View clinical trials related to Brain Concussion.
Filter by: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 proposed study aims to compare concussion recovery in those supplementing creatine and those not supplementing creatine. Specific aim 1: To compare number of days until asymptomatic between those taking creatine vs. those not taking creatine following a concussion. Hypothesis: The investigators hypothesize that individuals taking creatine will become asymptomatic sooner than those not taking creatine.Specific aim 2: To compare typical concussion assessment scores (i.e., symptom score, mental status, neurocognition, balance, motor coordination, and visual performance) between those taking creatine vs those not taking creatine following a concussion once asymptomatic.Hypothesis: The investigators hypothesize that individuals taking creatine will have better symptom scores, balance, mental status, and neurocognition assessment scores than those not taking creatine once asymptomatic. The investigators will calculate descriptive statistics for all demographic, days to asymptomatic, and concussion assessments. For specific aim 1, The investigators will calculate a t-test to determine if days to asymptomatic differed in those taking creatine vs. those not taking creatine. For specific aim 2, the investigators will calculate t-tests with Bonferonni corrections to determine if concussion assessment scores (Sport Concussion Office Assessment Tool-6 assessments, CNS Vital Signs, visual assessment) differed in those taking creatine vs. those not taking creatine.
There is a paucity of knowledge about mechanisms behind mild traumatic brain injury (mTBI) subgroup's sustained problems, and effective interventions that can alleviate this disabling condition. Persistent Post-concussive Symptoms (PCS) affect between 20% and 30% of individuals after mTBI. This Randomized Controlled Trial (RCT) will investigate whether graded aerobic exercise has a positive effect on symptom burden (including exercise intolerance) and Autonomic Nervous System (ANS) dysfunction in patients with PCS. This study will expand upon previous work on adolescents with sport-related concussion in the acute phase. It will cover a wider age group and will include patients with persisting symptoms, thus providing knowledge on whether a sub-symptom threshold aerobic exercise program will alleviate symptom burden in adult patients with PCS. Furthermore - looking into the relationship between mTBI and ANS function, this study is expected to contribute to a better understanding of the neurobiological factors involved in PCS. The results may also help developing targeted interventions to specific characteristics in persistent symptoms after mTBI.
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.
Concussions in sports are a major public health problem because of their frequency, and are often underdiagnosed because of an unspecific clinical picture or sometimes masked by the concussion itself. Support data has been constantly evolving in recent years, including the last publication of the Berlin Consensus in 2016 specifying support in the field. However, to date, there is no tool to predict the severity of a concussion or to predict when it will return to play objectively and reliably. Brain MRI done after the head injury is most often normal. However, previous studies agree that there is a persistent electrophysiologic disturbance several weeks after the injury, and the specific pathophysiology of white matter changes after a head injury remains controversial. Diffusion tensor imaging (DTI), in addition to morphological sequences, is capable of assessing white matter microstructure and fibrous tract integrity or not. Several parameters, such as the seemingly normal white matter fractional anisotropy (FA) coefficient, the mean diffusivity and the radial diffusivity, may be altered in the aftermath of a concussion, indicating axonal damage not visible on conventional MRI sequences. Previous studies have evaluated these parameters with sometimes contradictory results: some have found an increase in AF in specific regions such as the cortico-spinal tract and the corpus callosum, others have found a decrease in AF. So far, assessment of a player's condition on and off the field after a head injury has been based on clinical criteria alone, sometimes far too subjective. The player may choose to mask their symptoms to allow them to return to the game faster, or feign more than they have. Once pathologies such as bone fractures or intracranial hematomas are ruled out by conventional imaging, there is no longer any tool for a more accurate diagnosis of possible microstructural alterations of brain tissue and for monitoring of the patient. The advent of new MRI techniques such as diffusion imaging, and particularly diffusion tensor imaging (DTI), is a promising tool to better understand white matter involvement in diffuse axonal lesions.
Mild traumatic brain injury (TBI) accounts for the majority of TBI. At present, whether TBI has traumatic intracranial lession is mainly diagnosed by computed tomography (CT), while only 5% of mild TBI has positive CT results. The risk stratification method for patients with mild TBI is needed to reduce unnecessary CT use and reduce medical costs. S100β is a protein in glial cells and can be used as a biomarker of brain injury. S100β is showed to have the clinical and economic value in ruling out traumatic intracranial lesions in mild TBI patients in Europe and the United States. However, it was showed to have difference between races, and there lacks systematic research data from Chinese population. In addition, if it is used for emergency departments, it is necessary to evaluate new rapid detection methods. This study is based on a novel fast S100β test. The reference intervals of S100β in Chinese adults will be established. Further, evaluation of S100β in diagnosis of traumatic intracranial lesions in acute mild TBI will be conducted from the perspective of clinical and economic value in China, which will provide data for screening of low-risk TBI patients and avoiding unnecessary CT use in clinical practice.
Traumatic brain injury (TBI) is a leading cause of long-term disability and mortality. The costs associated with hospitalization, rehabilitation, and productivity losses after injury impose a significant socioeconomic and healthcare burden. TBI patients often struggle with symptoms such as dizziness and post-concussion syndrome, preventing them from returning to their previous level of functioning. This leads to negative consequences, including unemployment, psychosocial adjustment difficulties, and decreased quality of life, particularly affecting young working-age individuals. The purpose of this study was to investigate whether vestibular rehabilitation exercises for mild traumatic brain injury (mTBI) patients could improve symptoms of dizziness, post-concussion syndrome, physical balance, anxiety, and quality of life. The study aimed to provide individualized care plans for mTBI patients, reducing symptom burden, lowering healthcare costs, and enhancing their quality of life.
To date, there is no validated pharmacotherapy for olfactory disorders. Interestingly, olfactory training - the intentional exposure to odorants for the purposes of retraining the sense of smell - has shown success with as many as 28% of subjects over the course of 12 weeks.
This study aims to examine the long-term effect of repetitive transcranial magnetic stimulation (rTMS), a non-invasive brain stimulation technique, on chronic headaches following mild traumatic brain injury (mTBI). rTMS has been shown to be effective in reducing chronic headaches without side effects commonly seen in medications, such as sleepiness and addiction. This study uses rTMS to manage chronic headaches to improve post-concussion symptoms and reduce the economic burden due to delayed recovery. This project aims to better identify biomarkers for diagnosis and prognosis and maximize recovery from mTBI.
The goal of this study is to complete a pilot study testing the feasibility and acceptability of low-intensity pulse-based transcranial stimulation (LIP-tES) neurofeedback intervention for reducing photosensitivity symptoms in Veterans with a history of mild traumatic brain injury (mTBI). The study will also complete resting-state MRI scans to assess neurophysiological markers of photosensitivity and changes associated with LIP-tES intervention.