View clinical trials related to Brain Injuries.
Filter by:The current conflicts in Afghanistan and Iraq have resulted in unprecedented rates of exposure to high-intensity blasts and resulting brain injury. This research team has established that recently blast-exposed Soldiers show differences from controls on tests of central auditory function. This project will 1) develop a more accurate estimate of the prevalence of central auditory dysfunction among Veterans exposed to blasts over the past ten years, 2) identify the functional outcomes associated with abnormal performance on tests of central processing, and 3) improve understanding of the ways in which blast-exposure resembles and differs from both the normal aging process and non-blast-related TBI in terms of performance on tests of central auditory processing.
The global aim of this proposal is to test and refine Common Data Elements (CDEs), neuroimaging standards, and best practices for genetics and proteomics in Traumatic Brain Injury (TBI) studies. Testing and validating of TBI-CDEs will be performed in a multi-center prospective observational study with 3 TBI Centers (San Francisco General Hospital (SFGH), University of Pittsburgh Medical Center (UPMC), University Medical Center Brackenridge (UMCB)) and a TBI Rehabilitation Center (Mount Sinai Rehabilitation Center (MSMC)). The investigators will create and expand existing data repositories for patient demographics, neuroimaging, plasma biomarkers, genetics, and multivariate outcomes thereby providing researchers and clinicians with the infrastructure to establish multidisciplinary, multicenter research networks and improve clinical research in the TBI field.
The objectives of the study are to document device performance with respect to the primary and secondary endpoints.
The current study will evaluate the initial reliability and validity of a new instrument, the INTRuST Structured Assessment for Evaluation of TBI (SAFE-TBI), in three samples of Operation Enduring Freedom/Operation Iraqi Freedom/Operation New Dawn (OEF/OIF/OND) veterans. The SAFE-TBI is a relatively brief measure developed by INTRuST consortium investigators and designed to be given by a trained administrator. It allows for a determination of the level of evidence for exposure to a mild traumatic brain injury (TBI) using the following categories: Strong, Moderate, Weak, or No Evidence of mild TBI. The first objective is to determine the reliability (both test-retest and inter-rater) in a sample of 100 veterans recently returned from deployment at Joint Base Lewis-McChord and Fort Bragg (Cohort 1), who have screened positive for TBI on the Post-Deployment Health Assessment. The second objective is to determine the concordance between the SAFE-TBI and the VA TBI Screen in 100 OEF/OIF/OND veterans within the Northern New England VA Research Consortium (Cohort 2). The third objective, to be carried out in a sample of 200 Walter Reed National Military Medical Center (WRNMMC) and Fort Belvoir Community Hospital OEF/OIF/OND patients (Cohort 3), is to determine the sensitivity and specificity of the SAFE-TBI using the INTRuST study "Brain Indices of Risk for Posttraumatic Stress Disorder after Mild Traumatic Brain Injury" initial evaluation as the "gold standard" for TBI assessment.
The purpose of this study is to develop and validate eye-tracking measures that can be used to evaluate neurocognitive dysfunction among individuals with traumatic brain injury (TBI).
This study is being done to improve the ability to diagnose and to achieve higher-levels of functional recovery in soldiers and civilians who have suffered either mild Traumatic Brain Injury (TBIs) or moderate-to-severe TBIs at chronic stages of brain recovery (greater than 12 months).
Background: - Some people who have a traumatic brain injury (TBI) recover completely. Others, however, develop post-traumatic stress disorder (PTSD), with anxiety and depression. Research suggests that levels of a brain chemical called GABA may differ in people with PTSD compared to those without PTSD. Researchers want to see if TBI can affect GABA in the brain and help develop PTSD. To look at the brain, researchers will use imaging studies with the chemical 11C-Flumazenil, which will help the scan show GABA levels in the brain. Objectives: - To study the relationship between PTSD and TBI. Eligibility: The subjects will be recruited from the Walter Reed National Military Medical Center (WRNMMC). - Individuals between 18 and 50 years of age who have PTSD and/or had a mild TBI. - Healthy individuals between 18 and 50 years of age who have no history TBI and no history of PTSD. Design: - Participants will be screened with a physical exam and medical history. Urine and breath samples will also be collected. - Participants will have two imaging studies, on the same day if possible. The first will be a magnetic resonance imaging scan to look at the brain. The second will be a positron emission tomography scan with the study chemical to look at GABA pathways in the brain....
Background: - People with traumatic brain injury (TBI) often have inflammation in the brain. A protein called the translocator protein (TSPO) is often present with inflammation. Researchers want to see if a radioactive chemical known as [11C]PBR28 can be used to study TSPO and inflammation in the brain of people with TBI. Objectives: - To test whether [11C]PBR28 can be used to study changes in the brain after a traumatic brain injury. Eligibility: - Individuals at least 18 years of age who have had TBI and have had a brain scan that shows signs of inflammation. - Healthy volunteers at least 18 years of age. Design: - Participants will be screened with a physical exam and medical history. Blood and urine samples will be collected. - All participants will have two brain scans during an outpatient visit. A magnetic resonance imaging scan will study brain activity. A positron emission tomography (PET) scan will use [11C]PBR28 to look for signs of TSPO and brain inflammation. - Participants with TBI will have two PET scans within 10 days of the head injury, and a PET scan around 90 days after the injury. They may also have MRI scans under this or another study. Tests of thinking, memory, and concentration will be used to study the effects of the injury and inflammation
This study examines the effect of inhaled xenon gas in the treatment of newborn infants with hypoxic-ischemic encephalopathy (HIE) in combination with cooling, which is the standard treatment for this condition. The hypothesis is that the xenon + cooling combination will produce better neuroprotection than the standard treatment of cooling alone.
Mild traumatic brain injury (mTBI), also known as concussion, occurs commonly in sport. Despite ongoing research, there is no highly sensitive clinical test for cognitive function. This makes the clinical diagnosis of concussion particularly difficult as the clinical presentation of concussion is highly variable with symptoms often evolving over time. Given the variability in concussion presentations, there is no single test that can diagnose a concussion. Current recommendations are that sports medicine providers apply a multifaceted concussion assessment battery that combines subjective symptoms, motor control and cognitive assessment. This investigation is designed to evaluate the clinical utility of ElMindA's BNA scores in detecting and managing concussive injuries. This study will establish the reliability of BNA™ scores over clinically relevant assessment intervals and investigate the effect of SRC and sub-concussive head impacts on BNA scores.