View clinical trials related to Brain Injuries, Traumatic.
Filter by:The prevention of secondary brain injury is a primary goal in treating patients with severe traumatic brain injury (TBI). Secondary brain injury results from tissue ischemia induced by increased vascular resistance in the at-risk brain tissue due to compression by traumatic hematomas, and development of cytotoxic and vasogenic tissue edema. While traumatic hematomas may be managed surgically, cytotoxic and vasogenic edema with resulting perfusion impairment perpetuates brain ischemia and injury. Animal models suggest that remote ischemic conditioning (RIC) can reverse these effects and improve perfusion. Based on these findings it is hypothesized that RIC will exert beneficial effects on TBI in man, thereby representing a new therapeutic strategy for severe TBI. Patients presenting to our institution suffering from severe TBI will be considered for enrollment. Eligible patients will have sustained a blunt, severe TBI (defined by Glasgow Coma Scale <8) with associated intra-cranial hematoma(s) not requiring immediate surgical decompression, with admission to an intensive care unit and insertion of an intra-cranial pressure monitor. Patients will be randomized to RIC versus sham-RIC intervention cohorts. RIC interventions will be performed using an automated device on the upper extremity delivering 20 cumulative minutes of limb ischemia in a single treatment session. The planned enrollment is a cohort of 40 patients. Outcomes of this study will include multiple domains. Our primary outcome will include serial assessments of validated serum biomarkers of neuronal injury and systemic inflammation. Secondary outcomes will include descriptions of the clinical course of each patient, radiologic assessment of brain perfusion, and neurocognitive and psychological assessment post-discharge. If clinical outcomes are improved using RIC, this study would support RIC as a novel treatment for TBI. Its advantages include safety and simplicity and, requiring no specialized equipment, its ability to be used in any environment including pre-hospital settings or in austere theatres. The investigators anticipate that TBI patients treated with RIC will have improved clinical, biochemical, and neuropsychological outcomes compared to standard treatment protocols.
A novel body weight support device that uses pressurized pants may provide advantages in delivering gait therapy. The objectives of this study are to test the following hypotheses that 1) the novel device will allow for increased body weight support while improving or maintaining the same level of patient comfort; 2) the novel device will yield greater patient satisfaction with gait therapy relative to current harness systems; 3) therapists will be more satisfied with the use of the novel device relative to current harness systems; 4) the use of the novel device will require less total therapist time than a harness comparator; 5) the use of the novel device will increase therapeutic treatment time when compared with current harness systems.
In this study, our objective is to determine the effect of two different nerve stimulation types in changing sleep architecture.
Metacognition, in-the-moment awareness of performance while engaging in cognitive tasks, is negatively affected by traumatic brain injury (TBI). Metacognitive deficits can greatly reduce quality of life for individuals with TBI as functioning in this domain has been closely linked with successful independent living and community re-integration. Problematically, there are currently no empirically validated treatment options that address metacognitive deficits after TBI. Recent research in healthy samples demonstrates that specific listening interventions may alter neural activation in brain works associated with metacognition and can improve metacognitive functioning; however, it remains unknown if these effects generalize to individuals with TBI. Thus, the objective of the proposed study is to use a double-blind, placebo controlled randomized clinical trial to determine the efficacy of applying a specific listening intervention to improve metacognition after TBI and to employ functional magnetic resonance imaging (fMRI) to document the neural mechanisms by which the intervention operates.
Test the hypothesis that a certain set of osteopathic manipulation procedures preformed on patients with mild to moderate traumatic brain injury will result in accelerated rates of recovery assessed using vestibular function tests, quality of life questionnaires and measurements of the levels of anti-inflammatory metabolite and protein biomarkers in the blood and urine.
This study will evaluate feasibility and preliminary effectiveness of a 10-week interdisciplinary and multimodal intervention that utilizes patient education, group discussion, and supervised exercise for Veterans with a history of traumatic brain injury (TBI). Primary outcomes include physical activity (PA), sleep quality, and community integration.
In Denmark, about 120,000 people suffer from brain damage, of whom approx. 75,000 with brain damage after stroke. Serious and often lasting vision impairments affect 20% to 35% of people after stroke. Vision is the most important sense in humans, and even smaller permanent injuries can drastically reduce quality of life. Vision impairments after brain damage inhibits rehabilitation and enhances other invalidating effects. Reduced vision results in impaired balance, increased risk of serious falls, increased support needs, reduced quality of life, and impaired ability to perform activities of daily living. Restoration of visual field impairments occur only to a small extent during the first month after brain damage, and therefore the time window for spontaneous improvements is very limited. Hence, brain-impaired persons with visual impairment will most likely experience chronically impaired vision already 4 weeks after brain injury and the need for visual compensatory rehabilitation is substantial. Neuro Vision Technology (NVT) is an supervised training course where people with visual impairments are trained in compensatory techniques using special equipment. Through the NVT process, the individual's vision problems are carefully investigated and personal data is used to organize individual training sessions that practice the individual in coping with situations that cause problems in everyday life. The purpose of this study is to investigate whether rehabilitation with NVT can cause significant and lasting improvement in functional capacity in persons with chronic visual impairments after brain injury. Improving eyesight is expected to increase both physical and mental functioning, thus improving the quality of life. Participants included in the project will be investigated in terms of both visual and mental functions, including quality of life, cognition and depression. Such an investigation has not been performed previously and can have a significant impact on vision rehabilitation both nationally and internationally.
The purpose of the proposed study is to compare the sensitivity and specificity of three oculomotor test devices in normal subjects versus subjects with history of TBI. The study is designed as a prospective research project in which a group of 120 normal controls without a history of TBI will be compared to another group of 120 participants (total of 240) who have a confirmed history of TBI. Each participant will complete the TBI assessment protocol for each of three separate devices (Neuro Kinetics, SyncThink, and Oculogica). The order of the devices will be counter-balanced across participants. Participants will also be screened for vestibular migraine and visual vertigo, which are two conditions that influence oculo-vestibular perception in normal and TBI patients and might influence the results from the three oculomotor devices. Data from each device will be utilized to perform AUC analyses to determine the respective sensitivity and specificity for each.
This study plans to learn more about the impact of enteral nutrition on bacteria in critically ill trauma patients with brain injury. Specifically, it seeks to understand the effect that a prebiotic containing enteral feeding formula (Nutraflora scFOS in Vital AF) has on the gut, oral, and skin bacteria. A prebiotic is a special form of dietary fiber that acts as a fertilizer for good bacteria. The prebiotic Nutraflora scFOS has been cleared by the U.S. Food and Drug Administration and is not considered investigational as used in this study. Enteral feeding is a way to give nutrition to critically ill people who are unable to eat.
Traumatic brain injury (TBI) is a major cause of death and severe prolonged disability. Intracranial hypertension (ICH) is a critical risk factor of bad outcomes after TBI. Continuous infusion of hyperosmolar therapy has been proposed for the prevention or the treatment of ICH. Whether an early administration of continuous hyperosmolar therapy improves long term outcomes is uncertain. The aim of the current study is to assess the efficiency and the safety of continuous hyperosmolar therapy in TBI patients. The COBI trial is the first randomized controlled trial powered to investigate whether continuous hyperosmolar therapy in TBI patients improve long term recovery. Hypothesis Patients treated with early continuous hyperosmolar therapy have reduced morbidity and mortality rates compared to those receiving standard care alone after traumatic brain injury. Research Questions 1. Does early continuous hyperosmolar therapy reduce morbidity and mortality rates at 3 and 6 months after TBI assessed by the GOSE questionnaire? 2. Does early continuous hyperosmolar therapy prevent intracranial hypertension?