View clinical trials related to Brain Injuries.
Filter by:This is a double-blind, placebo-controlled, parallel group study designed to assess the tolerability and efficacy of fsCBD and bsCBD, compared to a placebo control, to improve cognition and traumatic brain injury-related symptoms. If eligible for the study, subjects will be randomized to receive one of the conditions for 12 weeks.
This project will adapt a currently deployed Clinical Decision Support (CDS) system to deliver a VTE prevention guideline for adult patients with traumatic brain injury (TBI). We believe this is an ideal PCOR use case given PCORI's continued effort to combat VTE in trauma and our experience previously implementing this guideline. The Our overall goal is to successfully scale, evaluate, and maintain an interoperable TBI CDS across 7 total institutions.
This study has two main goals: 1) to refine and enhance the R2R-TBI intervention; and 2) to examine the efficacy of the R2R-TBI intervention in a randomized control trial. To achieve the second goal, we will employ a between-groups randomized treatment design with repeated measures at baseline, one-month post-randomization, and at a six-month follow-up. The two conditions will be: a) usual medical care plus access to internet resources regarding pediatric brain injury (Internet Resources Comparison group, IRC), and b) usual medical care plus the R2R-TBI intervention (Road-to-Recovery group, R2R-TBI).
The study aims the assessment of endothelial glycocalyx (EG) degradation in deceased organ donors. There is a lack of organs for the transplantation program. By the description of the EG status, we can open room for organ optimization before transplantation and improve the organ function after transplantation in marginal donors.
Even in patients with successful return of spontaneous circulation (ROSC), outcome after cardiac arrest remains poor. The overall in-hospital survival rate widely varies both worldwide and across communities, from 1 to 4 folds according to circumstances of arrest and post-resuscitation interventions. Several studies have already shown that early interventions performed after ROSC, such as treatment of the cause, targeted temperature management, optimal hemodynamic management and extra-corporeal life support in selected patients, could improve the outcome in post-cardiac arrest patients. However, the decision process regarding the allocation of these resources, in parallel with the management of patients' proxies, remains a complex challenge for physicians facing these situations. Consequently, several prediction models and scores have been developed in order to stratify the risk of unfavorable outcome and to discriminate the best candidates for post-resuscitation interventions. Overall, several scores exist, but external validation are lacking and direct comparisons are needed to assess relative interest of scoring systems. Indeed, establishing the optimal scoring system is crucial, for optimal treatment allocation and appropriate information to relatives.
The goal of this clinical trial is to examine the feasibility, utility, and efficacy of a smartphone-based assessment battery and remotely administered virtual Neuromuscular/Dual-Task (vNDT) intervention among healthy U.S. military service members and physically active young adults with a recent concussion.
Narrative: Worldwide, traumatic brain injury (TBI) is a leading cause of death and disability among children and adolescents. The Investigators aim to test whether pediatric TBI treatment guided by invasive intracranial pressure monitoring produces better patient outcomes than care guided by a protocol without invasive monitoring. Study findings will inform clinical practice in treating pediatric severe TBI globally. Focused didactic and experience-based learning opportunities will increase the research capacity of pediatric intensivists in Latin America.
This project focuses on the early prediction and diagnosis of radiation-induced brain injury in nasopharyngeal carcinoma patients. Based on the big data of imaging and serum metabonomics samples, combined with the machine learning analysis method, dynamic evolution mode of radio-metabolomics characteristics was analyzed . The potential internal relationship between brain structure and serum metabolic changes was explored, and the individualized prediction model was constructed to screen out the high-risk patients with brain injury after tumor radiotherapy, so as to provide reference for the diagnosis of radiation-induced brain injury caused by tumor. radiotherapy Intelligent diagnosis provides a new theoretical and practical basis.
Stroke is the leading cause of adult disability worldwide. Often, severe neurological deficits occur after a stroke and roughly 70% of all stroke survivors have some form of hand function disability. To improve the lives of those with hand function disability, IRegained Inc. has created the MyHandTM System. The MyHandTM System is a smart-mechatronic device programmed with proprietary hand function training regiments (protocols) based on deep research in neuroplasticity. It provides a highly unique and targeted approach to hand function rehabilitation with the help of the aforementioned protocols delivered with gamified training techniques. The gamified format of the protocols allows for better patient engagement, thus allowing for more effective and efficient therapy. Individuals who have sustained a stroke 5 months or earlier (considered to be chronic stroke survivors) will be eligible to participate in this study. Participants will undergo a 2-hour training session, 2-3 days per week, over 12 weeks, for a total of 30 sessions. Hand function therapy will be administered in a specific and gamified manner to enhance rehabilitation of the hand and provide participants with greater opportunity to regain hand function over the course of the study. The goal of this research project is to understand how a gamified approach to hand function rehabilitation impacts engagement and motivation. This understanding will directly translate into the development of more efficient and effective modes of therapy.
Clinical evaluation is crucial in the clinical diagnosis, treatment, and prognosis prediction in patients with traumatic brain injury (TBI). However, the existing evaluation systems are not perfect, because many factors are not taken into account, for example, there is a lack of molecular diagnostic criteria for evaluating patients with TBI. We attempt to collect the patient's clinical data and combine it with neuroimaging, as well as molecular biomarkers generated by single-cell sequencing to assess their neurological status and outcome. The clinical and molecular data collection and analysis will be helpful to evaluate the patient's neurological condition and predict the patient's outcome more accurately.