View clinical trials related to Cerebral Concussion.
Filter by:Healthy (non-injured) and concussed college-aged participants will complete two testing sessions that include (1) clinical symptom, balance, and cognitive evaluations and (2) a progressive exercise session to establish symptom exacerbation or maximal exercise capacity. Individuals randomized to the control group will receive no intervention between sessions, while individuals randomized to the intervention group will complete 30 minutes of stationary bike exercise at least 3 days/week.
The primary goal of this study is to provide clinicians with a brief, patient self-administer instrument yielding a single composite score that reliably correlates with objective findings on standardized neurocognitive assessment for concussion.
The purpose of this study is to determine the sensitivity and specificity of an aid in assessment of concussion based on eye-tracking, in comparison to a clinical reference standard appropriate for the Emergency Department (ED) or concussion clinic.
Recently, researchers and clinicians have examined many different forms of concussion testing aimed to assess if a brain injury has occurred and to what degree it affects the individual being tested. Due to the multifaceted and complex presentation of concussive injuries and the unknown effects of repeated head trauma, it is unlikely that a single test of physiological or behavioral function will reflect the full range of injury-related damages from a concussive event or from a series of cumulative head traumas, as well as the injury response within brain tissue. However, by combining a variety of objective assessments which may detect structural and functional alterations following head trauma into a single study, a clearer understanding of the multi-faceted presentation resulting from head trauma may be identified. The identification of biomarkers and the utilization of objective and clinically feasible tools will provide a method to assess three domains across multiple systems affected by head trauma: 1) the prognostic value of initial concussion assessments to identify injury severity and factors responsible for prolonged recovery, 2) the temporal window of recovery and potential vulnerability of brain tissue post-injury, and 3) the long-term alterations associated with repeated head trauma exposure.
Concussions are defined as a complex pathophysiological process affecting the brain, induced by traumatic biomechanical forces. Currently the standard of care in the treatment for concussions is cognitive and physical rest until symptoms resolve with a graduated return to activity. High dose omega-3 fatty acids have shown to have anti-inflammatory, anti-oxidant, and membrane stabilizing properties. They have also been used in treatment of severe traumatic brain injury. The purpose of this study is to determine if early high dose omega-3 fatty acid supplementation in Division I National Collegiate Athletic Association (NCAA) athletes that have sustained a concussion will decrease the number of days out of competitive sports with a quicker symptom resolution, return to baseline neurocognitive functioning and postural stability using a randomized double blind placebo controlled study design. Once an athlete is identified as having sustained a concussion by the East Carolina University Sports Medicine staff and qualifies for the study, he/she will randomly be assigned to either high dose omega-3 fatty acid or placebo. Both groups will undergo standard and usual care for concussed athletes at East Carolina University. The number of days it takes the athlete to return to competitive athletics will be recorded, along with time to symptom resolution, normalization of their computerized neurocognitive testing (ImPact) and computerized postural stability testing (Biodex BioSway).