View clinical trials related to Concussion, Severe.
Filter by:This will be an observational study measuring serum Neurofilament Light Chain concentrations and associated symptoms, with a control branch, and a post-concussion branch.
The goal of this hybrid implementation-effectiveness study is to evaluate the effectiveness (hastened recovery times) and feasibility (fidelity in connecting to concussion specialty care) of a novel mobile health intervention, designed to reduce disparities in access to specialty care through the use of remote patient monitoring (RPM) to facilitate care hand-off from the emergency department (ED) to concussion specialty care. Participants will report their symptoms and activity once daily through RPM chat technology that is linked to their electronic health record and prompts referral to specialty care.
Determine the feasibility, practicality, and early efficacy of a TeleRehab program (ICARE) to improve outcomes for persons with traumatic brain injury (TBI) in recognizing and responding to others' emotions alongside their care partner (CP).
To examine the feasibility, acceptability, and preliminary efficacy of a remotely delivered intervention for civilians and service members with mild traumatic brain injury (mTBI) who have difficulty recognizing and regulating their emotions. Post-treatment outcomes of interest include emotional self-awareness and regulation, resiliency, and affective symptoms.
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 sport-related concussion evaluation.
Adolescent brains undergo rapid and significant changes in structural architecture and functional organization during development. A concussive injury during this developmental period can have substantial physiological and cognitive ramifications. If not adequately managed, adolescent concussions can have profound long-term effects. The purpose of this study is to determine whether ketone supplementation after a concussion will reduce long-term consequences and improve short-term functional status and outcomes in adolescents who have suffered a concussion.
This study (Part 3) 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.
This study is Part 2 of data collection from 13-25 years old subject population for validation of previously derived algorithms. This data will be combined with that collected under NCT02957461 (Part 1 with subject age range 18-25 years) for the final analyses of validation of the algorithms.
200 adolescent rugby players (aged 15-19) from the Senior Cup Teams of 5 Rugby Playing schools (Members of Irish Schools Rugby) will be invited to enroll for inclusion in the study. The study will collect data on brain health, including computer based skill testing, eye tracking and balance and on task completion, cover existing tests in the established SCAT 3 alongside response to exercise testing and a clinical examination including baseline blood tests known to influence recovery from concussion in a rugby playing population of adolescent schoolboys. The initial data will be taken before the 2016/2017 season starts. The volume of rugby training and match play will be recorded along with activity monitoring in general. For those subjects who sustain concussion a dedicated clinic will provide all after care including repeat clinical examination and magnetic resonance imaging along with a graduated return to exercise and a compressive rehabilitation programme at Sports Surgery Clinic (SSC). A Consultant Sports Physician will manage the return to play programme with an exercise, cognitive, balance, eye movement and neck strength programme.
Patients who sustain a concussion will undergo a sub-maximal exercise protocol throughout their recovery. Cerebrovascular function, heart rate, and symptom severity, and exercise volume will be monitored throughout.