/glucose ratio ( L/G) , lactate/pyruvate ratio ( L/P) and glycerol (Gly) in perilensional tissue were significantly decreased; L/P in normal brain tissue was significantly decreased. In control group, L/G, L/P and Gly in perilensional tissue were higher than that in normal brain tissue. In the hypothermic group, L/P in perilensional tissue was higher than that in relative normal brain.Conclusions: Mild hypothermia protects brain tissues by decreasing L/G, L/P and Gly in perilensional tissue and L/P in "normal brain" tissues. The energy crisis and membrane phospholipid degradation in perilensional tissue are easier to happen after traumatic brain injury, and mild hypothermia protects brain better in perilensional tissue than in normal brain tissue.

  12. GH and Pituitary Hormone Alterations After Traumatic Brain Injury.

    Science.gov (United States)

    Karaca, Züleyha; Tanrıverdi, Fatih; Ünlühızarcı, Kürşad; Kelestimur, Fahrettin

    2016-01-01

    Traumatic brain injury (TBI) is a crucially important public health problem around the world, which gives rise to increased mortality and is the leading cause of physical and psychological disability in young adults, in particular. Pituitary dysfunction due to TBI was first described 95years ago. However, until recently, only a few papers have been published in the literature and for this reason, TBI-induced hypopituitarism has been neglected for a long time. Recent studies have revealed that TBI is one of the leading causes of hypopituitarism. TBI which causes hypopituitarism may be characterized by a single head injury such as from a traffic accident or by chronic repetitive head trauma as seen in combative sports including boxing, kickboxing, and football. Vascular damage, hypoxic insult, direct trauma, genetic predisposition, autoimmunity, and neuroinflammatory changes may have a role in the development of hypopituitarism after TBI. Because of the exceptional structure of the hypothalamo-pituitary vasculature and the special anatomic location of anterior pituitary cells, GH is the most commonly lost hormone after TBI, and the frequency of isolated GHD is considerably high. TBI-induced pituitary dysfunction remains undiagnosed and therefore untreated in most patients because of the nonspecific and subtle clinical manifestations of hypopituitarism. Treatment of TBI-induced hypopituitarism depends on the deficient anterior pituitary hormones. GH replacement therapy has some beneficial effects on metabolic parameters and neurocognitive dysfunction. Patients with TBI without neuroendocrine changes and those with TBI-induced hypopituitarism share the same clinical manifestations, such as attention deficits, impulsion impairment, depression, sleep abnormalities, and cognitive disorders. For this reason, TBI-induced hypopituitarism may be neglected in TBI victims and it would be expected that underlying hypopituitarism would aggravate the clinical picture of TBI itself

  13. Spironolactone in preventing hypokalemia following traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Saeid Abrishamkar; Mehdi Shafiei; Mohammad Shafiei

    2010-01-01

    Objective: Hypokalemia is a frequent complication observed after traumatic brain injury (TBI).We evaluated the effect of spironolactone on preventing hypokalemia following moderate to severe TBI.Methods: Patients with moderate to severe TBI, whose Glasgow Coma Scale (GCS) scores of 9-12 and <9,respectively, were equally randomized into intervention and control groups, matching with severity of trauma and baseline serum level of potassium. For the intervention group, we administrated spironolactone (1 mg/kg per day)on the second day of admission or the first day of gavage tolerance and continued it for seven days. No additional intervention was done for controls. Hypokalemia (mild: 3-3.5 mg/L, moderate: 2.5-3 mg/L, and severe: <2.5 mg/L serum K+) and other electrolyte abnormalities were compared between the two groups at the end of the intervention.Results: Sixty-eight patients (58 males and 10 females)were included with mean age=(33.1±11.8) years, and GCS=7.6±2.8. The two groups were similar in baseline characteristics.Patients who received spironolactone were significantly less likely to experience mild, moderate, or severe hypokalemia (8.8%, 2.9%, and 0) compared with controls (29.4%, 11.7%,and 2.9%, respectively, P<0.05). No significant difference was observed between the two groups in the occurrence of other electrolyte abnormalities, hyperglycemia or oliguria.Conclusion: Spironolactone within the first week of head injury could prevent the occurrence of late hypokalemia with no severe side effects.

