View clinical trials related to Brain Injuries.
Filter by:Up to 40 participants will be enrolled in this study in order to obtain complete data on 30 participants. The investigators will be assessing if Augmented reality in combination with treadmill training is safe and feasible to use in the clinical environment with participants who have chronic TBI and if there is a signal of effect that this intervention may be more beneficial than treadmill training alone or standard of care.
Treatment of bevacizumab followed by steroid may have a better effect on patients with radiation-induced brain injury.This randomized trial aims to investigate whether treatment of bevacizumab followed by steroid may alleviate radiation-induced brain injury in patients with nasopharyngeal carcinoma. The effect will be compared with outcomes in patients receiving steroid therapy
People with brain injury commonly experience difficulties with memory, concentration, attention and judgement, meaning that important everyday actions and tasks are not carried out or not completed, limiting the ability to live independently. Technology-based solutions, including smartphone applications, can help by providing prompts about intended actions at the correct time. However, memory and attention impairments mean people forget to set reminders or fail to set them accurately (e.g. setting the wrong time/date for events). Using co-design methods with prospective users, the investigators developed ApplTree, a smartphone reminding application with design features that can be personalised to individuals. ApplTree prompts reminder setting, supports reminder entry to improve accuracy, and delivers users with prompts at the appropriate times. A pilot randomised controlled trial will be conducted to provide crucial information to inform a future larger scale efficacy trial of ApplTree as an intervention to support memory in people with acquired brain injury.
This will be a randomized placebo controlled study to test the efficacy of cannabidiol (CBD) as a treatment for symptoms of post-traumatic stress disorder (PTSD). Subjects, 120 in total, will be males and females with PTSD, half of which will have comorbid mild traumatic brain injury (TBI). There will be three study arms, each with 40 subjects: 1) Oral CBD 400 mg daily; 2) Oral CBD 800 mg daily, and 3) Placebo daily. Treatment duration will be 8 weeks. The primary outcome will be change in PTSD symptoms as measured by change in the Clinician-Administered PTSD Scale (CAPS-5) total score.
Objective: This 3-year multisite RCT will determine the effectiveness of a targeted multidomain intervention (T-MD) (anxiety/mood, cognitive, migraine, ocular, vestibular; and sleep, autonomic) compared to usual care (behavioral management) in military-aged civilians with complex mTBI.
This is an observational study in neurocritical care units at University of California San Francisco Medical Center (UCSFMC), Zuckerberg San Francisco General Hospital (ZSFGH), and Duke University Medical Center. In this study, the investigators will primarily use the monitor mode of the Transcranial Doppler (TCD, non-invasive FDA approved device) to record cerebral blood flow velocity (CBFV) signals from the Middle Cerebral Artery and Internal Carotid Artery. TCD data and intracranial pressure (ICP) data will be collected in the following four scenarios. Each recording is up to 60 minutes in length. Multimodality high-resolution physiological signals will be collected from brain injured patients: traumatic brain injury, subarachnoid and intracerebral hemorrhage, liver failure, and ischemic stroke. This is not a hypothesis-driven study but rather a signal database development project with a goal to collect multimodality brain monitoring data to support development and validation of algorithms that will be useful for future brain monitoring devices. In particular, the collected data will be used to support: Development and validation of noninvasive intracranial pressure (nICP) algorithms. Development and validation of continuous monitoring of neurovascular coupling state for brain injury patients Development and validation of noninvasive approaches of detecting elevated ICP state. Development and validation of approaches to determine most likely causes of ICP elevation. Development and validation of approaches to detect acute cerebral hemodynamic response to various neurovascular procedures.
The aim of this study is elucidate genetic susceptibility of patients with traumatic brain injury (TBI) and symptoms of Brain Injury Associated Fatigue and Altered Cognition (BIAFAC) using genome-wide association study (GWAS).
Viral pandemics, such as HIV and SARS-Cov-V1, have shown that they can lead to acute and / or delayed neurological complications. At the actual context of the pandemic Coronavirus disease 2019 (COVID-19), neurological manifestations seem to be confirmed since in 85% of COVID-19 patients, present neurological symptoms, including anosmia, ageusia, periorbital pain, dizziness, fatigue, even moderate headache, moderate memory and/or behavioral disorders. However, these neurological manifestations are not well studied and their radiological features are not well described. It is therefore important to assess these potential neurological complications in COVID-19 patients. To the investigator knowledge, there is no previous study in the literature describing spectral brain changes in COVID + patients. Thus, the goal of this work is to describe the radiological semiology using MRI and particularly Magnetic Resonance Spectroscopic (MRS) biomarkers in the evaluation of acute and / or delayed brain damage in COVID + patients presenting a neurological manifestations that are initially related to the cranial nerves damage.
The indication of cranial computed tomography (CCT) is difficult to define for patients with mild traumatic brain injury (mTBI). For mTBI patients with a medium risk of intracranial complications, CCT scans are indicated although 90% of them are normal. The interest of the S100B protein has been widely demonstrated in the management of mTBI in adults. Its serum concentration (for blood sampling drawn less than 3 hours after trauma) can accurately predict a normal CCT scan for mTBI patients with a medium risk of intracranial complications. That's why, serum assay of the S100B protein is routinely used in the Emergency Department of Clermont-Ferrand University Hospital for the treatment of patients with mTBI. The objective of the study is to optimize the management strategy for mTBI patients by blood testing of new brain biomarkers. These biomarkers are synthesized by brain cells and are released into the blood in case of intracranial lesions.
Long-term sequelae in TBI is a well-recognized burn. We designed a proof of concept study, randomized, double-blind, placebo-controlled to evaluate 36 adult TBI patients. To evaluate the early and late effects of 10 days of 20 minutes applying transcranial direct-current stimulation (tDCS) in the dorsolateral prefrontal cortex (DLPFC), bilateral temporal cortex (CTB) and compare to sham stimulation, and online cognitive training. We expect that the active group will differ from the sham group, showing larger effect sizes in the cognitive assessment.