Active clinical trials for "Brain Injuries, Traumatic"

A novel and promising therapy for cognitive dysfunction is non-invasive brain stimulation, of which transcranial magnetic stimulation (TMS) is a form. TMS is currently FDA-approved for use in depression and migraine. It is under investigation for use in a number of other neurologic and psychiatric disorders. In addition to its potential to improve affective symptoms, recent research has suggested that TMS targeted to select cortical regions can also improve cognition. In trials of TMS therapy for psychiatric disorders, several studies have shown benefits for cognitive function alongside symptom amelioration. In healthy persons, a course of stimulation of the parietal area improved objective measures of learning and memory. Among persons with TBI, there have been case reports supporting improvement in cognitive function and postconcussive symptoms; however, there have not yet been any controlled studies of TMS for TBI-related cognitive dysfunction.

In the current study the investigators intend to evaluate the role of Ischemia modified albumin (IMA) in the prediction of poor outcome in patients with traumatic brain injury (TBI). The investigators hypothesize that IMA will be elevated in patients with traumatic brain injury due to the excessive production of reactive oxygen species by the injured brain.

This is the proof of concept study with multi-modality approach (using intra-thecal bioactive peptides, stem cells, laser and transcranial IV laser and Median Nerve stimulation as adjuvants) in cases of brain death due to traumatic brain injury having diffuse axonal injury to document possibility of reversal of brain death (BD).

Mild TBI subjects will initially be identified by providers in the Hennepin County Medical Center (HCMC) TBI Clinic. The subjects will then undergo objective testing by the developmental optometrist to confirm if they do or do not have vision dysfunction related to the mTBI. At the Center of Magnetic Resonance Research (CMRR) located at the University of Minnesota (U of M), the whole brain will be imaged using resting state and task functional MRI and diffuse tensor imaging (DTI) using a high field 3 Tesla (T) MRI. The subjects will then receive neurovision rehabilitation if they are in the vision dysfunction group. This treatment is standard care. Both groups will then undergo repeat objective vision testing by the developmental optometrist at 3 and 6 months to confirm that vision dysfunction has resolved. Resting state and task fMRI and DTI will be done at the same time to compare functional and structural connectivity changes between the 2 groups.

This study will test a new MRI sequence that measures cerebral blood flow (CBF). Because this technique for measuring CBF is new, there is little information on what the normal values for different regions of the brain should be. Information from the study will be used to establish normative CBF values for the brain, improving the reliable use of this technique for the diagnosis of brain injury or disease.

Appraised the empirical evidence of effectiveness of sensory stimulation to improve arousal and alertness for persons in a coma or persistent vegetative state after traumatic brain injury (TBI). Databases were searched and nine articles met inclusion criteria.

The purpose of this study is to assess if putative brain injury biomarkers have utility as blood-based traumatic brain injury (TBI) diagnostic and monitoring tools. This will be accomplished by examining the relationships between potential serum-based TBI biomarkers and clinical measures of injury severity, occurrence of complications, and outcome, in subjects with mild or moderate TBI. The assay will be evaluated in a sample population of subjects over the age of 18 who have been referred to the health care provider for closed head injury evaluation.

The primary goal of the proposed study is to evaluate the efficacy of a replicable community-based group intervention, designed to address both general wellness and specific TBI health-related issues. Emphasis is placed on goal setting to develop healthy habits, utilizing problem solving strategies, learning means of maintaining progress and setting new goals. Facilitators will utilize approaches aimed at maximizing participant self-efficacy, reducing barriers to health promotion, and developing personal resources. A randomized wait-list control group design will be used to evaluate the efficacy of the intervention. It is hypothesized that individuals with TBI who participate in the intervention group will report increased health promoting behaviors, health related self-efficacy, health-related quality of life, level of participation, and greater perceived wellness and satisfaction with life as compared to the control group.

Background: - The Center for Neuroscience and Regenerative Medicine is working to improve physicians' understanding of brain injury. More information is needed on traumatic brain injury (TBI), especially how well a person recovers from TBI and how the brain changes over time in people with TBI. To conduct this research, the center is sponsoring a number of research studies on TBI and is interested in evaluating individuals with TBI or post-concussive syndrome to determine if they might be eligible for future studies. Objectives: - To develop a pool of individuals with traumatic brain injury and post-concussive syndrome for future research studies. Eligibility: - Individuals at least 18 years of age who have symptoms of or have been diagnosed with traumatic brain injury or post-concussive syndrome and are willing to participate in future studies. Design: Participants will be screened with an initial telephone interview, and will be asked to come to the National Institutes of Health for an in-person screening visit. At the screening visit, participants will provide a medical history, have a physical examination and complete a study questionnaire on their TBI and its symptoms, including how the injury occurred, when it occurred, and any previous brain-related injuries. Subjects may also return for a second visit at the NIH CC if eligible. Each visit may involve blood samples, an MRI scan, and a series of tests to evaluate brain function. Participants will also provide contact information to enable researchers to contact them for future studies....

Currently, there is no direct, reliable, bed-side, and non-invasive method for assessing changes in brain activity associated with concussion. Event Related Potentials (ERPs), which are temporal reflections of the neural mass electrical activity of cells in specific regions of the brain that occur in response to stimuli, may offer such a method, as they provide both a noninvasive and portable measure of brain function. The ERPs provide excellent temporal information, but spatial resolution for ERPs has traditionally been limited. However, by using high-density electroencephalograph (EEG) recording spatial resolution for ERPs is improved significantly. The paradigm for the current study will combine neurophysiological knowledge with mathematical signal processing and pattern recognition methods (BNA™) to temporally and spatially map brain function, connectivity and synchronization. The proposed study will provide additional evidence for the utility and contribution of the BNA™ test (reflecting temporal and spatial changes in brain activity as well as brain functional connectivity associated with concussion) in concussion management. The BNA test is basically divided to 3 phases - first EEG data is collected from subjects using an EEG system while the subject is performing a cognitive task in front of a computer. The EEG data is then analyzed using the advanced BNA™ technology. Finally, a report of the BNA™ test is generated.