  14. Microglia and astroglia: the role of neuroinflammation in lead toxicity and neuronal injury in the brain

    OpenAIRE

    Jin-Tao Liu; Mo-Han Dong; Jie-Qiong Zhang; Ya Bai; Fang Kuang; Liang-Wei Chen

    2015-01-01

    Lead (Pb2+), a ubiquitous environmental toxicant, may widely affect the function of many organs or systems of human beings, especially the brain. Although lead is believed to transport into the brain through the blood-brain barrier (BBB) and cause direct neuronal injury, growing data have shown that lead exposure could induce brain dysfunction by triggering microglial and astroglial activation, pro-inflammatory cytokine production and inflammatory response, generation of reactive oxygen speci...

  15. Microglia protect against brain injury and their selective elimination dysregulates neuronal network activity after stroke

    OpenAIRE

    Szalay, Gergely; Martinecz, Bernadett; Lénárt, Nikolett; Környei, Zsuzsanna; Orsolits, Barbara; Judák, Linda; Császár, Eszter; Fekete, Rebeka; West, Brian L.; Katona, Gergely; Rózsa, Balázs; Dénes, Ádám

    2016-01-01

    Microglia are the main immune cells of the brain and contribute to common brain diseases. However, it is unclear how microglia influence neuronal activity and survival in the injured brain in vivo. Here we develop a precisely controlled model of brain injury induced by cerebral ischaemia combined with fast in vivo two-photon calcium imaging and selective microglial manipulation. We show that selective elimination of microglia leads to a striking, 60% increase in infarct size, which is reverse...

  16. Cellular and temporal expression of NADPH oxidase (NOX) isotypes after brain injury

    OpenAIRE

    Cooney, Sean J.; Bermudez-Sabogal, Sara L; Byrnes, Kimberly R.

    2013-01-01

    Background Brain injury results in an increase in the activity of the reactive oxygen species generating NADPH oxidase (NOX) enzymes. Preliminary studies have shown that NOX2, NOX3, and NOX4 are the most prominently expressed NOX isotypes in the brain. However, the cellular and temporal expression profile of these isotypes in the injured and non-injured brain is currently unclear. Methods Double immunofluorescence for NOX isotypes and brain cell types was performed at acute (24 hours), sub-ac...

  17. Bryostatin-1 Restores Blood Brain Barrier Integrity following Blast-Induced Traumatic Brain Injury.

    Science.gov (United States)

    Lucke-Wold, Brandon P; Logsdon, Aric F; Smith, Kelly E; Turner, Ryan C; Alkon, Daniel L; Tan, Zhenjun; Naser, Zachary J; Knotts, Chelsea M; Huber, Jason D; Rosen, Charles L

    2015-12-01

    Recent wars in Iraq and Afghanistan have accounted for an estimated 270,000 blast exposures among military personnel. Blast traumatic brain injury (TBI) is the 'signature injury' of modern warfare. Blood brain barrier (BBB) disruption following blast TBI can lead to long-term and diffuse neuroinflammation. In this study, we investigate for the first time the role of bryostatin-1, a specific protein kinase C (PKC) modulator, in ameliorating BBB breakdown. Thirty seven Sprague-Dawley rats were used for this study. We utilized a clinically relevant and validated blast model to expose animals to moderate blast exposure. Groups included: control, single blast exposure, and single blast exposure + bryostatin-1. Bryostatin-1 was administered i.p. 2.5 mg/kg after blast exposure. Evan's blue, immunohistochemistry, and western blot analysis were performed to assess injury. Evan's blue binds to albumin and is a marker for BBB disruption. The single blast exposure caused an increase in permeability compared to control (t = 4.808, p < 0.05), and a reduction back toward control levels when bryostatin-1 was administered (t = 5.113, p < 0.01). Three important PKC isozymes, PKCα, PKCδ, and PKCε, were co-localized primarily with endothelial cells but not astrocytes. Bryostatin-1 administration reduced toxic PKCα levels back toward control levels (t = 4.559, p < 0.01) and increased the neuroprotective isozyme PKCε (t = 6.102, p < 0.01). Bryostatin-1 caused a significant increase in the tight junction proteins VE-cadherin, ZO-1, and occludin through modulation of PKC activity. Bryostatin-1 ultimately decreased BBB breakdown potentially due to modulation of PKC isozymes. Future work will examine the role of bryostatin-1 in preventing chronic neurodegeneration following repetitive neurotrauma. PMID:25301233

