View clinical trials related to Post-concussion Syndrome.
Filter by:Approximately 1.9 million youth sustain a concussion each year, and up to 30% experience persistent post-concussive symptoms (PPCS) such as headache, dizziness, and difficulty focusing that continue for weeks or months. PPCS results in greater utilization of sub-specialty care and can impact immediate and long-term social development, cognitive function and academic success. Previous recommendations for treating PPCS have focused on cognitive and physical rest, but more recently guidelines have shifted based on new research suggesting the benefit of rehabilitative exercise for PPCS. The rationale behind using exercise to treat youth with concussion is that gradually increasing physical activity facilitates return to full function. Rehabilitative exercise has since become one of the most common approaches to treating youth with PPCS, but access is challenging since most programs require weekly centralized visits with a concussion specialist. To bridge this gap, the investigators developed a telehealth-delivered approach to treat PPCS, utilizing physical activity trackers (Fitbits) and weekly video conferences with trained research staff. They then conducted a series of pilot studies with this approach, finding excellent feasibility, acceptability, and evidence for more rapid declines in concussive symptoms compared to controls. The investigators also found preliminary evidence that mechanisms behind this intervention may stem from both physiologic processes due to increased moderate-to-vigorous physical activity (MVPA) and psychologic processes such as reducing fear- avoidance of concussive symptoms. They now propose a fully-powered randomized controlled trial (RCT) to asses the efficacy of the "Mobile Subthreshold Exercise Program" (M-STEP) for treating youth with PPCS.
This novel pilot project will assess the effectiveness of corticosteroids in treatment of acute post-concussion headache. The investigators hypothesize that the use of corticosteroids will cause significant headache reduction in frequency and/or intensity than individuals who undergo the current standard of care. Additionally, the investigators hypothesize that corticosteroid use will lead to a reduction in other somatic symptoms including vestibular symptoms, leading to quicker return to school, work, and/or ability to play sports.
This study will evaluate the practicality (i.e. acceptability to stakeholders; outcome battery feasibility; recruitment, retention, and adherence rates) and the preliminary effect of a cognitive strategy training intervention in adults with post-concussive syndrome.
The investigators aim to evaluate effects of an outpatient rehabilitation program based on Acceptance and Commitment Therapy compared to usual care on function in patients with post-concussion syndrome (PCS) and post-traumatic headache (PTH). This study builds on the investigators' previous observational studies and treatment studies in this patient group.
Every year, approximately 2 million people in the United States and 280,000 in Canada experience a mild traumatic brain injury/concussion. In patients with concussion, symptoms experienced following injury usually get better within 3 months. However, approximately 5-25% of people will experience symptoms beyond the 3 month period, characterized by persistent headaches, fatigue, insomnia, anxiety, depression, and thinking or concentration problems, which contribute to significant functional impairment. Chronic headache is the most common symptom following concussions. They can last beyond 5 years following injury, significantly impacting daily activities. To date, post-concussion symptoms have no known "cure". One potential approach to treating post-concussion symptoms may involve using drug-free interventions, such as neuromodulation therapy. This has the goal of restoring normal brain activity. Repetitive transcranial magnetic stimulation (rTMS) is one method currently being explored as a treatment option. TMS is a procedure where brain electrical activity is influenced by a magnetic field. Numerous studies using rTMS to treat other disorders, such as dementia, stroke, cerebral palsy, addictions, depression and anxiety, have shown much promise. The primary objective of this study is to determine whether rTMS treatment can significantly improve persistent post-concussion symptoms. A secondary objective is to explore the relationship between potential changes in brain function and clinical markers associated with rTMS treatment and how functional near-infrared spectroscopy (fNIRS), a neuroimaging technology, may be used to assess rTMS-treatment response.
The purpose of this study is to gather information and compare the potential use of pupillometry to identify concussions and post concussive syndrome with standard age appropriate assessments. The study will compare concussed pediatric patients 5-17 years of age recruited from the emergency department within 72 hours following injury with age and gender matched non-concussed pediatric patients recruited from primary care clinics. Assessment of both concussed and non-concussed subjects will take place at the initial enrollment visit and will be repeated at 1-2 weeks for the concussed subjects and at 12-14 weeks for both groups.
This is a randomized, placebo-controlled, double-blinded trial in which subjects with a post concussive headache meeting inclusion criterion will be assigned to one of two treatment groups: placebo or nortriptyline. Each group will be evaluated at week 0 and again each week for the next 4 weeks of treatment with a concussion survey that rates their symptoms. At the end of 4 weeks the study will be unblinded. It is hypothesized that the addition of nortriptyline to the standard headache treatments will result in more rapid decrease of symptom score than with placebo.
