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Showing 1-20 of 522 trials
NCT06193382
The purpose of this study is to understand how a stepped-care model of Parent-Child Interaction Therapy (Step-Up PCIT) addresses child behavioral problems among children between the ages of 2 and 7 with a traumatic brain injury (TBI).
NCT03819608
This study will determine (i) the magnitude of immediate and sustained effects of a current clinical standard interactive computer attention processing training (APT) when combined with intermittent theta burst stimulation (iTBS), a type of repetitive transcranial magnetic stimulation and (ii) determine how APT + iTBS changes the neurocognitive system of attention in individuals with persistent attention deficits related to mTBI +/- PTSD.
NCT04565119
BioBOOST is a multicenter, observational study of the effect of derangements in brain physiologic parameters on brain injury biomarker levels in patients with severe traumatic brain injury.
NCT01132937
Background: \- Traumatic brain injury may have a range of effects, from severe and permanent disability to more subtle functional and cognitive deficits that often go undetected during initial treatment. To improve treatments and therapies and to provide a uniform quality of care, researchers are interested in developing more standardized criteria for diagnosing and classifying different types of traumatic brain injury. By identifying imaging and other indicators immediately after the injury and during the initial treatment phrase, researchers hope to better understand the nature and effects of acute traumatic brain injury. Objectives: * To study the MRI results of individuals who have recently had head injury and suspected traumatic brain injury. * To study the natural evolution of traumatic brain injury for up to 3 months after head injury. Eligibility: \- Individuals at least 18 years of age who have been admitted to a hospital with a diagnosed or suspected traumatic brain injury within the past 48 hours. Design: * Participants will have one 3-hour study visits: an initial visit (within 48 hours of head injury). Participants may be asked to have an optional 4-day, 30-day, 90-day, and 1-year follow-up. * Each visit may involve blood samples, an MRI scan (approximately 30 minutes), and a series of tests to evaluate brain function. * At the optional follow-up visit, participants may have blood samples, an MRI scan, and a general traumatic brain injury assessment. * This study does not provide treatment and does not replace any current therapies. However, participants who are eligible for other National Institutes of Health studies may be referred to these studies by researchers.
NCT03992404
The purpose of this study is to determine whether a single treatment with administration of 400 Units NT 201 (botulinum toxin) is superior to placebo (no medicine) for the treatment of lower limb spasticity caused by stroke or traumatic brain injury (Main Period). Participants will be assigned to the treatment groups by chance and neither the participants nor the research staff who interact with them will know the allocation. The following 4 to 5 treatment cycles will investigate the safety and tolerability of treatment with NT 201 (botulinum toxin) when administered in doses between 400 and 800 Units (Open Label Extension Period). All participants will receive the treatment and the dose will depend on whether only lower limb spasticity or combined upper and lower limb spasticity are treated.
NCT07544602
The goal of this single-arm observational study is to determine whether alpha music therapy, initiated early in the recovery period, can improve cognitive function for severe traumatic brain injury patients when compared to historic controls. Participants will listen to selected music through headphones. The investigators will compare cognitive function between groups at three time points: ICU discharge, hospital discharge, and three months after injury.
NCT06693778
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.
NCT07538440
Due to ethical and logistical challenges related to paediatric research, there is limited age-appropriate evidence for managing paediatric traumatic brain injury (pTBI). The prognostic models used for adult TBI research (IMPACT, CRASH), have been derived and validated from analysis of large international datasets which have undergone further validation in multiple prospective studies; the wide use of these prognostic models across neurotrauma research highlights the relative simplicity and the variables used for prediction making them applicable to both low and high resource set-ups. This has facilitated international collaborative research in adult TBI. At present, no such models exist for pTBI with most paediatric research continuing to use adult prognostic models. Though the variables used for these models show association with outcome in pTBI as well, there are multiple issues with this approach with the key difficulty being that younger age is expected to be associated with better outcome in these models; however, the balance between neuroplasticity and neurodevelopmental trajectory in children is difficult to predict with evidence suggesting worse neuro-developmental outcomes after TBI in younger children. Hence the adult models can either over- or under-predict neurological outcomes in pTBI and have never been validated in pTBI datasets. Given that the amount of data required to create pTBI predictive model is difficult to collect and reasonable validity of adult prognostic models in pTBI, investigators propose to create paediatric modification to the adult models and identify a robust pTBI predictive model for improved classification of injury severity to predict disease trajectory and outcome as well as stratification of patients for interventional research and benchmarking in pTBI to help with appropriate resource allocation for neuro-interventions towards improved outcomes. This will help identify age-appropriate benchmarks for pTBI research studies as well as complement an individual child's clinical assessment, treatment decisions, informing families and resource allocation.
NCT04287283
In the investigator's institute there is ongoing treatment of different patients with cognitive deficits using Hyperbaric oxygen therapy (HBOT). These patients undergo neuro-cognitive function computerized tests before and after treatment. The aim of this study was to retrospectively evaluate the cognitive changes before and after HBOT in different patients populations.
NCT05929833
Despite poor outcomes for adults with traumatic brain injury (TBI), there are no U.S. standards for TBI transitional care for patients discharged home from acute hospital care. To enhance the standard of care, we will examine the efficacy of our existing intervention named BETTER (Brain Injury, Education, Training, and Therapy to Enhance Recovery), a patient- and family-centered TBI transitional care intervention, compared to usual care, among adults with TBI and families. The knowledge generated will drive improvements in outcomes for adults with TBI and families, resulting in improved health of the public.
