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Active clinical trials for "Brain Injuries, Traumatic"

Results 1221-1230 of 1495

Advanced Imaging Tools in the Study of Mild Traumatic Brain Injury

Mild Traumatic Brain Injury

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).

Completed18 enrollment criteria

S-100B as Pre-Head CT Scan Screening Test After Mild Traumatic Brain Injury

Traumatic Brain Injury

The purpose of the study is to determine if a specific blood protein, S-100B, can help predict who will have a traumatic abnormality on head CT scan after a concussion. We will compare the levels of this protein in the subject's blood to the initial head CT scan and to how the subject is feeling one month after injury. We hope that the information we collect in this trial will help us determine who needs a head CT scan after a concussion and who may be more likely to have trouble recovering from a concussion.

Completed14 enrollment criteria

Cortical Excitability in Patients With Severe Brain Injury

Severe Traumatic Brain InjurySubarachnoid Hemorrhage1 more

The aim of the study is to evaluate the cortical excitability in the severe brain injured patients. We hypothesize that: There is a continuous decrease in intracortical inhibition from healthy subjects to awake patients with severe brain injury, and to patients with impaired consciousness. Decreased intracortical inhibition correlate with the degree of impairment assessed with the clinical scores in patients with severe brain injury.

Unknown status7 enrollment criteria

S100 Protein in Minor/Mild Traumatic Brain Injury

Minor/Mild Traumatic Brain Injury

Traumatic brain injury (TBI) is a Public Health problem, because of the numbers of events (more than 200,000 per year in France). Craniocerebral tomodensitometry (CCT) is widely used for the diagnosis of minor/mild TBI, but both the access to the CCT and the cost of this imagery are critical factors. We hypothesized that the blood level measurement of S100 protein (S100), a neurological biomarker of cerebral injury, would help to the clinical evaluation of minor/mild head injury events, and would be an economic alternative to CCT for the diagnosis of these pathologies. In addition, a part of the study will explore the prognostic value of such blood level S100 determination for the evaluation of medical/social consequences of minor/mild TBI. Medical objective of the study: to assess the contribution of early determination (to medical care) of S100 for the diagnosis of minor/moderate TBI (TCCMM - Glasgow sup or equal to 9), to determine the usefulness of a second dosage three hours later for the medical decision. In other words, to compare S100 biomarker and CCT considered as a reference ( "Gold Standard") for the diagnosis or exclusion of TCCMM, and to precise its terms of use. Economic objective: to conduct a cost-effectiveness study of blood level determination of S100 vs. CCT for the diagnosis of minor/moderate TBI and its medical/social consequences

Completed15 enrollment criteria

Evaluation of Biomarker Kinetics After Mild Brain Injury Trauma

Traumatic Brain Injury

The primary objective of the clinical trial is to evaluate the effect of time on levels of Ubiquitin C-terminal Hydrolase-L1 (UCH-L1) and Glial Fibrillary Acidic Protein (GFAP) biomarker levels in a population of head injured subjects over the age of 18 presenting acutely with a Glasgow Coma Scale score 13-15 as well as in a group of uninjured control subjects.

Completed36 enrollment criteria

Comparative Effectiveness of Rehabilitation Interventions for Traumatic Brain Injury

Brain Injuries

Traumatic brain injury (TBI) is increasingly recognized as a significant public health issue, but the most effective rehabilitation methods have yet to be identified. The Institute of Medicine and the Agency for Healthcare Quality and Research sponsored systematic reviews of evidence for comparative effectiveness of rehabilitation interventions for TBI. Both reviews concluded that substantially more research is needed to identify interventions best suited for different individuals. The practice-based evidence (PBE) approach employed to create the data used in the proposed study was a research method recommended to provide greater clarity, along with use of patient-centered outcomes obtained over a longer period of time than used in previous studies. The following specific aims will be addressed in the proposed study: Determine the comparative effectiveness of different therapeutic approaches used in inpatient TBI rehabilitation after statistically adjusting for patient need and ability to benefit from various approaches. Investigators hypothesize: 1.1. Patients who receive a greater proportion of therapy time in Advanced Training (versus Standard of Care) will achieve better outcomes than similar patients who receive a lesser proportion of treatment time in Advanced Training. 1.2. Patients with the greatest initial levels of disability will experience larger effects from Advanced Training therapeutic approaches in comparison to the effects experienced by patients with less disability at admission. 1.3. Patients who receive a greater proportion of therapy in contextualized treatment (versus decontextualized) will achieve better outcomes than similar patients who receive a lesser proportion of time in contextualized treatment. Determine the comparative effectiveness of difference in the delivery of inpatient rehabilitation therapies, after statistically adjusting for patient need and ability to benefit. Investigators hypothesize: 2.1 The level of effort that patients are able to apply in treatment moderates the effectiveness of time in treatment. 2.2 Family involvement in treatment is associated with better outcomes. Data will be drawn from the database established for the TBI Practice-Based Evidence Study (TBI-PBE Study). Data on 2130 persons who received inpatient TBI rehabilitation at any of 10 sites (9 in US, 1 in Canada) were obtained for the study. Detailed longitudinal data were collected prospectively on rehabilitation therapies (with point of care data completed for every clinical encounter), course of recovery, person and injury characteristics and outcomes during and after rehabilitation. Advanced analytic methods (e.g. propensity scores, generalized linear mixed models) will be used to compare the effects of different rehabilitation interventions on outcomes at discharge and during the 9 months following rehabilitation.

