View clinical trials related to Concussion, Mild.
Filter by: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.
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.
The goal of this clinical trial is to test a wearable device's effect on performance in tactical populations with a history of concussion. The main question it aims to answer is the effectiveness of the device on modulate physiological and cognitive function. The physiological function will be derived from metrics of heart rate variability and blood-based biomarkers, whilst human performance will be evaluated using tasks that assess cognitive domains of executive function, reaction time, and memory.
Concussion is common and patients can go on to suffer with a constellation of symptoms which impacts their functional outcome and quality of life. Patient provision with information about their concussion and subsequent follow-up is highly variable. The investigators have developed HeadOn - a web application that delivers a CBT programme to patients following concussion. In this study, the investigators would like to examine the feasibility of digitally delivering a course of CBT to patients following concussion.
Sleep disturbances have been shown to contribute to poorer recovery from a concussion. Furthermore, sleep disturbances have been associated with more frequent and severe post-concussion symptoms including headache, vertigo, anxiety, depression, and decreased short term memory reducing quality of life and productivity at work or school. Additionally, recent research indicates that individuals with a concussion who have poor sleep quality have increased levels of Neurofilament light (NfL) and tau biomarkers indicating that there may still be axonal damage after weeks or months after the initial concussion injury. Post-concussion symptoms have been associated with higher levels of these biomarkers and there has been a report of higher levels of NfL and tau years following a concussion event. Cognitive behavioral therapy for insomnia (CBT-I) is an effective treatment for insomnia yet it remains unclear if this treatment method is effective in improving sleep outcomes, reducing concomitant post-concussion symptoms, and biomarkers of neural injury/risk in individuals post- concussion. The central hypothesis for this project is treating sleep disturbances will yield a clinically relevant reduction in concomitant post-concussion symptoms. The objective for the proposed study is to determine if CBT-I will reduce insomnia symptoms and improve concomitant post-concussion symptoms in individuals after concussion and if symptom improvements are maintained at 6-weeks and 12-weeks after CBT-I intervention.
The purpose of this pilot study is to better understand the effects of chronic cannabis (THC) use on the neural responses to subconcussive head impacts, as a form of repetitive soccer headings. The study is designed to identify the physiological changes of cannabis using cohort (THC) and compare it to a nonusing cohort in order to see if the responses to 20 controlled bouts of soccer headings are exacerbated by the chronic cannabis use, diminished to less of a response, or unchanged, through an array of neurologic measures, including cognitive function, ocolar-motor function, autonomic function, and blood biomarkers. The hypothesis is that repetitive subconcussive head impacts will impair cognitive function in worse memory, attention span, and visual and verbal problem solving; this impairment will be greater in the chronic cannabis use groups than non-using group. The blood and salivary biomarkers neurofilament light (NFL) and glial fibrillary acidic protein (GFAP) will be measured in plasma, with the hypothesis that repetitive subconcussive head impacts will significantly increase plasma NFL and GFAP level at 24 hours-post heading and decrease by 72 hours-post heading, while remaining undetectable at 2 hours-post heading; the chronic cannabis use groups will see more severe effects on ocular-motor function than the non-using group. The study aims to determine the differences in acute effects of subconcussive head impacts on eye movement, attention, and language function between chronic cannabis use subjects and non-using subjects by evaluating ocular-motor function with near point of convergence and King-Devick tests. The hypothesis is that repetitive subconcussive head impacts will significantly increase impairments of eye movements, attention, and language function, as well as near point of convergence; the chronic cannabis use groups will see more severe effects on hampered ocular-motor function than the non-using group. Lastly, there is a cold pressor test to assess autonomic nerve function, with the hypothesis that repetitive subconcussive head impacts will decrease autonomic nerve function in chronic cannabis use patients to a greater degree than non-using subjects.
The purpose of this study is to examine the effects of concussion history and reading direction on baseline King- Devick Test (KDT) performance, a common component of sideline concussion assessments. The KDT is a timed assessment of saccades, or quick movements of the eyes between two points. This test is a form of rapid automatized naming and involved subjects reading digits arranged on a tablet screen as quickly and accurately as possible. The test has three progressively more challenging test "cards," as the horizontal guidelines between digits disappear from test card 1 to 2, and the vertical spacing between the lines of digits decreases from test card 2 to 3. KDT performance is evaluated in terms of both speed (duration to all three test cards) and the number of errors (digits read incorrectly or omitted). Previous studies have identified several factors that affect KDT performance aside from head injury, including age, sex, sleep deprivation, learning disabilities, and first languages other than English. History of concussion has not been shown to influence KDT performance. The investigators hypothesize that since the left-to-right (L-R) reading direction of the KDT is the same way in which to read English, the long-term effects of prior concussions on saccadic eye movements may be masked. The investigators want to answer the following three research questions: 1) What is the effect of KDT reading direction on baseline KDT performance? If the test is performed by reading digits in a right-to-left (R-L) direction, will KDT times be slower and the number of errors increase relative to a typical L-R KDT? 2) What is the effect of a history of multiple concussions on KDT performance relative to no history of concussion? 3) Is the R-L KDT more sensitive to a history of multiple concussions? The investigators hypothesize that individuals with a history of multiple concussions will perform significantly worse (longer test durations, more errors) than individuals with no concussion history on the R-L KDT. On the other hand, the investigators hypothesize that baseline performance on the traditional L-R KDT will not be able to discriminate individuals with a history of multiple concussions from those with no concussion history.
Traumatic brain injury (TBI) is one and utmost rampant attained neurological conditions which can happen in young adults. Vestibular Rehabilitation Therapy can help them improve their balance, speed and agility.
The diagnosis of sports related concussion still relies heavily on a subjective assessment. In this study the investigators want to assess the prognostic value of blood-based biomarkers with recovery from concussive episodes over specific time points post-injury. Our research aims to (1) assess that the World Rugby's head injury assessment (HIA) can identify that a concussion has taken place by measuring specific biomarkers in the blood and (2) to track these biomarkers over time post-injury as a means to assess player health.
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.