View clinical trials related to Brain Injuries, Traumatic.
Filter by:In this study, the single-cell transcriptome sequencing technology was used to study the transcriptome differences at the single-cell level in normal human brain, aging human brain, and epileptic brain.
The proposed study will evaluate a new approach to cognitive rehabilitation of mild traumatic brain injury (mTBI) using a brain stimulation technique called transcranial direct current stimulation (tDCS). Specifically, we will investigate how tDCS combined with cognitive training improves deficits to attention and working memory in Active Duty Service Members with a history of mild traumatic brain injury (TBI). Measures of attention-related brain activity, neurocognitive assessments, and self-reported clinical outcomes will be used to determine effects of tDCS vs. sham tDCS when paired with a cognitive training intervention. By doing this study, we hope to find a reliable, noninvasive, and efficient method of treating mild TBI cognitive symptoms.
The purpose of this study is to evaluate if theta burst stimulation (TBS) can reduce chronic headaches caused by a traumatic brain injury (TBI). TBS is a safe, drug-free brain stimulation technique that uses magnets to create electricity and stimulate nerve cells in the brain. After repeated TBS sessions, the increased stimulation of nerve cells can alter the way the brain communicates with itself (by creating new neural pathways) which, in turn, can reduce pain symptoms. Participants in this study will complete a baseline assessment followed by four weeks of daily home headache assessment. Participants will then receive four weeks of TBS administered three times per day and three days per week. After TBS is completed, participants will complete an additional four weeks of daily home headache assessment and return for a one-month follow-up assessment. Participation is expected to last three months.
Objectives The primary focus for scientific investigation is to conduct a multi-center observational study to determine if intracranial pressure (ICP) monitoring to direct treatment of patients with moderate traumatic brain injury (TBI) improves medical practice and patient outcomes in China. Design and Outcomes This is a prospective observational cohort multi-center study with blinded evaluation of outcome. It is a 2-group design. Neurologic outcome is evaluated by extended Glasgow outcome score(GOSE) at 6 months. Interventions and Duration This is an observational study. The decision of intracranial pressure monitoring is made by the relatives of patient. Management of all patients will be consistent with protocols presently being used in the study hospitals. For patients who received ICP monitoring, the management will also be based specifically on the presence of intracranial hypertension. Each patient will be evaluated at 6 months post injury on neurological outcomes. Sample Size and Population 832 patients with moderate traumatic brain injury will be collected on this study.
MOBI-1 is a multicenter clinical trial that will evaluate the use of the Infrascanner for the monitoring of traumatic intracranial hematomas.
Intimate Partner Violence (IPV) comprises physical, sexual and emotional abuse and controlling behaviors imposed by an intimate partner. It is estimated that up to 92% of women who survive IPV may have suffered one or more traumatic brain injuries (TBI) from blows to the head, face, and neck, and/or anoxia or hypoxia due to strangulation. Even mild TBI may manifest as alternations in consciousness, black out, dizziness, disorientation, anxiety, depression, post-traumatic stress disorder, muscles weakness or paralysis and deficits in memory, attention, planning as well as executive functions. These signs and symptoms of TBI and their consequences impact the quality of life of women surviving IPV. Furthermore, survivors experiencing multiple IPV may acquire larger extent of the injury. Though this is recognized as an urgent and serious issue worldwide, it has been remarkably understudied. To improve the quality of life of women experiencing IPV-related TBI, and to prevent potential longer-term consequences, an evidence-based therapeutic treatment is an urgent need. The Supporting Survivors of Abuse and Brain Injury through Research (SOAR) Project at the University of British Columbia-Okanagan was designed to integrate TBI knowledge into community-based supports. This Michael Smith Foundation for Health Research (MSFHR) trainee application will focus on the evaluation of the effectiveness of a community support network intervention for women with IPV-related TBI. The outcomes will generate valuable evidence to inform potential new TBI-informed policies regarding community-based and health care supports for survivors of IPV.
This study is designed to answer questions related to safety and preliminary efficacy of Acute Intermittent Hypoxia (AIH) in Traumatic Brain Injury (TBI) survivors. First, we aim to establish whether brief reductions in inhaled oxygen concentration can be safely tolerated in TBI survivors. Second, we aim to establish whether there are any effects of AIH on memory, cognition, and motor control. Participants will be monitored closely for any adverse events during these experiments. Data will be analyzed to determine if there is an improvement in key outcomes at any dose level.
This study aims to explore possible solutions needed for valid and reliable multidimensional objective assessment tools to use in screening performers for concussions, as well as, for use postinjury assessment and management of the mild traumatic brain injury, regardless of time since injury occurrence. These mobile tools would also enable clinicians to test the effectiveness of the interventions used post-concussion, prior to fully releasing the performer back into full performance/active status.
The purpose of the study is to test whether low level electric stimulation, called transcranial Direct Current Stimulation (tDCS), on the part of the brain (i.e., presupplementary motor area) thought to aid in memory will improve verbal retrieval in military veteran participants with histories of traumatic brain injuries. The primary outcome measures are neuropsychological assessments of verbal retrieval, and the secondary measures are neuropsychological assessments of other cognitive abilities and electroencephalography (EEG) measures. Additionally, the study will examine the degree to which baseline assessments of cognition and concussion history predict responses to treatment over time, both on assessments administered within the intervention period and at follow-up.
There are no therapeutic agents that have been shown to improve outcomes from severe traumatic brain injury (TBI). Critical barriers to progress in developing treatments for severe TBI are the lack of: 1) monitoring biomarkers for assessing individual patient response to treatment; 2) predictive biomarkers for identifying patients likely to benefit from a promising intervention. Currently, clinical examination remains the fundamental tool for monitoring severe TBI patients and for subject selection in clinical trials. However, these patients are typically intubated and sedated, limiting the utility of clinical examinations. Validated monitoring and predictive biomarkers will allow titration of the dose of promising therapeutics to individual subject response, as well as make clinical trials more efficient by enabling the enrollment of subjects likely to benefit. Glial fibrillary acidic protein (GFAP), neurofilament light chain (NfL) and high sensitivity c-reactive protein (hsCRP) are promising biomarkers that may be useful as 1) monitoring biomarkers; 2) predictive biomarkers in severe TBI trials. Although the biological rationale supporting their use is strong, significant knowledge gaps remain. To address these gaps in knowledge, we propose an ancillary observational study leveraging an ongoing severe TBI clinical trial that is not funded to collect biospecimen. The Hyperbaric Oxygen in Brain Injury Treatment (HOBIT) trial, a phase II randomized control clinical trial that seeks to determine the dose of hyperbaric oxygen therapy (HBOT) that that has the highest likelihood of demonstrating efficacy in a phase III trial. The proposed study will: 1) validate the accuracy of candidate monitoring biomarkers for predicting clinical outcome; 2) determine the treatment effect of different doses of HBOT on candidate monitoring biomarkers; and 3) determine whether there is a biomarker defined subset of severe TBI that responds favorably to HBOT. This proposal will: 1) inform a go/no-go decision for a phase III trial of HBOT by providing adjunctive evidence of the effect of HBOT on key biological pathways through which HBOT is hypothesized to affect outcome; 2) provide evidence to support further study of the first monitoring biomarkers of severe TBI; 3) increase the likelihood of success of a phase III trial by identifying the sub-population of severe TBI likely to benefit from HBOT; 4) create a repository of TBI biospecimen which may be accessed by other investigators. This study is related to NCT04565119