View clinical trials related to Brain Injuries.
Filter by:The primary purpose of this study is to validate the High Definition Fiber Tracking (HDFT/HDFTAS) technology, so that faster, more reliable diagnosis can be implemented in Traumatic Brain Injury (TBI). This study will involve Traumatic Brain Injury Patients and normal controls, in addition to 30 pilot participants who will be undergoing MRI in order to develop a statistically sound range for the metrics derived from HDFT.
This research project focuses on the evaluation of an engaging exercise and cognitive computer game-based platform and embedded assessment tools for use in clinical practice and its transition to use in the home, and elementary classrooms. The goal of our research program is to produce innovative therapeutic point-of-care and cost-effective delivery system leading to better long-term health outcomes for toddlers and children with neurodevelopmental disabilities. The program is grounded on our technological developments and on current research documenting the benefits of computer-aided learning tools, exercise gaming applications in rehabilitation and principles of adaptive learning and neuroplasticity. We will conduct a randomized controlled trial to study the feasibility and effectiveness of a computer-aided, game-based repetitive task practice (RTP) program designed for training of fine and gross motor skills of the hand-arms and psychomotor skills (which) in young children with CP.
Exaggerated inflammation in the body and brain is thought to play a role in the vulnerability to and aggravation and perpetuation of adverse consequences among those with co-occurring mild TBI (mTBI) and post-traumatic stress disorder (PTSD). The proposed study begins the process of investigating the use of a natural immunoregulatory/anti-inflammatory probiotic to treat chronic symptoms associated with co-occurring mTBI and PTSD among Veterans. By looking at the impact of probiotic supplementation on biological signatures of increased inflammation, as reflected by the gut microbiota, gut permeability, and biomarkers of peripheral inflammation, this study may lead to the identification of a novel intervention for the treatment of symptoms associated with these frequently co-occurring conditions.
The objective of this proposal is to evaluate the effectiveness of rehabilitation for visual attention deficits in U.S. military service members across three programs: Visual Attention and Working Memory Programs (UCR Games), Speech Pathologist-Directed Treatment, and General Cognitive Rehabilitation Games (Lumosity). In addition to the above prospective component, this study also has a retrospective component in which archival data collected from routine clinical care will be examined for analysis. The investigators hope to gain a better understanding of the unique and cumulative influence different cognitive rehabilitation programs have on improving attention complaints in mTBI.
This study will be targeting patients suffering from acute brain injury (ABI), including those with severe trauma brain injury (sTBI) and those with aneurysmal sub arachnoid hemorrhage (aSAH). This clinical study is an open-label, non-randomized, single-center, exploratory metabolic study. The primary objective is to determine changes from baseline (before enteral administration of Peptamen AF) in plasma and brain extracellular levels of MCFAs and Ketone bodies in sTBI patients upon Peptamen AF nutritional support.
The purpose of this observational epidemiological study is to investigate the management and the complications associated with Non Traumatic Neuro-Vascular Diseases. Data will be analysed to answer pre-defined scientific projects and to improve management of these conditions.
The purpose of this research study is to evaluate whether Vyvanse, a psychostimulant, can help children ages 6-16 with attention deficits due to traumatic brain injury (TBI). Vyvanse is currently approved for the treatment of Attention-Deficit/Hyperactivity (ADHD). The exact effects this drug may have on adults with attention deficits caused by TBI have been investigated prior. The exact effects this drug may have on children with attention deficits caused by TBI are not known, but the investigators expect that Vyvanse will be of some help in treating this population as well.
Adolescents with concussion will be randomly assigned to a treatment group where they will receive sub-threshold exercise, or assigned to a placebo group where they will receive structured stretching exercises. Both groups will receive standard medical coverage with regular clinic visits. All participants will record symptoms daily on a dedicated web site. All participants will be evaluated at time 1 with (1) structured physical exam, and (2) structured exercise stress test which is terminated when there is symptom exacerbation. The primary outcome measure is time to recovery where recovery is defined as (1) asymptomatic for two consecutive days, and (2) ability to exercise to exhaustion without exacerbation of symptoms, and (3) confirmed by a physician based on a structured physical exam.
The current study seeks to evaluate cognitive behavior therapy for insomnia (CBT-I), a non-medication treatment, in recent TBI patients compared to a sleep education control intervention. Patients will participate in CBT-I treatment (or sleep education treatment) weekly for six weeks, and will have a 3-months follow-up visit in order to examine the efficacy and time course of treatment. In addition, participants will complete several self-report questionnaires in order to examine sleep and neuropsychiatric symptoms throughout treatment.
The purpose of this study is to explore the functional and physiological effects associated with the use of High-resolution, relational, resonance-based, electroencephalic mirroring (HIRREM), as supplemental care, for symptoms of neurological, cardiovascular, and neuropsychological disorders. This is a non-randomized, open label, and unblinded before-and-after trial, evaluating the effect of HIRREM on an objective, physiological common denominator (heart rate variability, HRV), across a variety of relevant conditions, as well as changes in clinical symptoms inventories, to generate hypotheses and pilot data for investigation in future proposals.