  18. Temporal assessment of nanoparticle accumulation after experimental brain injury: Effect of particle size

    Science.gov (United States)

    Bharadwaj, Vimala N.; Lifshitz, Jonathan; Adelson, P. David; Kodibagkar, Vikram D.; Stabenfeldt, Sarah E.

    2016-01-01

    Nanoparticle (NP) based therapeutic and theranostic agents have been developed for various diseases, yet application to neural disease/injury is restricted by the blood-brain-barrier (BBB). Traumatic brain injury (TBI) results in a host of pathological alterations, including transient breakdown of the BBB, thus opening a window for NP delivery to the injured brain tissue. This study focused on investigating the spatiotemporal accumulation of different sized NPs after TBI. Specifically, animal cohorts sustaining a controlled cortical impact injury received an intravenous injection of PEGylated NP cocktail (20, 40, 100, and 500 nm, each with a unique fluorophore) immediately (0 h), 2 h, 5 h, 12 h, or 23 h after injury. NPs were allowed to circulate for 1 h before perfusion and brain harvest. Confocal microscopy demonstrated peak NP accumulation within the injury penumbra 1 h post-injury. An inverse relationship was found between NP size and their continued accumulation within the penumbra. NP accumulation preferentially occurred in the primary motor and somatosensory areas of the injury penumbra as compared to the parietal association and visual area. Thus, we characterized the accumulation of particles up to 500 nm at different times acutely after injury, indicating the potential of NP-based TBI theranostics in the acute period after injury. PMID:27444615

  19. Traumatic brain injury alters methionine metabolism: implications for pathophysiology

    Directory of Open Access Journals (Sweden)

    Pramod K Dash

    2016-04-01

    Full Text Available Methionine is an essential proteinogenic amino acid that is obtained from the diet. In addition to its requirement for protein biosynthesis, methionine is metabolized to generate metabolites that play key roles in a number of cellular functions. Metabolism of methionine via the transmethylation pathway generates S-adenosylmethionine (SAM that serves as the principal methyl (-CH3 donor for DNA and histone methyltransferases to regulate epigenetic changes in gene expression. SAM is also required for methylation of other cellular proteins that serve various functions and phosphatidylcholine synthesis that participate in cellular signaling.. Under conditions of oxidative stress, homocysteine (which is derived from SAM enters the transsulfuration pathway to generate glutathione, an important cytoprotective molecule against oxidative damage. As both experimental and clinical studies have shown that traumatic brain injury (TBI alters DNA and histone methylation and causes oxidative stress, we examined if TBI alters the plasma levels of methionine and its metabolites in human patients. Blood samples were collected from healthy volunteers (n = 20 and patients with mild TBI (GCS > 12; n = 20 or severe TBI (GCS < 8; n = 20 within the first 24 hours of injury. The levels of methionine and its metabolites in the plasma samples were analyzed by either liquid chromatography-mass spectrometry or gas chromatography-mass spectrometry (LC-MS or GC-MS. Severe TBI decreased the levels of methionine, SAM, betaine and 2-methylglycine as compared to healthy volunteers, indicating a decrease in metabolism through the transmethylation cycle. In addition, precursors for the generation of glutathione, cysteine and glycine were also found to be decreased as were intermediate metabolites of the gamma-glutamyl cycle (gamma-glutamyl amino acids and 5-oxoproline. Mild TBI also decreased the levels of methionine, α-ketobutyrate, 2 hydroxybutyrate and glycine, albeit to lesser

  20. Quantification of structural changes in the corpus callosumin children with profound hypoxic-ischaemic brain injury

    Energy Technology Data Exchange (ETDEWEB)