NCT02404402
This study investigates the efficacy of a novel neuromodulation treatment, light emitting diodes (LED), on cognition, neuropsychiatric status and quality of life in individuals with traumatic brain injury (TBI).
NCT06105892
This study will test a portable virtual reality (VR) system with integrated eye tracking called Virtual Eye Rotation Vision Exercises (VERVE). The proposed VERVE platform will deliver vergence therapy in an automated manner. This research will involve 30 non-traumatic brain injury (TBI) binocularly normal (BNC) Veterans and 50 post-traumatic convergence insufficiency (PTCI) Veterans who will undergo Active and Sham therapy (equally divided groups) to determine the effectiveness of VERVE vergence therapy.
NCT07521384
This prospective observational study collects real world data on participants receiving regenerative therapies administered internationally and delivered intranasally via the Kurve Therapeutics ViaNase device. The study does not assign treatment. Participants are enrolled after receiving, or electing to receive, therapy as part of routine clinical care outside the study. Participants are observed in one of three cohorts based on the therapy received: MuSE cell derived exosomes, MuSE stem cells, or combination therapy. The objective is to evaluate safety, tolerability, and changes in inflammatory biomarkers and clinical outcomes over time in a real world setting. The study also evaluates changes in inflammatory biomarkers, including serum tumor necrosis factor alpha (TNF-α), to better understand the biological effects of these therapies.
NCT03243539
Patients who experience lung injury are often placed on a ventilator to help them heal; however, if the ventilator volume settings are too high, it can cause additional lung injury. It is proven that using lower ventilator volume settings improves outcomes. In patients with acute brain injury, it is proven that maintaining a normal partial pressure of carbon dioxide in the arterial blood improves outcomes. Mechanical ventilator settings with higher volumes and higher breathing rates are sometimes required to maintain a normal partial pressure of carbon dioxide. These 2 goals of mechanical ventilation, using lower volumes to prevent additional lung injury but maintaining a normal partial pressure of carbon dioxide, are both important for patients with acute brain injury. The investigators have designed a computerized ventilator protocol in iCentra that matches the current standard of care for mechanical ventilation of patients with acute brain injury by targeting a normal partial pressure of carbon dioxide with the lowest ventilator volume required. This is a quality improvement study with the purpose of observing and measuring the effects of implementation of a standard of care mechanical ventilation protocol for patients with acute brain injury in the iCentra electronic medical record system at Intermountain Medical Center. We hypothesize that implementation of a standardized neuro lung protective ventilation protocol will be feasible, will achieve a target normal partial pressure of carbon dioxide, will decrease tidal volumes toward the target 6 mL/kg predicted body weight, and will improve outcomes.
NCT07485361
The goal of this observational study is to learn whether functional near-infrared spectroscopy (fNIRS) can measure brain activity in healthy adults and in people with disorders of consciousness (DoC) in the neuro-intensive care unit (Neuro-ICU). DoC include conditions such as coma and minimally conscious state that occur after severe brain injury. These conditions make it difficult to assess a person's level of awareness because many clinical tests rely on observable behaviors such as speaking or moving, which are commonly impaired after brain injury. The main questions the study aims to answer are: * Can fNIRS detect changes in brain activity in healthy adults when they receive sensory stimulation or perform mental tasks? * Can the same fNIRS protocol be used in patients with disorders of consciousness in the Neuro-ICU to measure brain responses and determine whether the method is feasible in this clinical setting? The investigators will first study healthy adult volunteers to establish baseline brain responses and determine which tasks produce the most reliable signals. The protocol will then be applied to patients with disorders of consciousness admitted to the Neuro-ICU. Participants will take part in a single research session lasting about 30 to 45 minutes while wearing the lightweight fNIRS headband that measures brain oxygen levels using near-infrared light. During the session, participants will: * Wear a non-invasive fNIRS headband placed on the forehead * Receive gentle sensory stimulation (for example, compression devices on the legs or hands) * Listen to sounds or spoken sentences * Perform guided mental tasks such as imagining walking through their home or imagining moving a limb The study does not test a treatment and will not change medical care. The goal is to determine whether fNIRS can safely and reliably measure brain activity at the bedside and provide preliminary information that may help guide future research on improving the assessment of consciousness after brain injury.
NCT07473505
This study prospectively evaluates the effects of Integrative Bilateral Cervical Sympathetic Block (BCSB) on trauma-related symptoms in Special Operations Veterans, comparing outcomes in those receiving BCSB alone versus BCSB combined with structured integrative therapy. Using standardized FDA-approved dosing, validated symptom measures, and strict safety criteria, the study aims to determine whether this dual-level autonomic intervention improves PTSD-related and TBI-related symptoms, and whether pairing the procedure with therapy enhances durability and overall clinical benefit.
NCT06864611
Investigators will conduct a randomized controlled trial assessing the effectiveness and implementations of Pre-Game Safety Huddles (Huddles) in youth soccer.
NCT07246993
This project investigates an innovative combination of non-invasive neuromodulation (transcranial direct current stimulation - tDCS) and cognitive training as a novel treatment approach aimed at improving function in individuals suffering from persistent post-concussive syndrome (PPCS) following mild traumatic brain injury (mTBI).
NCT04576715
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.
NCT04521881
Tranexamic acid (TXA) reduces head injury deaths. The CRASH-4 trial aims to assess the effects of early intramuscular TXA on intracranial haemorrhage, disability, death, and dementia in older adults with symptomatic mild head injury