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Active clinical trials for "Brain Injuries, Traumatic"

Results 171-180 of 1495

Acute Intermittent Hypoxia in Traumatic Brain Injury

Brain InjuriesTraumatic

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.

Recruiting16 enrollment criteria

Improving Sleep in Veterans With TBI

Traumatic Brain Injury

Traumatic brain injury (TBI) is a major cause of disability in the Veteran population, often resulting in chronic pain and sleep disturbances, among other issues. Extensive rehabilitative efforts are usually required and often prevent return to the workforce and community. Disturbed sleep and excessive daytime sleepiness are among the most pervasive and enduring problems after TBI, which the investigators hypothesize is a significant contributor to these functional impairments and an impediment toward rehabilitation. Thus, this research aims to enhance sleep quality as a means to reduce pain and improve quality of life and functional outcome measures in Veterans with TBI. The investigators predict that the proposed intervention, morning bright light therapy, if found effective, will be cost-effective, rapidly deployable, and highly accepted by Veterans with TBI.

Recruiting15 enrollment criteria

Mobilising Patients With Severe Brain Injury in Intensive Care

Brain Injury Traumatic SevereSubarachnoid Hemorrhage1 more

Introduction Patients with severe brain injury are often restricted to bed rest during the early period of brain injury which may lead to unwanted secondary complications. There is lack of evidence of when to initiate the first mobilisation. The Sara Combilizer® is an easy and efficient tool for mobilising patients with severe injuries, including brain injury. Through a randomised cross-over trial the investigators will investigate the impact of early mobilisation on patients with severe acquired brain injury caused by traumatic brain injury, subarachnoid brain injury or intracranial haematoma. The investigators hypothesise that mobilisation using the Sara Combilizer® does not affect partial oxygenation of brain tissue.

Recruiting7 enrollment criteria

Cognitive Support Technology for Postsecondary Students With Traumatic Brain Injuries

TBI (Traumatic Brain Injury)

This study will fill important knowledge gaps in the availability of best practices that use innovative methods to integrate the cognitive and vocational needs of students with TBI who will be transitioning from 2- and 4-year postsecondary education to employment. Best practices exist from the assistive technology (AT) field to help people compensate for cognitive impairments, and from the vocational rehabilitation (VR) field to enhance employment outcomes for individuals with disabilities. However, these practices have not been integrated to provide needed supports and services to improve the employment outcomes of students with TBI. The study's goal is to expand the availability of innovative practices by testing the efficacy of a technology-driven, long-term, and resource-rich individualized support program that merges assistive technology for cognition and vocational rehabilitation practices. The end products will include technology application guidelines, training and procedural manuals, and resource information that rehabilitation professionals and students with TBI can utilize to enhance technology and mentoring proficiency, academic success, self-determination, and long-term career success for students with TBI.

Recruiting4 enrollment criteria

TMS-EEG for Cortical Excitability

Acquired Brain InjuryStroke2 more

This research study is being done to look at the safety and diagnostic benefit of conducting an TMS(transcranial magnetic stimulation)-EEG measured before and after a brief experimental stimulation session using investigational devices repetitive TMS or transcranial direct current stimulation (tDCS).

