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Six primary care practices within a large Philadelphia pediatric care network will use an electronic Clinical Decision Support (eCDS) tool as standard care for concussion evaluation. The eCDS tool will include a prediction rule for children aged 5-18 assessed for mild traumatic brain injury (mTBI). The eCDS tool predicts risk for persistent symptoms and prompts referral to specialty care for those deemed high risk. This research proposes to analyze the clinical and process outcomes in these six practices relative to the rest of the care network, specifically, whether the eCDS tool reduces time to symptom resolution.
Assess the feasibility of recruiting, enrolling and randomizing patients with concussion symptoms and neck pain to receive manual therapy and cervical rehabilitative exercises in addition to standard concussion treatment. In the usual care workflow provided at the participating concussion clinic, cervical spine rehab is not typically introduced until after week 4. The rationale is that neck pain is often a self-limiting condition that may resolve spontaneously, without the need for specific cervical spine rehab. This study is chiefly focused on feasibility aims that revolve around developing changes to barriers in workflow issues at the participating concussion clinic, that would allow for earlier introduction of cervical spine rehab.
The proposed study will evaluate a new approach to cognitive rehabilitation of mTBI using a brain stimulation technique called "Remotely Supervised Transcranial Direct Current Stimulation combined with Cognitive Training" (RS-tDCS+) which has shown promise for improving complex attention in both healthy and clinical populations. RS-tDCS+ is a home-based, low-risk, non-invasive technique that is designed to boost cognitive training by enhancing learning and the brain's ability to reorganize connections. This study will evaluate RS-tDCS+ for improving complex attention in Active Duty Service Members (ADSM) and Veterans with a history of mTBI. Different tests of complex attention and symptom questionnaires will be used to determine the effects of real versus sham (placebo) RS-tDCS+. Second, the investigators will investigate electrical and connectivity changes in the brain associated with RS-tDCS+ using electroencephalogram (EEG) and magnetic resonance imaging (MRI). Third, the investigators will investigate the lasting effects of any observed changes by evaluating participants at 1 and 6 weeks post-treatment. Lastly, the investigators will explore the impact of individual differences (e.g., PTSD, depression, sleep quality, time since injury, baseline impairment, age, sex, ADSM versus Veteran) on treatment outcome.
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 purpose of this study is to examine the role of a Mechanical Diagnosis and Therapy (MDT) examination in identifying participants diagnosed with concussion who display a directional preference compared to who don't display a directional preference.
Mild traumatic brain injury (mTBI), also known as concussion, is a common injury sustained by Veterans. While most individuals who sustain mTBI experience a complete recovery within several weeks of injury, many Veterans with history of mTBI report frequent and long-lasting neurobehavioral complaints and functional impairment. Though research suggests that these outcomes are strongly influenced by co-occurring conditions such as post-traumatic stress disorder, depression, and chronic pain, evidence-based interventions capable of addressing this wide array of concerns are lacking. This study seeks to address this gap by evaluating the effectiveness of a brief and flexible behavioral health treatment (Problem-Solving Training for Concussion, or PST-Concussion), which was designed to be delivered by generalist providers working in VA primary care settings. If PST-Concussion is shown to be effective, this skills-focused intervention may help improve Veterans' recovery experience following mTBI.
The purpose of this study is to determine if there are differences in knowledge, self-efficacy, and empathy surrounding concussions, as well as intent to report a concussion, after viewing concussion education (CrashCourse and Brain Fly-Through) in 2D versus in 3D. In this randomized study, all participants will receive two types of concussion education (CrashCourse and Brain Fly-Through). Participants will be randomized to the 2D or 3D (Virtual Reality) group, and will experience both concussion educations in that modality (either 2D or 3D).
Mild traumatic brain injury (mTBI) often causes persistent motor and cognitive deficits in children resulting in functional limitations. We are testing a brain stimulation method along with evaluating objective tools to help record and restore communication among affected brain areas, which will facilitate recovery in youth after mTBI.
Our primary objective is to show that early, personalized aerobic exercise treatment safely improves concussion recovery, speeds RTD, and reduces persistent symptoms in CSM. Our secondary objectives include demonstrating the clinical utility of our March-in-place test and determining fundamental mechanisms for the effect of exercise rehabilitation on concussion recovery.
Concussions are one of the most complex conditions to manage in sport medicine due to the individualized clinical presentation, caused by a complex neurometabolic cascade, and the lack of a diagnostic standard. There is currently no objective measurement for concussion and the reliance on subjective reporting and clinical judgement is imperfect. In previous clinical studies the investigators determined cutoff values of plasma phosphatidylcholines that provided strong indication that a concussion had occurred. Based on this data, the investigators have developed a custom assay, which will work together with a capillary blood collection device. The current clinical trial will be conducted in two parts. Part A will allow the investigators to determine precise AUC cut-off values for the propriety, novel custom assay, and in Part B the investigators will assess the safety and efficacy of this device for concussion diagnosis in adolescent athletes aged 13-17.