    Stivaros, Stavros M. [Manchester Academic Health Science Centre, Academic Unit of Paediatric Radiology, Royal Manchester Children' s Hospital, Central Manchester University Hospitals NHS Foundation Trust, Manchester (United Kingdom); University of Manchester, Centre for Imaging Sciences, Institute of Population Health, Manchester (United Kingdom); Radon, Mark R. [The Walton Centre NHS Foundation Trust, Department of Neuroradiology, Liverpool (United Kingdom); Mileva, Reneta; Gledson, Ann; Keane, John A. [University of Manchester, School of Computer Science, Manchester (United Kingdom); Connolly, Daniel J.A.; Batty, Ruth [Sheffield Children' s Hospital NHS Foundation Trust, Department of Neuroradiology, Sheffield (United Kingdom); Cowell, Patricia E. [University of Sheffield, Department of Human Communication Sciences, Sheffield (United Kingdom); Hoggard, Nigel; Griffiths, Paul D. [University of Sheffield, Academic Unit of Radiology, Sheffield (United Kingdom); Wright, Neville B.; Tang, Vivian [Manchester Academic Health Science Centre, Academic Unit of Paediatric Radiology, Royal Manchester Children' s Hospital, Central Manchester University Hospitals NHS Foundation Trust, Manchester (United Kingdom)

    2016-01-15

    Birth-related acute profound hypoxic-ischaemic brain injury has specific patterns of damage including the paracentral lobules. To test the hypothesis that there is anatomically coherent regional volume loss of the corpus callosum as a result of this hemispheric abnormality. Study subjects included 13 children with proven acute profound hypoxic-ischaemic brain injury and 13 children with developmental delay but no brain abnormalities. A computerised system divided the corpus callosum into 100 segments, measuring each width. Principal component analysis grouped the widths into contiguous anatomical regions. We conducted analysis of variance of corpus callosum widths as well as support vector machine stratification into patient groups. There was statistically significant narrowing of the mid-posterior body and genu of the corpus callosum in children with hypoxic-ischaemic brain injury. Support vector machine analysis yielded over 95% accuracy in patient group stratification using the corpus callosum centile widths. Focal volume loss is seen in the corpus callosum of children with hypoxic-ischaemic brain injury secondary to loss of commissural fibres arising in the paracentral lobules. Support vector machine stratification into the hypoxic-ischaemic brain injury group or the control group on the basis of corpus callosum width is highly accurate and points towards rapid clinical translation of this technique as a potential biomarker of hypoxic-ischaemic brain injury. (orig.)

  1. Quantification of structural changes in the corpus callosumin children with profound hypoxic-ischaemic brain injury

    International Nuclear Information System (INIS)

    Birth-related acute profound hypoxic-ischaemic brain injury has specific patterns of damage including the paracentral lobules. To test the hypothesis that there is anatomically coherent regional volume loss of the corpus callosum as a result of this hemispheric abnormality. Study subjects included 13 children with proven acute profound hypoxic-ischaemic brain injury and 13 children with developmental delay but no brain abnormalities. A computerised system divided the corpus callosum into 100 segments, measuring each width. Principal component analysis grouped the widths into contiguous anatomical regions. We conducted analysis of variance of corpus callosum widths as well as support vector machine stratification into patient groups. There was statistically significant narrowing of the mid-posterior body and genu of the corpus callosum in children with hypoxic-ischaemic brain injury. Support vector machine analysis yielded over 95% accuracy in patient group stratification using the corpus callosum centile widths. Focal volume loss is seen in the corpus callosum of children with hypoxic-ischaemic brain injury secondary to loss of commissural fibres arising in the paracentral lobules. Support vector machine stratification into the hypoxic-ischaemic brain injury group or the control group on the basis of corpus callosum width is highly accurate and points towards rapid clinical translation of this technique as a potential biomarker of hypoxic-ischaemic brain injury. (orig.)