Recruiting12 enrollment criteria

Blood Biomarkers to Improve Management of Children With Traumatic Brain Injury

Traumatic Brain Injury

Mild traumatic brain injury (TBI), defined by a Glasgow Coma Scale (GCS) score of 13 to 15, is the cause of many consultations in paediatric emergency departments (1), even though it is a rare cause of acute complication: approximately 10% of children present with intracranial lesions (ICL) on the CT scan and less than 1% require neurosurgical intervention (2). Although ICLs remain a serious complication requiring rapid diagnosis, brain CT scans, the gold standard diagnostic test, cannot be performed routinely because many children would be unnecessarily exposed to ionising radiation associated with an increased risk of cancer (3). In recent years, several clinical decision rules for the management of mTBI have therefore been developed with the aim of identifying children at high or very low risk of ICL in order to better target CT scan indications. Despite this, the rate of CT scans performed has remained high, up to 35%, and has not decreased with the application of these clinical decision rules (4). Furthermore, even though the majority of children and adolescents recover quickly after mTBI, nearly 30% will present symptoms such as headaches, dizziness, asthenia, memory, concentration or sleep disorders persisting beyond one month with a possible impact on their quality of life (5). Thus, there is a need to develop new strategies to (i) limit the use of CT scans while minimising the risk of late diagnosis of ICL, (ii) identify children with a higher risk of adverse outcome and/or post-concussive symptoms. One of the most promising strategies is the use of brain-based blood biomarkers. This study therefore aims to provide new knowledge on two of them, GFAP and UCH-L1 (6,7), in particular by using an automated test combining them (the VIDAS® TBI test developed by bioMérieux) in order to improve the management of CT in the paediatric population at the diagnostic and prognostic levels.

Recruiting35 enrollment criteria

Non-invasive Nerve Stimulation for PTSD and Sleep

Post Traumatic Stress DisorderTraumatic Brain Injury

In this study, our objective is to determine the effect of two different nerve stimulation types in changing sleep architecture.

Recruiting5 enrollment criteria

rTMS for Military TBI-related Depression

Depressive SymptomsMild Traumatic Brain Injury2 more

This study aims to compare different types of repetitive transcranial magnetic stimulation (rTMS) that may alleviate depressive symptoms in United States Military Service Members with a history of concussion.

Active40 enrollment criteria

Multicenter Evaluation of Memory Remediation After TBI With Donepezil

Traumatic Brain InjuryMemory Deficits

This is a four-site, randomized, parallel design, double-blind, placebo-controlled, 10-week trial of donepezil 10 mg daily for verbal memory problems among adults with TBI in the subacute or chronic recovery period. The study will recruit 160 persons with TBI and functionally important memory problems during a four-year period of open recruitment. The study aims are: To evaluate the effects of treatment with donepezil on verbal memory as assessed by the Hopkins Verbal Learning Test-Revised Total Trial 1-3; To evaluate the effects of treatment with donepezil on memory-related activities as measured by the Everyday Memory Questionnaire; To evaluate the effects of donepezil on attention, processing speed, neuropsychiatric symptoms, community participation, quality of life, and caregiver experiences.

Active29 enrollment criteria

Medical and Resource Facilitation Intervention After Traumatic Brain Injury

Brain InjuriesTraumatic2 more

Mayo Clinic's Traumatic Brain Injury (TBI) Model System Center (TBIMSC) will capitalize on longstanding collaborations with the non-profit Minnesota Brain Injury Alliance (MN BIA) and Minnesota Department of Health (MDH) to test a new way of delivering medical and social services. This trial will address chronic unmet needs expressed by individuals with TBI and their families in the U.S. pertaining to the ineffective connection to specialized medical and community resources in the transition from hospital to community-based care, limited access to TBI experts, and lack of primary care provider (PCP) knowledge about the complex needs of individuals with TBI. Target populations for this study are: 1) individuals with TBI eligible for MN BIA provided Resource Facilitation (RF), 2) their families, and 3) their PCPs. This clinical trial will use a theory-driven complex behavioral intervention that integrates the medical-rehabilitation, therapy, and TBI expertise of Mayo's Brain Rehabilitation Clinic (BRC) with MN BIA's highly developed RF program (a free two-year telephone support service offering assistance in navigating life after brain injury). Mayo Clinic's medical-rehabilitation expertise will be integrated with RF services to deliver direct clinical care remotely using telemedicine and other information and communication technology to test whether outcomes over time are better in a group receiving this model of care compared to a group that receives usual care in their communities. Costs between usual care and intervention groups will be compared in collaboration with the MDH. The overarching goal is development of a replicable, sustainable, and cost effective model of telemedicine care that integrates TBIMS Centers and BIAs nationwide and builds TBI expertise and capacity among PCPs.

Active9 enrollment criteria
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