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Active clinical trials for "Brain Injuries, Traumatic"

Results 31-40 of 1495

SmART-TBI: Supplementation With Amino Acid Rehabilitative Therapy in TBI

Traumatic Brain Injury

The most persistent and disabling postconcussive symptoms following mild traumatic brain injury (mTBI) are sleep disturbances and cognitive dysfunction, with few tractable interventions currently available. Here, a novel therapy will be tested consisting of dietary supplementation with branched chain amino acids (BCAA), based on the study team's previous preclinical work showing restoration of glutamate neurotransmitter balance in sleep and memory circuits. Supplementation with Amino acid Rehabilitative Therapy in TBI (SmART-TBI) is a randomized, placebo-controlled, double-blinded, exploratory clinical trial of BCAA intended to establish the feasibility, acceptability, and limited efficacy of long-term BCAA to improve sleep and cognition in Veterans with mTBI. These results will inform the optimal study design of a future, full-scale randomized controlled trial, including the identification of the proper dose and duration of BCAA to improve sleep and the potential subpopulations of Veterans with mTBI that may benefit the most.

Recruiting18 enrollment criteria

Validation of Cognitive Enhancement Techniques for Mild Traumatic Brain Injury

Mild Traumatic Brain Injury

With an average of 21,000 diagnosed brain injuries each year among military personnel, traumatic brain injury (TBI) remains a major health concern for the United States Military Health System. Mild traumatic brain injury (mTBI) is the most common type of brain injury sustained by military personnel and may result in chronic cognitive impairment.Unfortunately, many service members (SMs) have a history of multiple head injuries as well as psychological co-morbidities that negatively influence recovery. Advances in treatment options for cognitive rehabilitation following mTBI have been of increasing interest to the medical community and may increase treatment efficacy for injured SMs to ensure force readiness. Cognitive Rehabilitation (CR) for severe brain injury focuses on compensatory strategies for activities of daily living such as using lists to remember grocery items or reminders to take medications and attend medical appointments. Research has shown CR interventions to have considerable effectiveness in the acute and sub-acute phase of recovery after severe TBI. But there is insufficient evidence that they improve rates of individuals returning to work, independence in activities of daily living (ADL), community re-integration, or quality of life.

Recruiting13 enrollment criteria

Optimizing Cognitive, Environmental, and Neuromotor Stimulation in Traumatic Brain Injury

Traumatic Brain InjuryDementia Alzheimers1 more

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.

Recruiting13 enrollment criteria

GOALS Cognitive Training Delivered to Aging Veterans in Person or Via Telehealth

Brain InjuriesTraumatic1 more

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.

Recruiting15 enrollment criteria

Ketogenic Diet for Traumatic Brain Injury

Traumatic Brain InjuryKetogenic Dieting

Traumatic Brain Injury is a major health concern in United States. There is a un-met need to develop new therapeutic options for faster neuron recovery without causing significant side effects. The role of ketones in neuronal recovery has been studied and has been found to be useful in decreasing size of contusion. The present study aims to study the safety and feasibility profile of ketogenic diet.

Recruiting14 enrollment criteria

Pilot Study of BCAA on Sleep

Sleep DisorderTraumatic Brain Injury

Individuals will be recruited from the VA Portland Health Care System and the community affiliated with Oregon Health & Science University. Traumatic brain injury status will be assessed as a contributing factor. Subjects will be randomized to one of 3 groups (BCAA or one of 2 placebo conditions) and instructed to consume study product twice daily for 21 days. Self-report questionnaires, wrist actigraphy, pressure pain testing, and cognitive function will be assessed pre and post the experimental period.

Recruiting9 enrollment criteria

Pragmatic Assessment and Treatment for the Health System

StrokeTraumatic Brain Injury1 more

The project goal is to promote a feasible and effective approach to communicative disorders in neurological and psychiatric populations, focused on the pragmatics of language. Pragmatics allows speakers to use and interpret language in context and to engage in successful communication. Pragmatic language disorder is widespread in clinical conditions and causes reduced social interactions and lower quality of life for both patients and their family. Yet it is seldom considered in assessment and rehabilitation.

Recruiting13 enrollment criteria

Post-Brain Injury Walking and Balance Recovery Program

Acquired Brain InjuryStroke1 more

The purpose of this study is to test the efficacy of a walking and balance training program designed to safely challenge and improve walking performance and balance in relation to walking speed, strength, endurance, and balance after traumatic brain injury (TBI). The aim and primary hypothesis of this research project is: Aim) Test and implement a new personalized intervention strategy, in addition to usual and customary care at an inpatient rehabilitation clinic, to improve patient outcomes with secondary conditions associated with impaired balance and walking that typically occur post brain injury. After validation of the locomotor Battery of tests, we will implement a personalized training strategy for individuals based on their battery profile. Hypothesis) Individuals training with this individualized protocol will demonstrate improved walking and balance outcomes and those with lesser pre-intervention impairment will improve at a greater rate than those with greater pre-intervention impairment.

Recruiting18 enrollment criteria

Community-based Implementation of Online EmReg

Traumatic Brain InjuryEmotion Regulation

This is a hybrid type III implementation-effectiveness trial; this study design blends elements of implementation and clinical effectiveness research, with the primary aim of determining the utility of an implementation strategy and a secondary aim of assessing clinical outcomes associated with the implementation trial. Consistent with best practices for this type of design, the study team will conduct a randomized test of the effect of implementation strategy on effective delivery of the Online EmReg intervention in clinical practice. Specifically, the study team will compare Standard Training (a 3-hour on-demand training workshop) to Extended Training, (a 3-hour on-demand training workshop with 3 months of bi-weekly consultation). The research team's primary aim is to determine the optimal strategy to train clinicians in effectively delivering Online EmReg, and secondary aim is to assess patient improvement per clinician-administered DERS. Outcome measures will be assessed via self-report surveys, performance evaluations (via role-plays), and tracked clinician participation and fidelity. Study participation is expected to last up to 15 months.

Recruiting11 enrollment criteria

VIrtual Reality in Cognitive Rehabilitation of Processing Speed for Persons With ABI

Traumatic Brain InjuryStroke3 more

One hundred participants with acquired brain injury (ABI) will be included in a randomized controlled trial, with one group playing a commercially available VR game and the control group doing activities in their everyday as cognitive training. The trial aims to investigate how VR can affect processing speed in the ABI population, and if these effects can transfer into everyday activities. The training will be performed in the participants homes, with assistance provided by the project group via phone or video conference. The training period will last five weeks. Participant's cognitive functions will be measured with questionnaires and neuropsychological tests at the start of the training period, at the end of training and sixteen weeks after the start of the intervention. In depth experiences with VR as a training method will be gathered through performing focus group interviews with some of the participants from the VR group, in addition to self-reported questionnaires from all the participants.

Recruiting7 enrollment criteria
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