View clinical trials related to Concussion, Brain.
Filter by:The purpose of this study is to develop a highly portable, ruggedized diagnostic tool for concussion, EyeBOX Lens (EBLens), that can be utilized in deployed field and far-forward settings. The EBLens will be based on a concussion diagnostic algorithm from the FDA cleared EyeBOX device, developed by Oculogica, and eye-tracking data collected from a wearable set of eye-tracking glasses, developed by Adhawk Microsystems. Once the EBLens is prototyped, an algorithm for diagnosing concussion will be developed that is specifically appropriate for the EBLens via a case-control clinical study comparing 100 concussed to 100 non-concussed subjects (Phase I). Participants, age 18-35 years, will be recruited from the KACH research team and affiliated providers and clinical sites. Concussed individuals will be assessed within 72 hours of concussion. Demographics, basic medical history, symptom severity, a visio-vestibular exam and the EBLens scan will be collected on both injured cases and uninjured controls at a single time point. The algorithm and the EBLens will be validated in a subsequent, prospective cohort validation study (Phase II) designed for FDA submission. The correlation of the EBLens output with resolution of symptoms will also be observed in longitudinal follow-up of concussed participants in the validation study. The participant population for this study will be cadets recruited from the USMA and young athletes recruited from affiliated sites during baseline concussion testing. Participants will be assessed at baseline at the start of their academic year or sports season. Those participants who experience a concussive injury will be assessed again at three time points; 1) within 72 hours of injury, 2) weekly until and at the time of initiation of a graded return to activity protocol, and 3) upon clearance for unrestricted RTP/RTD.
This investigation will assess the utility of a novel wearable electroencephalography (EEG) headband linked to a mobile application to monitor cognitive activity post-concussion, and alert a patient when it is time to take a mental break. Personalized cloud-based machine learning algorithms will analyze EEG data in real-time for neural features indicative of mental workload and mental fatigue, and will notify a patient when it is time to rest based on these measures. It is hypothesized that this technology may provide a much needed data-driven management tool to better inform the cognitive pacing process for both patients with concussion, as well as their clinicians.
This multi-centred, randomized controlled trial will evaluate the effectiveness of a pilot tested mobile device Application built to guide youth in recovery from concussion. The Back2Play App was developed based on the published and researched CanChild Return to Activity (RTA) and Return to School (RTS) guidelines, which outline graduated steps in returning to play and school for youth after a concussion. It is hypothesized that participants who use the App will have better outcomes from concussion, primarily less reinjury during the vulnerable period throughout their recover up to 3- 6 months after concussion. They may also experience reduced frequency and severity of symptoms and recover more quickly from their concussion.
This study will probe if the biological changes in amnestic mild cognitive impairment (aMCI) are related to a history of mild traumatic brain injury (mTBI) using high definition transcranial direct current stimulation (HD-tDCS) and blood-derived biomarker tools. Participants who Do as well as those who Do Not have a history of mTBI will be enrolled in the study.
Aerobic exercise has emerged as an effective treatment to reduce sport-related concussion symptom severity, yet existing work lacks rigor regarding the precise exercise volume and intensity required to elicit therapeutic effects, how exercise can alter concussion-related pathophysiology, and whether exercise can prevent the development of secondary sequelae. Our objective is to examine if a high dose exercise program (higher volume than currently prescribed at an individualized, safe intensity level) initiated within 14 days of concussion results in faster symptom resolution, altered physiological function, or reduced secondary sequalae. Findings from this research will lead to more rigorous and precise rehabilitation guidelines and improved understanding about how exercise affects neurophysiological function among adolescents with concussion.
To collect the number of injuries that affect the face and head in rink hockey athletes prospectively during a regular season.
Young adults (aged 18-30) with a concussion history (defined as experiencing a concussion within the past five years but not within the past month) will complete a six-week mindfulness intervention. Throughout the intervention, participants will complete 10-20 minutes of mindfulness-focused exercises and meditations each day using the LoveYourBrain Foundation Meditation Library. Before the intervention, participants will complete a baseline assessment including demographics, concussion history, mental health history, mindfulness history, perceived stress, mindfulness, and concussion symptoms. Throughout the intervention, participants will complete weekly assessments measuring adherence and concussion symptoms. After six weeks, participants will complete a final, follow-up assessment with assessments for adherence, acceptability, feasibility, intervention perceptions, perceived stress, mindfulness, and concussion symptoms. This study's aim is to determine the acceptability, feasibility, usability, and effectiveness of a mindfulness intervention in young adults with a concussion history. The investigators hypothesize that participants who participate in the mindfulness intervention will report high adherence (complete five days of meditation per week), positive acceptability, positive feasibility, and positive intervention perceptions. Additionally, after completing the intervention, participants will report decreased perceived stress, increased mindfulness, and decreased concussion symptoms compared to before the intervention.
The overarching purpose of this proposed research is to determine whether BDNF and/or specific miRNAs can serve as biomarkers for recovery from a concussion during prescribed exercise. The investigators hypothesize salivary BDNF and specific miRNA signatures will change in a statistically significant manner as participants proceed from injury to recovery and participants who show recovery in ANS regulation will show significant differences in salivary BDNF and specific miRNA expression. This study also aims to determine if BDNF and/or specific miRNA can serve as biomarkers of the return of ANS function in concussed patients. The basic premise here is that the volume of exercise will significantly affect the rate of change in the expression of salivary BDNF and miRNA from injury to recovery.
The Y Balance Test for the lower quarter (YBT-LQ) is a movement screen used to assess an athlete's risk for injury. The YBT-LQ is a dynamic balance test where the participant stands on a single leg and with the opposite lower extremity reaches are far in the anterior direction as they can, and this value is measured. The process is repeated in the posterior medial, and the posterior lateral directions. The final values are controlled for leg length of the participants. The YBT-LQ has been shown to be predictive of lower extremity injury in high school basketball players, but it is typically used as part of a battery of tests to determine the athlete's overall injury risk, but more questions remain to be answered. The research question: Is the YBT-LQ predictive of concussion in high school athletes? What are the norms for YBT-LQ in high school athletes? Does history of concussion effect YBT-LQ? Is the YBT-LQ with visual perturbations predictive of concussions? Is the YBT-LQ with visual perturbations predictive of lower extremity injury? What is the impact of visual perturbations on Y-balance and its injury prevention capability? The target student participants will be 9th through 12th grade students; however, 6th to 8th grade students will be allowed to participate depending on the school or organization request. Informed consent will be obtained reiterating that participation is voluntary. Testing utilizing the YBT-LQ will occur, and sport of participation, age, height, weight, dorsiflexion, and leg length will be obtained. Follow up will be made via the athletic trainers and school personnel to indicate the effected athletes. Once the post-test follow up is complete athletes will be able to see their pre-test scores, and any questions will be answered at that time. This will be a longitudinal study where testing will take place at least two times per year, preferably three times per year over 4 years.
The purpose of this study is to determine the value of including dynamic vision testing into California State University, Northridge (CSUN) Athletics' established concussion protocol. The study's hypotheses are 1) dynamic vision testing will reveal vision impairments right after a person sustains a concussion, 2) these impairments may still be present upon clearance to return to play.