View clinical trials related to Brain Injuries.
Filter by:This is a human clinical study involving the isolation of autologous bone marrow derived stem cells (BMSC) and transfer to the vascular system and inferior 1/3 of the nasal passages in order to determine if such a treatment will provide improvement in neurologic function for patients with certain neurologic conditions. http://mdstemcells.com/nest/
The purpose of this study is to improve the ability of the investigators to monitor brain health in newborn babies at risk of brain injuries. The researchers will be using an investigational system of devices to non-invasively (that, is, without penetrating the skin), measure the amount of oxygen going to and being used by the brain. They will be taking some bedside research measurements during the babies' stay at the hospital. With these measurements, the intention is to study the role of oxygen in brain injury and test the efficacy of the research device and its potential as a permanent bedside diagnostic device.
The objective of this Phase II trial is to evaluate the feasibility of this study protocol to progress to a large-scale Phase III RCT in the future. It will also determine, with limited efficacy, the effectiveness of the multisensory stimulation intervention protocol to reduce the duration of post-traumatic amnesia (PTA), improve cognition, increase independence in activities of daily living and long term quality of life of the affected person. Participants will be randomised into either the experimental or control group. The experimental group will follow the multisensory stimulation intervention protocol, while the control group will follow the current hospital protocol.
Traumatic brain injury (TBI) is major health problem that stands as a significant cause of death and permanent disability. TBI is considered as global public health epidemic. On pathophysiologic basis, TBI is described as occurring in two phases, primary and secondary. Once a primary insult occurs like trauma or ischemia, the secondary injury begins though main four mechanisms; ischemia, brain edema, axonal injury and neuro-inflammation. Omega-3 PUFAs (Polyunsaturated fatty acids) are postulated to have neuroregenerative properties with the ability to impact all four main mechanisms of the secondary injury Patients will be allocated into one of two groups through a random table generation; Control group in which patients will follow our local protocol for TBI management without SMOF-lipid infusion. SMOF-lipid group in which patients will receive 0.5 g/Kg SMOF lipid 10% emulsion (Lipid emulsion for intravenous nutrition containing; 6% soybean oil / 6% medium chain triglycerides / 5% olive oil / 3%fish oil) daily over 12 hours starting once admitted to ICU for 7 days
This study aims to assess the feasibility of Intendu Cognitive Motion-Based Videogames in Acquired Brain Injury (ABI) patients in inpatient treatment and in the community and to evaluate the effects of training on patients' cognitive performance
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.
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 study is to compare different combinations of cognitive training in retired professional football players and military veterans with a history of repeated concussions and persistent symptoms of impaired memory, concentration, attention, focus, or thinking.
The HeadSense (HS) HS-1000 device, a new non-invasive brain monitor is expected to safely and accurately monitor concussed patients with minimal discomfort, potentially providing a new modality for concussion measurement. The device is based on advanced signal analysis algorithms that analyze a very low frequency acoustic signal (within the audible range) generated by the device. The acoustic signal is transmitted using a small transmitter, placed in the participant's ear, and picked by an acoustic sensor placed in the other ear.
The current study aims to better understand cerebral plasticity mechanisms to optimize non-pharmacological rehabilitation approaches for patients with traumatic brain injury.