View clinical trials related to Brain Injuries.
Filter by:This study is testing the usefulness of two types of Brain Health & Wellness classes for Veterans with a history of concussion to improve mental health.
The goal of this clinical study is to test feasibility of a motor-cognitive training program in patients after mild to severe traumatic brain injury in an acute hospitalization setting. The intervention is a step-based dual-task training, i.e. patients are presented with step patterns that they have to memorize and then execute in the tempo given by a metronome. Researchers will assess the feasibility of the motor-cognitive training regarding acceptance and safety, user evaluation of the training and training performance.
This randomized trial aims to determine the effectiveness a virtual wellness intervention program in individuals with traumatic brain injury (TBI). Participants will be randomized at enrollment into two groups: immediate treatment (IT) and delayed treatment (DT) group. This study will also provide insights into the impact of these intervention's components in helping emotional, physical, and nutritional outcomes post-injury in the context of social determinants of health (SDOH).
Previous clinical studies revealed that the newly developed biophoton therapy has been safe and effective in treating patients with Alzheimer's disease, dementia, stroke, traumatic brain injury, or Parkinson's disease. The current study is to confirm the previous clinical observation by conducting as a randomized, triple-blinded, placebo-controlled prospective intervention clinical research. About 80 patients with brain disorder (Alzheimer's disease, dementia, stroke, traumatic brain injury, Parkinson's disease) will participate in the intervention clinical study at the Tesla MedBed Center located in Butler, PA.
Traumatic brain injuries (TBI) are one of the leading causes of death and disability worldwide. These patients are burdened by physical, cognitive, and psychosocial deficits, leading to an important economic impact for society. Treatments for TBI patients are limited and none has been shown to provide prolonged and long-term neuroprotective or neurorestorative effects. TBI related disability is linked to the severity of the initial injury but also to the following neuroinflammatory response which may persist long after the initial injury. Moreover, a growing body of evidence suggests a link between TBI-induced neuro-inflammation and neurodegenerative post traumatic disorders. Consequently, new therapies triggering immunomodulation and promoting neurological recovery are the subject of major research efforts. In this context, mesenchymal cell-based therapies are currently investigated to treat various neurological disorders due to their ability to modulate neuroinflammation and to promote simultaneous neurogenesis, angiogenesis, and neuroprotection. Clinical trials using intravenous MSC have been conducted for various pathologies, all these studies showing a good safety profile. The hypothesis of the study is that intravenous repeated treatment with MSC derived from Wharton's Jelly of the umbilical cord may be associated with a significant decrease of post-TBI neuroinflammation and improvement of neuroclinical status. The main objective of the study is to evaluate the effect of iterative IV injections of MSC on post-traumatic neuroinflammation measured in corpus callosum by PET-MRI at 6 months in severe brain injured patients unresponsive to simple verbal commands 5 days after sedation discontinuation.
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 60 TBI patients and 20 controls.
Mild traumatic brain injury (TBI) accounts for the majority of TBI. At present, whether TBI has traumatic intracranial lession is mainly diagnosed by computed tomography (CT), while only 5% of mild TBI has positive CT results. The risk stratification method for patients with mild TBI is needed to reduce unnecessary CT use and reduce medical costs. S100β is a protein in glial cells and can be used as a biomarker of brain injury. S100β is showed to have the clinical and economic value in ruling out traumatic intracranial lesions in mild TBI patients in Europe and the United States. However, it was showed to have difference between races, and there lacks systematic research data from Chinese population. In addition, if it is used for emergency departments, it is necessary to evaluate new rapid detection methods. This study is based on a novel fast S100β test. The reference intervals of S100β in Chinese adults will be established. Further, evaluation of S100β in diagnosis of traumatic intracranial lesions in acute mild TBI will be conducted from the perspective of clinical and economic value in China, which will provide data for screening of low-risk TBI patients and avoiding unnecessary CT use in clinical practice.
To investigate factors that predict cognitive enhancement following engagement in an intensive Computerized Cognitive Training Protocol.
Traumatic brain injury (TBI) causes lifelong disability. Children with TBI often have difficulties in attention regulation and executive functions affecting their daily living. Need for rehabilitation is often long-lasting and there is an increasing demand for timely, cost-effective, and feasible rehabilitation methods, where the training is targeted to support daily life functional capacity. The use of Virtual Reality (VR) in the rehabilitation of children with attention and executive function deficits offers opportunities to practice skills required in everyday life in environments emulating real-life situations. The aim of this research project is to develop a novel effective VR rehabilitation method for children with deficits in attention, activity control, and executive functions by using a virtual environment that corresponds to typical everyday life. In this randomized control study, VR glasses are used to present the tasks, and the levels of difficulty are adjusted according to the child's progress. The researchers expect that; 1) Intensive training improves the attention regulation, activity control skills, and executive functions of the children in the intervention group 2)Training of executive skills with motivating tasks in a virtual environment that is built to meet challenging everyday situations transfers to the child's everyday life, 3)The duration of the training effect does not depend on the success of the VR training itself, but on how well the child adopts new strategies that make everyday life easier and how the parent is able to support the child's positive behaviour in everyday life.
The goal of this clinical trial is to compare effectiveness of two interventions for family caregivers of patients with acquired brain injury who are transitioning home after inpatient rehabilitation. The main question it aims to answer is whether these interventions reduce caregiver stress and burden, compared to usual care. Secondary effects include the impact on caregivers' depressive symptoms and perceived self-efficacy as a caregiver. The study will also try to determine if caregivers will engage in these interventions during the acute (inpatient rehabilitation) stage of injury. Participants in the study are family members of the ABI patient, aged 18 year or older, who will be responsible for the patient's care and supervision once discharged home from inpatient rehabilitation. The two interventions, one clinician-led and one peer-led, will be compared to usual care.