View clinical trials related to Brain Injuries, Traumatic.
Filter by:The CRASH-3 trial will provide reliable evidence about the effect of tranexamic acid on mortality and disability in patients with traumatic brain injury. The effect of tranexamic acid on the risk of vascular occlusive events and seizures will also be assessed. Additionally, a nested study will be conducted in a subset of CRASH-3 trial participants. This nested study (CRASH-3 Intracranial Bleeding Sub-Study [CRASH-3 IBS]) will examine the effect of tranexamic acid on intracranial haemorrhage and cerebral ischaemia using CT Scans in approximately 1,000 patients randomised into the CRASH-3 trial.
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 study is to determine whether NNZ-2566 is safe and effective in the treatment of Traumatic Brain Injury (TBI).
Evaluation of the impact (on survival and other outcomes) of implementing the Brain Trauma Foundation/National Association of EMS Physicians Traumatic Brain Injury (TBI) guidelines in the prehospital EMS systems throughout the state of Arizona.
Purpose: Mild traumatic brain injury (TBI) is extremely common among Operation Enduring Freedom/Operation Iraqi Freedom (OEF/OIF) era Veterans. Mild TBI is frequently accompanied by post-traumatic stress disorder (PTSD) and depression symptoms, co-occurring disorders that contribute to increased disability and decreased quality of life. Neuroactive steroids (NS) represent promising pharmacological candidates for intervention for these diverse symptom domains, since a number of these molecules demonstrate pronounced neuroprotective and neurotrophic properties. The NS pregnenolone (PREG) is a logical therapeutic option, since it enhances learning and memory and also increases myelination in rodent models. Further, decreases in PREG have been associated with depressive symptoms, and PREG is also metabolized to allopregnanolone (ALLO), an anxiolytic downstream NS that is decreased in PTSD. ALLO also enhances neurogenesis in rodents. The investigators thus propose an randomized controlled trial (RCT) in OEF/OIF era Veterans with mild TBI. Methodology: The design of this study will be randomized, placebo-controlled, double-blind. Trial duration will be 10 weeks, consisting of a 2-week placebo lead-in period for all subjects, followed by 8 weeks of treatment with either pregnenolone or placebo. The primary cognitive outcome measure will be executive functioning (as assessed by the Tower of London test), and the primary behavioral outcome measure will be PTSD Cluster D symptoms (as assessed by the Clinician-Administered PTSD Scale, CAPS). The investigators will also determine if PREG administration in OEF/OIF Veterans with mild TBI increases downstream ALLO and/or other GABAergic NS levels, and the investigators will identify the specific metabolism profile of PREG following eight weeks of treatment with this neurosteroid. Anticipated Findings: The investigators hypothesize that treatment with PREG in OEF/OIF era Veterans with mild TBI will significantly improve executive functioning compared to the placebo condition. The investigators also predict that treatment with PREG will decrease Cluster D PTSD symptoms compared to treatment with placebo.
The overall hypothesis is that the long-term cognitive and behavioral sequelae of traumatic brain injury (TBI) are due to selective disruption of the long association white matter tracts of the cerebral hemispheres, with resulting functional impairment of the network of cortical regions that are interconnected by these long-range association pathways. We propose that traumatic white matter injury can be measured with diffusion tensor imaging (DTI) and that the impaired cortical activation can be detected with magnetoencephalography (MEG), and that the results of these imaging examinations will correlate with neurocognitive status and functional recovery after TBI.
Background: - Studies have shown that some people develop post-traumatic stress disorder (PTSD) after being exposed to the trauma of military combat. They may have repeated thoughts, images, and dreams of the trauma; feel detached from others; have difficulty sleeping and concentrating; or be easily startled. Some studies have also shown that after having a blow or blast to the head, some people may develop post-concussive syndrome (PCS), which may include symptoms such as headaches, difficulty concentrating, and feeling moody or irritable. Researchers are interested in using magnetic resonance imaging (MRI) to study combat veterans from Operation Iraqi Freedom or Operation Enduring Freedom in order to evaluate possible changes in the brain that may be attributed to PTSD or PCS. Objectives: - To evaluate changes in brain function in recent combat veterans that may be related to post-traumatic stress disorder or post-concussive syndrome. Eligibility: - Combat veterans of Operation Iraqi Freedom/Operation Enduring Freedom who are enrolled in Walter Reed Army Medical Center protocol 351030, have returned within the last 6 weeks from a deployment in Iraq or Afghanistan that lasted at least 3 months, and are able to have magnetic resonance imaging scans. Design: - This study involves between 1 and 4 outpatient visits to the NIH Clinical Center over the course of 1 year. The second, third, and fourth visits will occur 3, 6, and 12 months after the first visit. - At the first visit, participants will have a baseline MRI scan, followed by a functional MRI (fMRI) scan to see what parts of the brain are used while performing simple tasks and responding to images. Participants will complete questionnaires after the scan to report on their experiences during the MRI scan. - For the remaining three study visits, participants will have further MRI and fMRI scans and will complete additional questionnaires. Participation is complete after the 12-month study visit, or following a diagnosis of PTSD, major depression, or PCS at any time during the study. - No treatment will be provided as part of this protocol.
