View clinical trials related to Brain Injuries, Traumatic.
Filter by:Methylation of the brain-derived neurotrophic factor (BDNF) gene is involved in both the biological encoding of childhood adversity and neuroplasticity following traumatic brain injury (TBI). This research will characterize BDNF methylation during recovery from TBI in children and investigate this novel biomarker as a potential biological mechanism underlying the known association between childhood adversity and poorer neurobehavioral outcomes following TBI in childhood. Findings from this research will contribute to an improved understanding of why some children display good recovery following TBI, whereas many others suffer from chronic neurobehavioral impairments.
This study aims at understanding irony comprehension ability of Chinese speaking patients with TBI through a series of self-made stories. Each story contains two characters having a conversation, and one of them would give a figurative (which is, ironic) or literal statement at the end of the story. The participants are asked to figure out its meaning.
This study aims to adapt two decision aids (DAs) (pediatric and adult) developed in the United States to the Quebec context to develop context-adapted tools and training program that will facilitate the process of shared decision-making while taking a decision to use head computed tomography (CT scan) with patients suffering from a mild traumatic brain injury.
This is a research study that aims to examine whether Veterans with mild Traumatic Brain Injuries are at risk for dementia by studying their memory, brain wave activity, brain structure and proteins that can be elevated after brain injury and in dementia.
This is a randomized, double-blind, placebo-controlled, parallel-group trial with an open-label extension to evaluate the efficacy of growth hormone (GH) on cognitive functions of retired professional football players with growth hormone deficiency (GHD).
This study evaluates the addition of Salovum, an egg yolk powder enriched for antisecretory factor, to standard care of participants with severe traumatic brain injury. Half of the participants will be administered Salovum while the other half will be given a placebo egg yolk powder, not enriched for antisecretory factor. Intracranial pressure (ICP), partial brain oxygen pressure (PtbO2), microdialysis of metabolites and inflammatory mediators and trauma intensity level (TIL) will be assessed in all patients.
This study will use technology to deliver effective treatment for cognitive problems associated with TBI to Veterans at home, which may result in improved daily functioning and increased access to health care for the growing population of aging Veterans with history of TBI. The successful completion of this project may also increase older Veterans' ability to participate in research through increased understanding of the effect of in-home research opportunities on recruitment and retention. Additionally, the evidence gathered from this study may be used in future research studying home-based cognitive rehabilitation treatments for Veterans using telehealth technology.
Patients with a history of traumatic brain injury (TBI) are at elevated risk for Alzheimer's disease and related dementias (ADRD). Improvements in TBI treatment may mitigate this risk. Complex motor activities, which combine physical and cognitive demands, have been shown to have well established neurocognitive benefits. This study seeks to address the need for novel TBI interventions optimized for adults with history of TBI by determining the effectiveness of an immersive computer game designed to integrating complex cognitive-motor interventions.
Acquired Brain Injury (TBI) is a serious medical and health problem in the US. Individuals with an acquired brain injury due to stroke and Traumatic Brain Injury (TBI) commonly suffer from upper extremity physical impairments that persist even after years of injury; these deficits are attributed to the damage to brain structure and changes in structural and functional connectivity. Although the conventional rehabilitation approaches are helpful in assisting motor recovery often there is a complaint of fatigue due to the repetitive tasks and also, nearly half of the ABI survivors do not regain their ability to use their arms for daily activities. To address this issue, Dr. Shenoy's proposed study will investigate the combined use of individually targeted non-invasive brain stimulation and music-assisted video game-based hand exercises to achieve functional recovery. Further, the project will also investigate how the intervention modulates brain activity (recorded using EEG) in terms of brain connectivity before- and after the -intervention. In the end, this study will allow us to understand the cortical dynamics of ABI rehabilitation upon brain stimulation. Extending further, this could pave the way to advance the knowledge of behavioral and neural aspects of motor control in patients with different types of neuromuscular disorders.
The purpose of this research study is to investigate the effectiveness of a memory enhancement technique in persons with a Traumatic Brian Injury (TBI). The study is designed to research how well this technique can help people with TBI improve their memory and their ability to function better in everyday life