  2. Traumatic brain injury: advanced multimodal neuromonitoring from theory to clinical practice.

    Science.gov (United States)

    Cecil, Sandy; Chen, Patrick M; Callaway, Sarah E; Rowland, Susan M; Adler, David E; Chen, Jefferson W

    2011-04-01

    Traumatic brain injury accounts for nearly 1.4 million injuries and 52 000 deaths annually in the United States. Intensive bedside neuromonitoring is critical in preventing secondary ischemic and hypoxic injury common to patients with traumatic brain injury in the days following trauma. Advancements in multimodal neuromonitoring have allowed the evaluation of changes in markers of brain metabolism (eg, glucose, lactate, pyruvate, and glycerol) and other physiological parameters such as intracranial pressure, cerebral perfusion pressure, cerebral blood flow, partial pressure of oxygen in brain tissue, blood pressure, and brain temperature. This article highlights the use of multimodal monitoring in the intensive care unit at a level I trauma center in the Pacific Northwest. The trends in and significance of metabolic, physiological, and hemodynamic factors in traumatic brain injury are reviewed, the technical aspects of the specific equipment used to monitor these parameters are described, and how multimodal monitoring may guide therapy is demonstrated. As a clinical practice, multimodal neuromonitoring shows great promise in improving bedside therapy in patients with traumatic brain injury, ultimately leading to improved neurological outcomes. PMID:20592189

  3. Prognosis in moderate and severe traumatic brain injury: External validation of the IMPACT models and the role of extracranial injuries

    OpenAIRE

    Lingsma, Hester; Andriessen, Teuntje; Haitsema, Iain; Horn, Janneke; van der Naalt, Joukje; Franschman, Gaby; Maas, Andrew; Vos, Pieter; Steyerberg, Ewout

    2013-01-01

    textabstractBACKGROUND: Several prognosticmodels to predict outcomein traumatic brain injury (TBI) have been developed, but feware externally validated. We aimed to validate the International Mission on Prognosis and Analysis of Clinical Trials in TBI (IMPACT) prognostic models in a recent unselected patient cohort and to assess the additional prognostic value of extracranial injury. METHODS: The Prospective Observational COhort Neurotrauma (POCON) registry contains 508 patients with moderate...

  4. Protective effects of ω-3 PUFA on the second liver injury in rats with traumatic brain injury and hemorrhagic shock

    Institute of Scientific and Technical Information of China (English)

    许会彬

    2014-01-01

    Objective To investigate the effects of preconditioning withω-3 polyunsaturated fatty acid(ω-3 PUFA)on the second liver injury in rats with traumatic brain injury and hemorrhagic shock(TBIS)and explore the underlying mechanism.Methods Total of 36 male Wistar rats were assigned randomly(random number)into 3 groups(n=12 in each):sham

  5. Optical microangiography enabling visualization of change in meninges after traumatic brain injury in mice in vivo

    Science.gov (United States)

    Choi, Woo June; Qin, Wan; Qi, Xiaoli; Wang, Ruikang K.

    2016-03-01

    Traumatic brain injury (TBI) is a form of brain injury caused by sudden impact on brain by an external mechanical force. Following the damage caused at the moment of injury, TBI influences pathophysiology in the brain that takes place within the minutes or hours involving alterations in the brain tissue morphology, cerebral blood flow (CBF), and pressure within skull, which become important contributors to morbidity after TBI. While many studies for the TBI pathophysiology have been investigated with brain cortex, the effect of trauma on intracranial tissues has been poorly studied. Here, we report use of high-resolution optical microangiography (OMAG) to monitor the changes in cranial meninges beneath the skull of mouse after TBI. TBI is induced on a brain of anesthetized mouse by thinning the skull using a soft drill where a series of drilling exert mechanical stress on the brain through the skull, resulting in mild brain injury. Intracranial OMAG imaging of the injured mouse brain during post-TBI phase shows interesting pathophysiological findings in the meningeal layers such as widening of subdural space as well as vasodilation of subarachnoid vessels. These processes are acute and reversible within hours. The results indicate potential of OMAG to explore mechanism involved following TBI on small animals in vivo.