The purpose of this study is to assess if putative brain injury biomarkers have utility as blood-based traumatic brain injury (TBI) diagnostic and monitoring tools. This will be accomplished by examining the relationships between potential serum-based TBI biomarkers and clinical measures of injury severity, occurrence of complications, and outcome, in subjects with mild or moderate TBI. The assay will be evaluated in a sample population of subjects over the age of 18 who have been referred to the health care provider for closed head injury evaluation.
Background: - Many people who have traumatic brain injury (TBI) have low levels of physical fitness. Low physical fitness causes severe fatigue that reduces the ability to perform routine daily activities, and may also cause increased depression, anxiety, or sadness. Aerobic exercise, such as treadmill walking or running, improves physical fitness in most people and may also decrease fatigue and improve mood. However, more information is needed to determine if exercise improves these conditions in people who have TBI. Objectives: - To examine the effect of an aerobic treadmill walking exercise program on physical fitness, fatigue, and mood in people with TBI. Eligibility: - Individuals between 21 and 45 years of age who had a nonpenetrating traumatic brain injury at least 6 months before participating; able to understand oral and written English language, give informed consent and sign a consent form; are physically inactive (including activities related to both job and recreation); and are able to stand and walk on a treadmill safely without help. Design: - This study requires 4 testing visits and 36 exercise visits over 14 weeks. - The first and third testing visits will last about 4 hours and the second and final testing visits will take about 2 hours. - Testing visits will consist of a medical history and physical examination, completion of questionnaires (about fatigue, daily physical activity, sleep quality, mood, and overall quality of life), tests of thinking and a treadmill exercise test. - Participants will have treadmill exercise training 3 days per week for 12 weeks. Each session includes a check-in, warm-up, treadmill walking at the training heart rate, and cool-down. Thirty-two of the sessions will last for about 1 hour, and four of the sessions will include questionnaires to fill out and will last about one-and-a-half hours. - After completing the exercise training program, participants will have a final testing visit to complete the questionnaires (about fatigue, daily physical activity, sleep quality, mood, and overall quality of life), tests of thinking and a treadmill exercise test....
The investigators hypothesize that individual differences exist in resting-state cortical attention, control, sensory, and emotion networks prior to noise exposure and these differences predispose some to the development of bothersome tinnitus. Furthermore, the investigators hypothesize that these changes in functional connectivity of these vulnerable systems after noise exposure are responsible for tinnitus. The proposed study will use a case-control cohort study design. Cases will be those soldiers who develop tinnitus and controls will be those who do not. This will be the first prospective study of tinnitus and will provide important information about the neurobiology of tinnitus. If a cortical neural network etiology for bothersome tinnitus is confirmed, it will be an astounding, powerful, paradigm shifting model for the diagnosis, prevention and, most importantly, treatment of tinnitus. Furthermore, if a battery of neurocognitive tests can identify soldiers at risk for the development of tinnitus then appropriate primary prevention strategies can be introduced. There are three Specific Aims to this project. Specific Aim 1. To determine if soldiers who develop tinnitus display pre-deployment differences in a set of physical, functional, cognitive, vulnerability, perpetuating factors, pre-deployment neurocognitive scores, or neuroimaging features compared to soldiers who do not develop tinnitus ("control group"). Specific Aim 2. To determine if particular scores on neurocognitive tests or neuroimaging features of functional/structural connectivity networks are associated with the development of tinnitus. Specific Aim 3. To identify a set of pre-deployment physical, functional, cognitive, vulnerability, and perpetuating factors, neurocognitive responses, and neuroimaging features that are associated with the development of tinnitus. The investigators plan to recruit 200 soldiers, between the ages of 18 and 30 years who do not have hearing loss or tinnitus and have never been deployed to military theater. The soldier participants will undergo a variety of tests before and after deployment, which will include a hearing test, neurocognitive tests (i.e., brain function tests), and a variety of novel radiologic imaging studies of the brain. One of these novel radiologic imaging studies is functional connectivity Magnetic Resonance Imaging, a proven methodology that monitors changes in brain activity and connections based on blood flow between different brain areas and levels of consumption of oxygen. This information is used to describe the condition of important neural networks responsible for such things as attention, mood, sensation, vision, hearing, and introspection or self-contemplation.