View clinical trials related to Concussion, Mild.
Filter by:This study investigates the potential relationship between prior concussions and their impact on both vestibular function and cognitive abilities in athletes participating in sports.
This study investigates the correlation between a history of concussions and its effects on both sleep patterns and physical performance among athletes engaged in contact sports. By examining the relationship between concussion history, sleep quality, and athletic performance, this research aims to provide insights into the potential long-term implications of concussions on the well-being and performance of athletes in contact sports
This study is aimed at improving health outcomes for adolescents who sustain sport and recreation related concussions (SRRC) by enhancing Return to Learn (RTL). The study will conduct a quasi-experimental school-based 2 phase study involving 200 students with SRRC. The first phase will be descriptive to evaluate current standards (n=50). Phase 2 will compare students whod receive either standard of care RTL (n=75) or RTL augmented by a communication tool (RTC+; n=75).
The goal of this observational study is to evaluate the safety of heading in football. We will study the release of biomarkers in blood that reflect microscopic neural damage. The main questions this study aims to answer are: - Does participation in a football match lead to a change in biomarkers that reflect microscopic neural damage? - Is the dose of exposure during a football match related to the magnitude of change in biomarkers that reflect microscopic neural damage? Participants will participate in a regular football match and provide blood samples before and right after the football match. The football match will be recorded on video to count the number of headers of all participants.
The goal of this clinical trial is to test the effects of repetitive transcranial magnetic stimulation (theta burst stimulation) on movement biomechanics (jump landing) among individuals with and without a concussion history. The main question it aims to answer is if theta burst stimulation to the left dorsolateral prefrontal cortex improves single- and dual-task jump landing reaction time and jump landing biomechanics compared to a control site (vertex) for individuals with and without a concussion history. Participants will be asked to perform a jump landing before and after the experimental (left dorsolateral prefrontal cortex) and control (vertex) theta burst stimulation protocol. The researchers will compare individuals with and without a concussion history to see if the effects differ between groups.
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 overall aim of the study is to advance the knowledge on the characterization and underlying pathophysiological mechanisms of persistent post-traumatic headache (PTH) with a direct impact on the ability to diagnose and manage PTH effectively. The investigators also aim to evaluate the efficacy of repetitive transcranial magnetic stimulation (rTMS), a novel intervention on PTH.
The purpose of this study is to conduct the first randomized control trial for targeted treatments for concussion in adults 50 years or older. Participants will be enrolled at their first concussion clinical visit (V1) and their second study visit will occur after (up to 7 days) or concurrently with the participant's second concussion clinical visit, typically (but not limited to) between 21-31 days from V1.
The goal of this clinical trial is to test omega-3 fatty acid supplementation as a treatment in adolescents with a concussion. The main questions it aims to answer are: - Does supplementing with omega-3 fatty acids improve time to recovery following sport related concussion. - Does supplementing with omega-3 fatty acids improve health related quality of life following concussion. - Does supplementing with omega-3 fatty acids change post-concussion symptoms following concussion. - Does supplementing with omega-3 fatty acids change saliva concentrations of interleukin-6 following concussion. - Does supplementing with omega-3 fatty acids change saliva concentrations of cortisol following concussion. Participants will be randomized to receive either an omega-3 supplement or placebo after they have been diagnosed with a concussion. Researchers will compare the omega-3 supplement group and placebo group to see if omega-3 fatty acids, consumed as a treatment, can improve time to recovery, health related quality of life and symptom burden, and whether omega-3 fatty acids alter interleukin-6 and cortisol concentrations in saliva following a concussion.
Analysis of cardiac induced brain forces using cranial accelerometry has been shown to diagnose concussion in high school athletes. This trial expands on this observation by recording headpulse signals in a recently concussed athletes playing Australian rules football.