This study will evaluate neurofeedback (NFB) training as a low risk, non-invasive, effective treatment for Veterans diagnosed with mild traumatic brain injury (mTBI) and experiencing chronic post-concussive symptoms (PCSs). It is being funded by the Department of Veterans Affairs. Doing this study will help to determine if NFB will reduce chronic headaches and enhance sleep, attention and quality of life in Veterans with mTBI. NFB is like other biofeedback processes in which information about a person's specific body functioning is made known to the person through a special computer program, which can help that person make the specific body function work better through training. This type of training is usually fun and easy with the help of a coach and a computer. Nothing is ever put into a person's body with biofeedback and it is natural and safe. When a person becomes focused, calm and alert while training on an NFB system, the computer will recognize this and let the trainee know by automatically displaying on the computer screen the positive progression of the game they are playing, such as the plane moving forward or a flower opening. The brain really likes to be in this pattern and when it is happening, people feel good. As a result, any discomforts, like headaches or insomnia, experienced may decrease. After learning about the study, Veterans who agree to participate will be randomly placed into one of two groups, either an intervention group (who will receive NFB) or a control group (who will receive only usual care plus once a week 15-minute calls on health topics). Veterans will have an equal chance of being in either group. Those placed in the control, will also receive NFB after completion of the control group activities. Veterans who are placed in the intervention or delayed intervention group will receive NFB up to 5 times a week, but usually 3 times a week for a total of 20 sessions. Each session is an hour long. Both the intervention and control group will participate in four assessment sessions (lasting up to 2 1/2 hours each) that involve completing 12 questionnaires and a 20-minute attention evaluation. The assessment sessions will occur at the beginning of the study, at 4-6 weeks, at 8-10 weeks, and 2-months later. The participant will receive financial compensation for taking the baseline assessment, 4-6 week, 8-10-week assessments, and for the 2-month follow-up assessment. A participant will receive financial compensation for gas, time and valet parking for each intervention and assessment session. Participation in this research will last about 4 months for those in the intervention and 8 months for those in the delayed intervention group. All participants will receive the NFB treatment by the end of the study. A person who participates in this study may experience a reduction in his or her chronic headaches, and an enhancement of sleep, attention and quality of life. There may be a worsening of symptoms until the individualized training plan for a person can be identified. During an NFB session, brief moments, lasting only seconds or minutes, of dizziness while sitting, muscle tension, or tingling may be experienced. Most people feel relaxed and calm during and after NFB training. This project will be an important step towards a broader implementation of an evidence-based treatment solution for Veterans experiencing chronic headaches, insomnia and attention disorders. The experience of these chronic symptoms can lead to debilitation in all areas of Veterans' lives. This project will provide evidence for the use of NFB with Veterans to alleviate their chronic symptoms and enhance their quality of life. If supported, NFB will offer the investigators' Veterans an effective and non-invasive treatment option. NFB is a patient focused intervention that enables Veterans the opportunity for self-health management.
This prospective randomized intervention study aims to determine if the Concussion Symptom Treatment Program (C-STEP), a cognitive behavioral therapy, improves outcomes for children with post-concussion syndrome.
Over the past four decades, it has become clear that childhood physical activity carries with it a myriad of beneficial effects. It is closely linked to quality of life and the recognized benefits include, but are not limited to, optimal growth and development, a healthier self-concept, enhanced peer socialization, and decreased anxiety and depression. Long term, an active lifestyle decreases the risk of many important physical and mental morbidities. Thus, the observation that children living with medical conditions and disabilities (MC&D) today, although surviving longer thanks to advances in medical care, are much less active than their peers is a matter of significant concern. Research indicates that the 350,000 Ontario children with MC&D have lower levels of physical activity, higher screen time and more frequent sleep problems. While the reasons underlying this reality are complex, previous research has identified a substantial subset of children who are motivated to be active but lack the confidence to do so. Fear of pain, concern for MC&D exacerbation and a lack of confidence in individual physical movement capacity contribute to their hesitation. Clinical experience suggests that these children represent 50% to 70% of inactive patients. Research indicates that being motivated to make a change and having the confidence that the desired change can be achieved are the essential precursors upon which successful behaviour change initiatives are built. This randomized, controlled trial will explore whether group sessions with a Registered Kinesiologist lead to a direct bolstering of physical activity confidence, and in turn to increased and sustained physical activity in these children. Such an approach holds the promise of a nonpharmacologic, low cost and accessible means of enhancing health that shall be met with a high level of patient and family support while bringing a significant societal and medical return on investment.