View clinical trials related to Brain Injuries, Traumatic.
Filter by:This study examines the effect of an intervention consisting of dynamic circadian light and sound therapy, as well as systematic information on sleep pattern, agitated behavior and functioning level.
A new technology called Global Z-Score Neurofeedback Technology (GZNT) has been identified that can overcome an existing barrier to the use of neurofeedback as a treatment technique in a military setting. Neurofeedback, or EEG Biofeedback, is a form of biofeedback that uses the brain's own electrical activity as the training parameter. With sufficient practice, the brain can learn to change its own activity through finely tuned feedback using computerized sounds, graphs and animations. Previous attempts at using neurofeedback as a treatment modality have been subject to a lack of standardization and have required significant expertise on the part of the provider. This new GZNT technology allows neurofeedback to be administered in a standardized and semi-automated fashion, which, if effective, will represent a significant advance toward providing this promising treatment modality to Service Members in a military or VA setting. This study will determine feasibility and preliminary evidence of efficacy for this neurofeedback technology in a pilot study of soldiers with medical issues associated with Traumatic Brain Injury (TBI). GZNT technology has the potential to provide a cost-efficient, non-invasive/non-pharmacological approach to recovery from impact and/or blast-induced brain injury, and holds promise to simultaneously address emotional symptoms that are often a part of the post-concussion symptom picture.
The purpose of this project is to test the hypothesis that Speed of Information Processing (SIP) deficits in acquired brain injury (ABI) can be remediated. The majority of individuals with acquired brain injuries have speed of information processing deficits as part of the cognitive sequelae of the brain injury. Empirical research is expected to demonstrate the efficacy of computerized cognitive Speed of Information Processing (SIP) training in individuals with ABI. Study participants will be asked to attend two study visits over the course of approximately 13 weeks. Participants will be randomly assigned to either the experimental or control group.
Hypothesis: Cortical spreading depolarizations are inhibited by the NMDA receptor antagonist Ketamine Aim 1: To demonstrate, in a group of patients with acute severe brain injury requiring surgery including traumatic brain injury and aneurysmal subarachnoid hemorrhage, whether use of continuous infusion of ketamine decreases frequency of occurrence of cortical spreading depolarizations.
This study will assess the effectiveness of a portable goggle system in the diagnosis of mild traumatic brain injury (mTBI) in athletes.
This study (Part 1) is designed to build a database including EEG, neurocognitive performance, clinical symptoms, history and other relevant data, which will be used to derive a multimodal EEG based algorithm for the identification of concussion and tracking of recovery. In addition, neuroimaging will be conducted at time of injury and following Return to Play (RTP).
The purpose of this study is to examine a web-based training program for treating emotional problems in people who have suffered a traumatic brain injury (TBI).
The purpose of this study is to determine if clinic and home training with a study device will improve a balance deficit. The study device is called Portable Neuromodulation Stimulator (PoNS). The study device will be placed on the tongue to deliver nerve stimulation. The study is testing if use of the study device in conjunction with physical therapy will improve balance and gait in patients suffering from a TBI. The effects of using the device and undergoing therapy will be measured using standardized tests of movement control, gait, headache and other TBI symptoms.
This proposal aims to investigate the effect of a promising treatment for persistent post Traumatic Brain Injury (TBI) symptoms, and to monitor TBI patient's recovery by an objective technique along with standard clinical assessments. The treatment tool is the application of repetitive Transcranial Magnetic Stimulation (rTMS) to the dorsolateral prefrontal cortex (DLPFC) of the brain. The treatment efficacy and monitoring TBI patients' recovery will be objectively assessed using Electrovestibulography (EVestGTM); this will be in parallel with clinical and standard assessments.
The purpose of this feasibility study is to determine whether digital games are effective and acceptable in the treatment for patients with traumatic brain injury.