View clinical trials related to Brain Concussion.
Filter by:The purpose of the current project is to determine the effects of augmented neuromuscular training on brain neuroplasticity. Specifically we aim to evaluate the potential of augmented NMT (aNMT) to alter brain neural performance as evidenced by EEG and functional brain magnetic resonance imaging (MRI). The changes in EEG and MRI (pre vs. post) will be compared over the same period of time. We hypothesize that the aNMT will influence adaptive brain strategies in young girls.
The objective of this study is to investigate an aerobic exercise program as a treatment for adults with persistent post-concussive symptoms (PPCS) following mild traumatic brain injury. In this delayed-start trial participants will be initially randomized into either a 6-week low-impact stretching protocol or 12-week aerobic exercise protocol. Following the completion of the stretching protocol participants will continue on to complete the aerobic exercise protocol in full. 56 participants aged 18-65 yrs will be recruited from the Calgary Brain Injury Program (CBIP), including the Early Concussion Education Program at Foothills Medical Centre, Calgary Pain Program, University of Calgary Sports Medicine Centre acute concussion clinic and a physiotherapy clinic (Tower Physio) all of which are located in Calgary, Alberta, Canada. Participants will complete an online follow up (symptom questionnaires and questions regarding exercise behaviour) 3 and 9 weeks post intervention.
This is a prospective longitudinal study which aims to compare oculomotor function and visual scanning behaviour (VSB) of participants who suffered concussion with healthy controls with no concussion. This study also aims to investigate the pattern of change in oculomotor function and visual scanning behaviour (VSB) in the participants over a 6-month period.
The overall objective is to evaluate objective dual-task turning measures for use as rehabilitative outcomes and as tools for return-to-duty assessments in individuals with mild traumatic brain injury (mTBI).This project consists of three goals examining the I) Diagnostic Accuracy, II) Predictive Capacity, and III) Responsiveness to Intervention of dual task turning measures in individuals with mTBI. The investigators hypothesize that objective measures of dual-task turning will have high diagnostic accuracy, predictive capacity, and responsiveness to intervention in people with mTBI.
EEG signals have been collected and studied since the early 1990's as a way of assessing brain function at a gross level. As early as the 1930's a derivative of the raw EEG signal - event-related potentials (ERPs) - have been computed. The current research is primarily focused on three ERP components: the N100, P300 and N400. Each of the three ERPs have been studied in the academic laboratory for multiple decades. Through this research, a strong understanding has been developed regarding what can affect these components (e.g. task set, emotional state, etc.). However, these signals within various pediatric populations (e.g., those with persistent mTBI symptoms or multiple concussions) are not well characterized. Being able to safely and effectively employ the NeuroCatchâ„¢ Platform in a post-concussive pediatric cohort could provide researchers with the potential to elucidate the persistence of objective measures of impairment, patterns of recovery, and chronicity of problems due to mTBI in children. Secondly, understanding the degree to which these neurophysiological components fluctuate over time is crucial to the understanding of brain functioning. However, for this type of technology to be useful in quantifying brain health in this population,the degree to which a post-concussive pediatric brain naturally fluctuates in its processing capability must be quantified. NeuroCatchâ„¢ Platform has the ability to measure changes in several domains of brain function. These cognitive processes are foundational blocks for some of the highest cognitive processes: information integration and executive functioning.
The purpose of the study is to monitor longitudinal changes in brain structure and function between the preseason and postseason, in a population of football playing athletes grouped by helmet make and model. Secondly, the purpose is to determine the protection of the helmet make and model relative to amount and magnitude of sustained head impacts.
Sport-related concussion is a common and serious injury that can affect athletes of all ages in any sport. The purpose of this project is to study the effect of a 12-week manual resistance neck strengthening exercise program on participants' neck size and strength and how their heads and necks move during simulated sport-associated tasks. This study will help determine if greater neck strength may lower an athlete's risk of sport-related concussion. Each healthy male and female soccer athlete between the ages of 13-19 enrolled in the study will participate for approximately four months. Study participation includes routine visits with various assessments (i.e. certain body measurements, magnetic resonance imaging, ultrasound) in addition to the strengthening exercise program.
The proposed interventions of this study will determine the ideal discharge recommendations related to activity
The purpose of this randomized controlled trial is to examine whether systematic sub-threshold exercise is effective in improving recovery time in athletes after sport related concussion (SRC) compared to those who participate in a placebo/stretching protocol. subjects will be randomized into either an Exercise group or a Placebo/stretching group. subjects in the Exercise group will participate in an individualized exercise program supervised by their athletic trainer while the Placebo/stretching group will engage in a standardized stretching routine supervised by their athletic trainer throughout the duration of their recovery. Hypothesis 1: subjects in the aerobic Exercise group will require fewer days to recover from SRC than those who follow a placebo/stretching protocol. Hypothesis 2: heart rate threshold (HRt) achieved on the graded treadmill test will be associated with days to recovery (i.e., the lower the HRt, the longer the time to recovery). Hypothesis 3: Vestibular Ocular Motor Screen (VOMS) performance will be indicative of time to clinical recovery from concussion as evidenced by a strong correlation between VOMS score and days to clinical recovery. Hypothesis 4: Sub-threshold aerobic exercise will facilitate improvement in VOMS post-concussion. Hypothesis 5: subjects in the aerobic exercise group will demonstrate greater dynamic stability as evidenced by greater reach in each of the 3 primary directions (anterior, posterior medial and posterior lateral) for their right and left lower extremity.
The objective for this study is to compare outcome measures from vestibular rehabilitation (VPT) delivered in a traditional method against a new device Incremental Velocity Error (IVE) that improves physiologic performance of the vestibulo-ocular reflex. Participants include active duty service members with mild traumatic brain injury (mTBI) and civilians with peripheral vestibular hypofunction. The investigators will use a clinical trial cross-over design with randomization to either the control (VPT) or experimental (IVE) group and measure vestibulo-ocular reflex function as well as subjective and functional outcomes in order to investigate the best means to improve delivery of vestibular rehabilitation.