View clinical trials related to Brain Concussion.
Filter by: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.
Today's hospitals need innovative solutions to help patients transition from our care to self-management at home. The vast majority of the patients seen in Dodd Rehabilitation Hospital and associated clinics leave our care with persistent and life-altering challenges - behavioral, cognitive, emotional and/or physical. The period of time immediately following discharge is an under-addressed stage within the continuum of care. The investigators are researching solutions to help patients in this transition to self-care and believe that multiplayer gaming paradigms may be a promising innovation to facilitate this transition. The investigators believe that Dr. Jane McGonigal's SuperBetter, and positive play games like it, are promising novel interventions that could make a positive difference in the ability of our patients to successfully transition to self care after discharge from therapeutic care. Specifically, the investigators will evaluate feasibility of use of such a game by mild to moderate brain injured individuals and to record pilot data to help us plan a clinical effectiveness follow up study. Our goal is to finish this study with an intervention tailored for use within the clinical continuum of care and sufficient pilot data to prepare for a randomized clinical control trial of this intervention.
The purpose of this pilot project is to determine whether using one inertial sensor on the waist during routine clinical balance testing (i.e. Balance Error Scoring System (BESS)), will be a more immediate, objective, reliable and sensitive way to measure and quantify balance deficits in individuals with mild Traumatic Brain Injury (mTBI).
The objective of this trial is to evaluate the effectiveness of cognitive rehabilitation in OIF/OEF service members with a history of mild traumatic brain injury and persistent (3-24 months post injury) cognitive complaints. This is a prospective, randomized, control treatment trial of cognitive rehabilitation for OEF/OIF Service Members with a history of mild traumatic brain injury (mTBI) and persistent (3-24 months post-injury) cognitive complaints. Subjects will be recruited from consecutive patient referrals to the TBI Service at SAMMC-North. Patients who meet eligibility criteria and consent to participate in the treatment trial will be randomly assigned to one of four, 6-week treatment arms of the study. Subjects will be evaluated prior to the start of treatment and 3, 6, 12, and 18 weeks following the initiation of the study. The total number of patients to be studied is 160 (maximum), which is approximately 20 patients per month.
The purpose of this project is to explore the degree to which performance consistency on neuropsychological measures varies in a sample of Operation Iraqi Freedom (OIF)/Operation Enduring Freedom (OEF) Veterans with a history of mild traumatic brain injury (mTBI) with persistent self-reported symptoms.
This is a Phase II randomized trial designed to describe the magnitude of change between baseline and follow-up outcomes for symptom surveys and a battery of neuropsychological tests administered at time points corresponding before and after 10 weeks over observation in four groups: - A military population with post-concussion syndrome (mTBI) receiving local standard care - A military population with post-concussion syndrome (mTBI) receiving local standard care and sham hyperbaric oxygen sessions - A military population with post-concussion syndrome (mTBI) receiving local standard care and hyperbaric oxygen at 1.5 atmospheres sessions - A otherwise similar group with PTSD but no history of TBI receiving local standard care Differences and variability of the tests will be used for determining the optimum primary endpoint(s) for future trial, as well as for refinement of sample size and power calculations for these studies. The groups undergoing hyperbaric sessions will be assigned to receive HBO2 or sham using a randomized, double blind design. Active duty military (Army, Marine, Navy, Air Force) men and non-pregnant women residing in the United States and who will remain in the military for the entire study period, aged 18-65 years who have been deployed one or more times to the US Central Command since the initiation of Operation Enduring Freedom (October 7, 2001) who either: - have been diagnosed with Post Traumatic Stress Disorder (PTSD) as a result of traumatic events that occurred during the qualifying CENTCOM deployment, but have no diagnosed or suspected lifetime brain injuries resulting in loss or alteration of consciousness; OR - have been diagnosed with at least one mild brain injury (mTBI) with persistent (> 4 months) symptoms sustained during one or more of those deployments
The goal of this research is to serve as a demonstration project to determine the tolerability of individuals with persistent post-concussive symptoms from combat-related mild TBI (traumatic brain injury), identify dose-finding for HBO2 (Hyperbaric Oxygen) therapy, and determine the efficacy of HBO2 therapy.
The purpose of this study is to find out if strict rest for 5 days helps children get better after concussion.
We will utilize a set of imaging modalities including computed tomography (CT), positron emission tomography (PET), and a suite of magnetic resonance imaging (MRI) tools, to investigate the changes in the human brain resulting from mild traumatic brain injury (mTBI).
The purpose of this project is to determine the effects of mild traumatic brain injury and blast exposure on the inner ear balance and central nervous systems.