View clinical trials related to Brain Injuries, Traumatic.
Filter by:This study will test a new MRI sequence that measures cerebral blood flow (CBF). Because this technique for measuring CBF is new, there is little information on what the normal values for different regions of the brain should be. Information from the study will be used to establish normative CBF values for the brain, improving the reliable use of this technique for the diagnosis of brain injury or disease.
The main objective of this study is to discern if an Occupational Therapy Driving Intervention (OT-DI) improves fitness to drive abilities of Combat Veterans and also investigate if results leads to reduced driving errors on the driving simulator and an on-road test. The driving behavior of 260 Combat Veterans will be studied on a driving simulator at baseline after which they will be randomized into control and intervention groups. The intervention group will receive sessions of Occupational Therapy Driving Intervention by a trained driving rehabilitation specialist. The control group on the other hand will receive driving safety education sessions by a driving safety professional. Both groups will be evaluated for driving performance on the driving simulator to ascertain whether there have been changes in the number of driving errors at two and three months upon enrollment. Caregiver responses on driving behavior of Combat Veteran and public driving records from The Department of Motor Vehicles will be analyzed to for changes in number of driving errors.
Driving is a portal into general life functioning, and impaired driving skill can pose a serious threat to the combat veterans (CV), passengers and others; and involves increased risk of subsequent injuries, medical expenses and legal sequelae. Motor vehicle crashes (MVC) among post deployed CV are one of the top four causes of injury and disability, hospitalization, and outpatient visits across the military, and are a leading cause of death among Army service members. The risk of motor vehicle (MV) death is significantly increased in years immediately following return from the battlefield. In sum, the effects of Traumatic Brain Injury (TBI)/ Post Traumatic Stress Disorder (PTSD) and other blast related injuries, combined with the "battlefield" mindset and lack of community reintegration programs place CV at risk for MVC and fatalities. On-road assessments, the gold standard, presents a risk for crash or adverse advents in this population of CV. Alternately, simulated driving evaluation measures driving performance in a safe, accurate and objective manner with evidence of absolute and relative validity when compared to real world (on-road) driving. Knowing participants can or cannot safely resume driving, and providing rehabilitation for those with a potential for resuming safe driving could result in: increased safe driving behaviors; avoidance of injuries, collisions, citations and participants residua; and resuming safe driving with its attendant benefits in the realms of family functioning, participation in society and satisfaction with life. The overarching objective of this proposal is to discern, after clinical and simulated driving performance testing , if Occupational Therapy Driving Intervention (OT-DI) can improve the safe driving performance (less errors) over the short term (immediately following intervention) and intermediate term (3 months).
Post-traumatic brain hypoxia/ischemia develops hours after traumatic brain injury (TBI), and its intensity is directly related to the neurological outcome. The thresholds for irreversible tissue damage following TBI indicate a particular vulnerability of injured brain. Improving brain oxygenation after severe TBI is the focus of modern TBI management in the intensive care unit (ICU). The calculation of cerebral perfusion pressure (CPP), with CPP = mean arterial pressure (MAP) - intracranial pressure (ICP), has become the most used estimator of cerebral blow flow. To prevent ischemia due to elevated ICP, current international guidelines recommend maintaining CPP at 60-70 mmHg and ICP below 20 mmHg. However, episodes of brain hypoxia/ischemia, as assessed with brain tissue oxygen pressure (PbtO2) measurements, might occur despite optimization of CPP and ICP, and have been independently associated with poorer patient outcome. PbtO2 values lower than 15 mmHg for more than 30 minutes were shown to be an independent predictor of unfavorable outcome and death. The aggressive treatment of low PbtO2 was associated with improved outcome compared to standard ICP/CPP-directed therapy in cohort studies of severely head-injured patients. On the basis of these findings, it is hypothesized that an early optimization of brain oxygenation, together with keeping ICP and CPP within recommended values, could reduce the volume of vulnerable lesions following severe TBI and possibly improve neurological outcome.
This is the proof of concept study with multi-modality approach (using intra-thecal bioactive peptides, stem cells, laser and transcranial IV laser and Median Nerve stimulation as adjuvants) in cases of brain death due to traumatic brain injury having diffuse axonal injury to document possibility of reversal of brain death (BD).
Exaggerated inflammation in the body and brain is thought to play a role in the vulnerability to and aggravation and perpetuation of adverse consequences among those with co-occurring mild TBI (mTBI) and post-traumatic stress disorder (PTSD). The proposed study begins the process of investigating the use of a natural immunoregulatory/anti-inflammatory probiotic to treat chronic symptoms associated with co-occurring mTBI and PTSD among Veterans. By looking at the impact of probiotic supplementation on biological signatures of increased inflammation, as reflected by the gut microbiota, gut permeability, and biomarkers of peripheral inflammation, this study may lead to the identification of a novel intervention for the treatment of symptoms associated with these frequently co-occurring conditions.
The purpose of this research study is to evaluate whether Vyvanse, a psychostimulant, can help children ages 6-16 with attention deficits due to traumatic brain injury (TBI). Vyvanse is currently approved for the treatment of Attention-Deficit/Hyperactivity (ADHD). The exact effects this drug may have on adults with attention deficits caused by TBI have been investigated prior. The exact effects this drug may have on children with attention deficits caused by TBI are not known, but the investigators expect that Vyvanse will be of some help in treating this population as well.
The current study seeks to evaluate cognitive behavior therapy for insomnia (CBT-I), a non-medication treatment, in recent TBI patients compared to a sleep education control intervention. Patients will participate in CBT-I treatment (or sleep education treatment) weekly for six weeks, and will have a 3-months follow-up visit in order to examine the efficacy and time course of treatment. In addition, participants will complete several self-report questionnaires in order to examine sleep and neuropsychiatric symptoms throughout treatment.
The purpose of this study is to explore the functional and physiological effects associated with the use of High-resolution, relational, resonance-based, electroencephalic mirroring (HIRREM), as supplemental care, for symptoms of neurological, cardiovascular, and neuropsychological disorders. This is a non-randomized, open label, and unblinded before-and-after trial, evaluating the effect of HIRREM on an objective, physiological common denominator (heart rate variability, HRV), across a variety of relevant conditions, as well as changes in clinical symptoms inventories, to generate hypotheses and pilot data for investigation in future proposals.
The purpose of this research study is to investigate how useful three balance tests are in predicting fall risk in the individual with traumatic brain injury (TBI). These tests are the Functional Gait Assessment (FGA), the Berg Balance Scale (BBS), and the mini-Balance Evaluation Systems Test (mini-BESTest).