Completed5 enrollment criteria

TBI Project Amsterdam

Traumatic Brain Injury

Traumatic Brain Injury (TBI) is the world leading cause of acquired brain injury. Literature suggests a pivotal role for attentional functioning in neurocognitive and behavioural consequences of paediatric TBI. Limitations of traditional neuropsychological measures of attentional functioning have interfered with identification of the effect of paediatric TBI on attentional networks so far. Moreover, the associations between attentional networks, learning abilities, academic performance and behavioural and emotional problems following paediatric TBI are yet to be explored.

Completed14 enrollment criteria

Normative Datasets for Assessments Planned for Mild Traumatic Brain Injury (NORMAL)

Focus: Healthy Adults Without Brain Injury

The purpose of the research study is to collect information about brain function and structure among active duty military personnel or civilians who are healthy. Researchers want to develop a database from normal volunteers that will be used in comparison with a similar database from active duty military with post-concussive syndrome (PCS) from a mild traumatic brain injury. Findings from this study may be used to design larger studies that will evaluate whether hyperbaric oxygen treatments actually improve PCS. Participants in this study will undergo numerous tests to assess physical, mental, and intellectual health and how they might change over time. Participants will wear heart and activity monitors, undergo brain imaging, provide blood and urine for laboratory testing, and have vision, hearing, balance, and muscle function tests. They will also complete a number of questionnaires and interviews. This battery of tests will be repeated twice more over the course of 6 months.

Completed50 enrollment criteria

Traumatic Neuroprotection and Epilepsy Prevention of Valproate Acid

Traumatic Brain Injury

Background: Preliminary studies have suggested that valproate acid (VPA) may promote neuron survival, inhibit apoptosis, decrease the neuron function deficit in cerebral ischemia, and promote the brain functional recovery after traumatic brain injury (TBI). Besides, in the guide of prevention and treatment of epilepsy in 2007, VPA was one of the antiepileptic drugs which were suggested to prevent early epilepsy after TBI (less than 7 days). Objectives: Our main objective was to evaluate whether VPA could protect brain and improve recovery of brain function after severe TBI. The secondary objective was to explore whether VPA could prevent late epilepsy after severe TBI (more than 7 days). Methods: We would enroll 160 patients who were in a vegetative or minimally conscious state 4 to 16 weeks after TBI and who were receiving inpatient rehabilitation. Patients were randomly assigned to receive VPA or placebo for 4 weeks and were followed for 2 weeks after the treatment was discontinued. The rate of functional recovery on the Disability Rating Scale (DRS; range, 0 to 29, with higher scores indicating greater disability) was compared over the 4 weeks of treatment (primary outcome) and during the 2-week washout period with the use of mixed-effects regression models.

Unknown status14 enrollment criteria

Amyloid and Tauopathy PET Imaging in Acute and Chronic Traumatic Brain Injury

Traumatic Brain InjuryChronic Traumatic Encephalopathy1 more

The potential long-term effects of Traumatic Brain Injury (TBI) are poorly understood. Repeated concussions have been associated with an elevated incidence of Alzheimer's disease (AD) along with a reduced age of onset. As repetitive TBI has been studied, a syndrome has now been identified: chronic traumatic encephalopathy (CTE). There are growing concerns about the long-term neurologic consequences of head impact exposure from routine participation in contact sports (e.g., boxing, football). Brain autopsies of athletes with confirmed CTE have demonstrated tau-immunoreactive neurofibrillary tangles and neuropil threads (known as tauopathy). The relationship between exposure to repetitive head impact and the subsequent development of chronic neurodegenerative disease has not been established. Further, as the diagnosis of CTE (defined by the presence of tauopathy) is presently made after death at autopsy, clinical tools and biomarkers for detecting it remain to be defined. With the advent of FDA-approved PET amyloid imaging, clinicians and researchers are now able to estimate plaque density in the brains of living patients. However, there are critical limitations to amyloid imaging. Current evidence suggests that markers of the presence and severity of tauopathy may be able to address these limitations. The study will utilize both [18F] Florbetapir and [18F]-T807 PET imaging to investigate amyloid and tau accumulation in subjects with a history of concussions. In order to determine whether problems with cognition and memory are seen within the populations defined for the study, the researchers will administer a core battery of neurocognitive testing. This battery will assess cognitive abilities commonly affected by TBI, including processing speed, reaction time, new problem-solving, executive functions, attention and concentration, and learning and memory. These tests, in conjunction with the imaging, will be able to determine whether regional brain activity is associated with specific cognitive problems. The researchers will obtain PET and neurocognitive data in 3 cohorts: subjects with a history of TBIs, subjects with mild cognitive impairment (MCI) and no TBI history, and healthy controls. The investigators aim to determine whether individuals with TBI are on the same trajectory of neurodegenerative disease seen in AD or in CTE. Because of the overlap in clinical/cognitive and some behavioral symptoms in AD and CTE, an additional biomarker tool is needed to prevent misdiagnosis. Accurate diagnosis is crucial in order to provide patients with appropriate treatment.

Completed14 enrollment criteria
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