View clinical trials related to Brain Concussion.
Filter by:This clinical trial will try to determine if the supplements magnesium and riboflavin will reduce the pain and duration of headaches in persons diagnosed with a concussion. The participant will be randomized to either active magnesium and riboflavin capsules or placebo (inert) capsules. The capsules will be taken once a day for 14 days. The participant will also complete a short diary form for the 14 days and will have 3 follow up visits either by telephone or in person.
The goal of this clinical trial is to compare the effects of acute aerobic exercise at two different intensities on psychological measures, symptomology, and time to symptom free in collegiate student athletes with concussion. The main questions it aims to answer are: - Does prescribed, acute aerobic exercise influence measures of pain related fear, anxiety, depression, symptoms, and recovery time? - Does the intensity of the exercise prescription also influence the aforementioned outcomes? Participants will be randomly assigned into either a light intensity or moderate intensity aerobic exercise (treadmill walking) group. They will initiate the exercise protocol 48 hours following their concussion diagnosis, and complete exercise sessions 5 times per week until they report symptom-free. Researchers will compare the light intensity group to the moderate intensity group to see if intensity of exercise influences psychological measures of pain related fear, anxiety, depression, symptomology, and time to symptom-free.
Patients with mild traumatic brain injury (mTBI) may experience spontaneous recovery within 7-10 days, but some continue to exhibit symptoms such as headache, dizziness, vertigo, poor concentration, and cognitive dysfunction. Effective treatments for these symptoms are currently lacking. Frequency Specific Microcurrent(FSM) has received approval from the U.S. FDA for use in neuroinflammatory conditions. Our study aims to evaluate the efficacy of FSM by using FSM device ,IS02LCDs Stimulator (Ru Yi Health ltd. Co,Taiwan R.O.C), on symptom improvement in 52 patients with mild TBI
The goal is to perform a first evaluation of the capabilities of a new generation of non-invasive magnetoencephalography whole head device using optically pumped magnetometers using Helium 4 as the sensitive element (OPM He4) to record brain magnetic activities. The investigators will record 1) healthy subjects stimulated with visual, auditory, somesthesic and motor stimuli and 2) athletes who suffered a mild concussion. The main hypothesis is that the OPM magnetoencephalographs (MEG) system will be able to detect brain activity. The secondary hypothesis is that the data recorded with the OPM MEG system will allow to reconstruct maps of the brain activity. To test the main hypothesis, they will compare the signal to noise ratio of brain activities between a classical MEG system and the new OPM He4 MEG. The secondary hypothesis will be tested through a comparison of the maps of brain activity obtained thanks to the data recorded with a classical MEG system and the new OPM He4 MEG.
The goal of this observational study is to identify blood biomarkers that could help in the management of paediatric patients with mild TBI. The main questions it aims to answer are: 1. How can blood biomarkers reduce unnecessary CT scan and reduce the length of stay at the emergency department? 2. How can blood biomarker predict post-concussion symptoms? Participants will have a blood sample taken when they are admitted at emergency department and will receive a questionnaire describing their symptoms 14 days and 3 months after their trauma.
The goal of this study is to test the effect of a planning, reminders, and micro-incentives intervention verses regular health education facts on physical activity participation over 12-weeks, in older adults who have previously suffered a non-penetrating mild or moderate TBI. Participants will provide information and be screened for eligibility via phone screening call (verification of age, confirmation that the participant is not currently on any medication that affects the central nervous system, and verification that the subject can participate in exercise, brief TBI history). Baseline testing will take place at the Center for Cognitive and Brain Health and Northeastern University Biomedical Imaging Center, for the baseline magnetic resonance imaging, in the interdisciplinary science and engineering complex on Northeastern University's campus. In person testing will take place over one session. The study period lasts 12 weeks, during which all participants will 1. Receive a weekly phone call with study staff, 2. Wear a wrist-worn Fit Bit tracker and 3. Record their weekly walking activities.
The goal of this clinical trial is to compare outcomes for standard vestibular rehabilitation home program to a digital vestibular rehabilitation home program in adults with dizziness related to mild traumatic brain injury (mTBI). The main question is whether participants who use the digital format of vestibular rehabilitation improve to a greater extent at discharge than those who use the standard format. Participants will undergo a customized vestibular rehabilitation home exercise program per standard of care, consisting of gaze stabilization, habituation, balance and gait exercises, and endurance training under the supervision of a physical therapist. Participants will complete the gaze stabilization and habituation exercises 2-3 times per day and the balance and gait exercises 1 time per day for 4 weeks. Participants will be tested before and after the 4-week intervention. At the initial session, the researcher will perform standard clinical tests of the inner ear balance system. Also at the initial session, the researcher will perform standard clinical tests of balance and walking and questionnaires about the impact of dizziness on daily activities. At the final session, the researcher will repeat the tests of balance and walking and questionnaires. Three months after completing the intervention participants will complete an online questionnaire about the impact of dizziness on daily activities.
Older veterans with a history of mild brain trauma exhibit early cognitive challenges, especially in driving-related tasks. This is attributed to alterations in the brain's excitatory/inhibitory (E/I) balance. This pilot project investigates this phenomenon by leveraging electroencephalography (EEG) to measure parietal lobe alpha rhythms during visual attention tasks. The hypothesis is that targeted visual attention training can modulate these alpha rhythms, improving instrumental activities in daily life. However, outcomes from such training vary, possibly due to individual differences in cortical inhibitory functions. This study will assess the relationship between EEG measures of E/I balance pre- and post-visual attention training and its effects on processing speeds in aging veterans. Our findings aim to provide a foundation for customized therapies and interventions for veterans with and without a history of brain trauma.
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.