  6. Pathophysiology of Juvenile Traumatic Brain Injury: Role of Edema and a Potential Treatment

    OpenAIRE

    Adami, Arash

    2013-01-01

    Traumatic brain injury (TBI) is caused by an external force to the head, resulting in damage to the brain. TBI is especially common in children and young adults and is associated with long-term mortality and morbidity. Juveniles seem to be at increased risk of developing cerebral edema after TBI partly due to higher water content and developmental differences in the brain's response to injury. Aquaporin-4 (AQP4) is the most abundant water channel in the brain and plays a critical role in edem...

  7. Compensation through Functional Hyperconnectivity: A Longitudinal Connectome Assessment of Mild Traumatic Brain Injury

    OpenAIRE

    Armin Iraji; Hanbo Chen; Natalie Wiseman; Welch, Robert D.; Brian J. O’Neil; E. Mark Haacke; Tianming Liu; Zhifeng Kou

    2016-01-01

    Mild traumatic brain injury (mTBI) is a major public health concern. Functional MRI has reported alterations in several brain networks following mTBI. However, the connectome-scale brain network changes are still unknown. In this study, sixteen mTBI patients were prospectively recruited from an emergency department and followed up at 4–6 weeks after injury. Twenty-four healthy controls were also scanned twice with the same time interval. Three hundred fifty-eight brain landmarks that preserve...

  8. Caregiver burden in Danish family members of patients with severe brain injury

    DEFF Research Database (Denmark)

    Doser, Karoline; Norup, Anne

    more severe injuries, who spent more time on caregiving and reported more unmet needs. Overall, spouses spent significantly more time taking care of their family member than parents and reported higher levels of burden. CONCLUSIONS: The findings emphasized the continuing consequences of brain injury on......OBJECTIVE: To investigate caregiver burden and factors associated with caregiver burden among family members of patients with severe brain injury in the chronic phase. Additionally, the study aimed at investigating differences in burden between parents and spouses. METHODS: Forty-four Danish...... caregivers of patients with severe brain injury were contacted 3-6 years post-injury and asked to complete a measure of caregiver burden. RESULTS: Medium, high and low levels of burden were observed in 45%, 16% and 39% of family members, respectively. Higher burden was seen in caregivers of patients with...

  9. Inhaled nitric oxide protects males but not females from neonatal mouse hypoxia-ischemia brain injury.

    Science.gov (United States)

    Zhu, Changlian; Sun, Yanyan; Gao, Jianfeng; Wang, Xiaoyang; Plesnila, Nikolaus; Blomgren, Klas

    2013-04-01

    It was recently discovered that while under normal conditions inhaled nitric oxide (iNO) does not affect cerebral blood flow, it selectively dilates arterioles in the ischemic penumbra during experimental cerebral ischemia, thereby increasing collateral blood flow and reducing ischemic brain damage. The mechanism was verified in multiple models, but only in male animals. Our aim was to evaluate the effects of iNO on brain injury in neonatal males and females. Nine-day-old mice were subjected to unilateral hypoxia-ischemia (HI), using 10% oxygen balanced with nitrogen, with or without 50 ppm NO. Brain injury 72 h after HI was reduced by iNO as judged by percentage of injury (-21.7%), atrophy (-23.7%), and total pathological score (-29%). The injury was significantly reduced in males (-32.4%, pbrain injury in a gender-related manner. PMID:24323275

  10. Protective effects of acupuncture on brain tissue following ischemia/reperfusion injury

    Institute of Scientific and Technical Information of China (English)

