View clinical trials related to Mild Traumatic Brain Injury.
Filter by:The purpose of this study is to evaluate a multi-disciplinary, multi-setting intervention with the goal of improving outcomes for children who have experienced a mild traumatic brain injury (mTBI). The project aims to improve and support mTBI diagnosis and management, and improve critical decision making by clinicians during their interaction with the injured child, their family, and their school.
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.
Background: Individuals with neurological conditions (stemming from brain injury or stroke) can experience high levels of emotional distress leading to decreased quality of life and increased health care costs. Though mental health problems are prevalent and disabling, they often go untreated for various reasons, such as access to specialized care, rural and remote location, lack of time, or concerns about stigma related to seeking care. Internet delivered cognitive behaviour therapy (ICBT) overcomes barriers to face-to-face therapy by often reaching a much wider group of patients who experience unequal access to health care. The internet based program is based on cognitive behaviour therapy, which is an evidenced-based treatment that helps patients identify and modify thoughts and behaviours that contribute to their mental health concerns. ICBT has been shown to be effective in improving psychosocial outcomes such as depression and anxiety, along with disability and quality of life among persons with chronic health conditions. Rationale: Despite evidence for ICBT among those with other chronic conditions, its efficacy has yet to be evaluated among those with neurological conditions such as brain injury and stroke. Objective: The aim of the current study is to pilot an ICBT program developed through a patient oriented approach to improve overall wellbeing among those with mild traumatic brain injury. Methods: In this project, an ICBT program for those with mild traumatic brain injury developed through an patient oriented approach (Phase 1) will be piloted amongst a small group of participants (n=20) to examine acceptability, feasibility, and limited efficacy. At the end of the program, participants will be asked to complete a brief semi-structured interview examining barriers and facilitators to the ICBT program. Participant feedback from the interviews will be used to further improve the ICBT program to meet the needs of the population. The results from the study will be used to guide larger studies to evaluate effectiveness of the program in a community setting. Anticipated Impact: Ultimately, the proposed project aims to improve overall wellbeing and access to health care service for those who have mild traumatic brain injury and mental health concerns.
This study is looking at the specific role of an exercise prescription on recovery from concussion symptoms in the general population.
The objectives of this VA SPiRE application are to develop a combined neuromodulation and yoga (iTBS+yoga) intervention for Veterans with mild traumatic brain injury (mTBI) and chronic pain, assess the intervention's feasibility and acceptability, and to gather preliminary clinical outcome data on quality of life, function and pain that will guide future studies. This SPiRE project will directly benefit Veterans and VA Services by developing a new, non-pharmacological neurorehabilitation treatment for Veterans with mTBI and chronic pain in need of non-opioid treatment options. Neuromodulation is now offered at 30 VA hospitals and yoga is among the complementary and integrative health programs being rolled out as a part of VAs Whole Health implementation efforts. Thus, should iTBS+yoga ultimately prove to be efficacious, VA facilities will be well-poised to offer this treatment. A novel, activity-based, non-pharmacological treatment for Veterans with mTBI and chronic pain is of great need given the high prevalence of chronic pain.
The study will examine the efficacy of high definition transcranial direct current stimulation (HD-tDCS) and its influence on episodic memory in patients with amnestic mild cognitive impairment and a history of Traumatic brain injury. Ten sessions of HD-tDCS to the dorsal anterior cingulate region is expected to result in improvements in episodic memory measures immediately following the last session and at a 3-month follow-up.
The goal of HeadSMART II (HEAD injury Serum markers and Multi-modalities for Assessing Response to Trauma II) is to develop an In-Vitro Diagnostic, the BRAINBox TBI test, to aid in the diagnosis and prognosis of patients with mild traumatic brain injury, by incorporating blood biomarkers, clinical assessments, and tools to measure associated neurocognitive impairments.
This study aims to validate an established internet-guided cognitive behavioral therapy for insomnia (CBT-I) as an alternative program to traditional in-person therapy that may increase treatment availability and utilization within the military health system. The version of the internet-guided CBT-I program being studied has been customized specifically for military service members. The study will assess if the customized internet-guided CBT-I program will positively improve clinical measures of insomnia and quality of life outcomes in active or retired service members with primary insomnia and associated mild traumatic brain injury.
This study will establish the capability of a suite of conventional tests and the Neurolign Dx_100 I-PAS goggle system to reliably and objectively detect mTBI in an acute setting when comparing individuals with mTBI to controls with minor injuries in a similarly stressful environment.
The purpose of the study is to determine the effect of a low vs. high dose of acupuncture treatment in individuals with chronic post-traumatic headache (CPTH). A total of 36 people with mild traumatic brain injury (mTBI) suffering from CPTH will be enrolled in this study to receive acupuncture treatment for 5 weeks. Participants will be randomized into two groups: 1) Low Acupuncture group (5 treatments) and 2) High Acupuncture group (10 treatments). It is hypothesized that both treatment groups will have decreased headaches, but that 10 treatments will greater alleviate headaches when compared to 5 treatments.