    Mingshan Wang; Fuguo Ma; Huailong Chen

    2008-01-01

    BACKGROUND: In patients with cerebrovascular disease, by means of the neuroendocrine system, acupuncture supports the transformation of a local pathological status into a physiological status. Recently, great progress has been made in studying the protective effects of acupuncture on brain ischemia/reperfusion injury. OBJECTIVE: To summarize research advances in the protective effects of acupuncture on brain ischemia/reperfusion injury. RETRIEVAL STRATEGY: Using the terms "acupuncture, transcutaneous electrical acupoint stimulation, cerebral ischemia/reperfusion injury, and cerebral protection", we retrieved articles from the PubMed database published between January 1991 and June 1994. Meanwhile, we searched the China National Knowledge Infrastructure with the same terms. Altogether, 114 articles and their results were analyzed. Inclusive criteria: studies that were closely related to the protective effects of acupuncture on brain ischemia/reperfusion injury, or studies, whose contents were in the same study field and were published recently, or in the authorized journals. Exclusive criteria: repetitive studies. LITERATURE EVALUATION: Thirty articles that related to the protective effects of acupuncture on brain ischemia/reperfusion injury were included. Among them, 7 were clinical studies, and the remaining 23 articles were animal experimental studies. DATA SYNTHESIS: ① Animal experimental studies have demonstrated that acupuncture improves brain blood perfusion and brain electrical activity, influences pathomorphological and ultramicrostructural changes in ischemic brain tissue, is beneficial in maintaining the stability of intracellular and extracellular ions, resists free radical injury and lipid peroxidation, and influences cytokine, neurotransmitter, brain cell signal transduction, and apoptosis-regulating genes. ② Clinical studies have demonstrated that acupuncture not only promotes nutritional supply to local brain tissue in patients with cerebral

  11. Occurrence and severity of agitated behavior after severe traumatic brain injury

    DEFF Research Database (Denmark)

    Moth Wolffbrandt, Mia; Poulsen, Ingrid; Engberg, Aase W; Hornnes, Nete

    2013-01-01

    To investigate the occurrence and severity of agitation in patients after severe traumatic brain injury (TBI), to identify predictors of agitation and to study interrater reliability for a translated version of the Agitated Behavior Scale (ABS)....

  12. Playground-Related Brain Injuries on Rise in U.S.

    Science.gov (United States)

    ... html Playground-Related Brain Injuries on Rise in U.S. ERs treat more kids, perhaps because of greater ... were compiled for a new report from the U.S. Centers for Disease Control and Prevention. "It's not ...

  13. Penetrating brain injury with machete, stuck to calvarium: Hurdles in imaging and solutions

    Directory of Open Access Journals (Sweden)

    Mehul Modi

    2014-01-01

    Full Text Available Penetrating brain injury is a less common form of traumatic brain injury in civilian set up, with a higher mortality and morbidity. A detailed preoperative imaging is warranted to ascertain the extent of injury and involvement of neurovascular structures. We present a rare case of penetrating brain injury with a long machete, who underwent emergency craniotomy, removal of the weapon, debridement and evacuation of the brain contusion and dural repair. Due to the sheer size of the weapon stuck to the calvarium, only X-rays could be performed preoperatively. The difficulties posed by the case, requiring modifications in standard imaging, possible solutions to address the problem and individualized management techniques are discussed in this report.

  14. Impaired Cerebral Autoregulation during Head Up Tilt in Patients with Severe Brain Injury

    DEFF Research Database (Denmark)

    Riberholt, Christian Gunge; Olesen, Niels Damkjær; Thing, Mira;

    2016-01-01

    Early mobilization is of importance for improving long-term outcome for patients after severe acquired brain injury. A limiting factor for early mobilization by head-up tilt is orthostatic intolerance. The purpose of the present study was to examine cerebral autoregulation in patients with severe...... acquired brain injury and a low level of consciousness. Fourteen patients with severe acquired brain injury and orthostatic intolerance and fifteen healthy volunteers were enrolled. Blood pressure was evaluated by pulse contour analysis, heart rate and RR-intervals were determined by electrocardiography...... mean velocity and estimated cerebral perfusion pressure. Patients with acquired brain injury presented an increase in mean flow index during head-up tilt indicating impaired autoregulation (P < 0.001). Spectral analysis of heart rate variability in the frequency domain revealed lower magnitudes of ~0...

  15. Acquired brain injury services in the Republic of Ireland: experiences and perceptions of families and professionals.

    LENUS (Irish Health Repository)

    McDermott, Garret L

    2014-01-01

    This study aimed to highlight the experiences and perceptions of rehabilitation services among families of people with Acquired Brain Injury (ABI) and among professionals working in ABI rehabilitation services in Ireland.

  16. Gabapentin in the management of dysautonomia following severe traumatic brain injury: a case series

    DEFF Research Database (Denmark)

    Baguley, Ian J; Heriseanu, Roxana E; Gurka, Joseph A;

    2007-01-01

    The pharmacological management of dysautonomia, otherwise known as autonomic storms, following acute neurological insults, is problematic and remains poorly researched. This paper presents six subjects with dysautonomia following extremely severe traumatic brain injury where gabapentin controlled...

  17. Placebo-controlled trial of amantadine for severe traumatic brain injury

    DEFF Research Database (Denmark)

    Giacino, Joseph T; Whyte, John; Bagiella, Emilia;

    2012-01-01

    Amantadine hydrochloride is one of the most commonly prescribed medications for patients with prolonged disorders of consciousness after traumatic brain injury. Preliminary studies have suggested that amantadine may promote functional recovery....

  18. Transplantation of autologous bone marrow-derived mesenchymal stem cells for traumatic brain injury

    Institute of Scientific and Technical Information of China (English)

    Jindou Jiang; Xingyao Bu; Meng Liu; Peixun Cheng

    2012-01-01

    Results from the present study demonstrated that transplantation of autologous bone marrow-derived mesenchymal stem cells into the lesion site in rat brain significantly ameliorated brain tissue pathological changes and brain edema, attenuated glial cell proliferation, and increased brain-derived neurotrophic factor expression. In addition, the number of cells double-labeled for 5-bromodeoxyuridine/glial fibrillary acidic protein and cells expressing nestin increased. Finally, blood vessels were newly generated, and the rats exhibited improved motor and cognitive functions. These results suggested that transplantation of autologous bone marrow-derived mesenchymal stem cells promoted brain remodeling and improved neurological functions following traumatic brain injury.

  19. Diffusion Tensor Imaging Reveals White Matter Injury in a Rat Model of Repetitive Blast-Induced Traumatic Brain Injury

    OpenAIRE

    Calabrese, Evan; Du, Fu; Garman, Robert H.; Johnson, G. Allan; Riccio, Cory; Tong, Lawrence C.; Joseph B. Long

    2014-01-01

    Blast-induced traumatic brain injury (bTBI) is one of the most common combat-related injuries seen in U.S. military personnel, yet relatively little is known about the underlying mechanisms of injury. In particular, the effects of the primary blast pressure wave are poorly understood. Animal models have proven invaluable for the study of primary bTBI, because it rarely occurs in isolation in human subjects. Even less is known about the effects of repeated primary blast wave exposure, but exis...

  20. A quantitative MRI method for imaging blood-brain barrier leakage in experimental traumatic brain injury.

    Directory of Open Access Journals (Sweden)

    Wei Li

    Full Text Available Blood-brain barrier (BBB disruption is common following traumatic brain injury (TBI. Dynamic contrast enhanced (DCE MRI can longitudinally measure the transport coefficient Ktrans which reflects BBB permeability. Ktrans measurements however are not widely used in TBI research because it is generally considered to be noisy and possesses low spatial resolution. We improved spatiotemporal resolution and signal sensitivity of Ktrans MRI in rats by using a high-sensitivity surface transceiver coil. To overcome the signal drop off profile of the surface coil, a pre-scan module was used to map the flip angle (B1 field and magnetization (M0 distributions. A series of T1-weighted gradient echo images were acquired and fitted to the extended Kety model with reversible or irreversible leakage, and the best model was selected using F-statistics. We applied this method to study the rat brain one hour following controlled cortical impact (mild to moderate TBI, and observed clear depiction of the BBB damage around the impact regions, which matched that outlined by Evans Blue extravasation. Unlike the relatively uniform T2 contrast showing cerebral edema, Ktrans shows a pronounced heterogeneous spatial profile in and around the impact regions, displaying a nonlinear relationship with T2. This improved Ktrans MRI method is also compatible with the use of high-sensitivity surface coil and the high-contrast two-coil arterial spin-labeling method for cerebral blood flow measurement, enabling more comprehensive investigation of the pathophysiology in TBI.