View clinical trials related to Brain Injuries.
Filter by:Given the rising rates of concussion in youth ages 10-19 and the significant proportion of young people who remain symptomatic for months following concussion, research evaluating the efficacy of multifaceted treatment options following concussion is imperative. Studies examining the efficacy of treatment strategies following concussion in children and adults are surprisingly limited, and most focus on one treatment approach, have small sample sizes, are not randomized controlled trials, and focus on individuals with prolonged recovery (months). There is a need for a multifaceted treatment trial to examine the early implementation of treatment approaches that may reduce prolonged recovery while considering the heterogeneous presentation of symptoms and patient preferences in the sub-acute stage following concussion. Randomized controlled trials that consider a multifaceted transdisciplinary approach to treatment in the early period following concussion are needed to raise the bar regarding evidence-informed management following concussion
This study will probe if the biological changes in amnestic mild cognitive impairment (aMCI) are related to a history of mild traumatic brain injury (mTBI) using high definition transcranial direct current stimulation (HD-tDCS) and blood-derived biomarker tools. Participants who Do as well as those who Do Not have a history of mTBI will be enrolled in the study.
One hundred participants with acquired brain injury (ABI) will be included in a randomized controlled trial, with one group playing a commercially available VR game and the control group doing activities in their everyday as cognitive training. The trial aims to investigate how VR can affect processing speed in the ABI population, and if these effects can transfer into everyday activities. The training will be performed in the participants homes, with assistance provided by the project group via phone or video conference. The training period will last five weeks. Participant's cognitive functions will be measured with questionnaires and neuropsychological tests at the start of the training period, at the end of training and sixteen weeks after the start of the intervention. In depth experiences with VR as a training method will be gathered through performing focus group interviews with some of the participants from the VR group, in addition to self-reported questionnaires from all the participants.
An Exploratory Interventional study to assess the effects of cranioplasty on brain network connectivity, neuropsychological and motor functioning in patients with severe acquired brain injury with pre-, post-cranioplasty and 6 months follow-up assessments.
During the COVID-19 pandemic and subsequent series of Lockdowns, clinic out-patient spasticity services were replaced with video based tele-consultation appointments, in order to reduce the potential risk of virus transmission between patients and clinicians in either direction. This meant that for an extensive period of time, this treatment could not be offered, and like many other specialist services, this resulted in a backlog of case referrals and an extensive clinic waiting list, where patient appointments and referrals were delayed by the pandemic. There have been discussions in many professional network forums that have suggested that the necessary changes to appointments during the pandemic may have contributed to a build-up of pain and disability for patients who were unable to access spasticity management treatment when they needed it. This research aims to gain insight and understanding of the individual experiences and perceptions of patients, carers and a physician who have been involved in spasticity treatment out-patient service clinics during and post COVID 19 pandemic. To do this, a qualitative research approach has been adopted and a group of 10 potential participants along with one consultant physician will be invited to participate in the study. Participants will be provided with information on the research (Participant Information Sheet) and asked to provide written informed consent (Consent Form) in order to take part. After providing consent, the participant will be interviewed via telephone. Data will be analysed using a thematic approach by the research team to identify the challenges, opportunities and barriers that may have been encountered during the pandemic and post pandemic period. All participants will be provided with a debrief document.
Acquired brain injury is mental function damage caused by different reasons (such as cerebral neuropathy, head injury, traumatic brain injury, stroke, brain tumor, etc.). After the injury, patient has mental, cognitive, behavioral, body function, and other impairments, which makes patient still need the assistance of family members. For patients with brain injury in subacute stage, clinician assesses their needs for follow-up rehabilitation intervention programs in an appropriate way to assist patients who have the potential to return home to make care plans. In the process of rehabilitation, family members support patients, accompany patients to face and cope with changes in physical, cognitive, emotional, and behavioral aspects, and help patients return to life, which is the key factor for successful rehabilitation. When family members have good coping strategies, they will also have a better mood and quality of life, which will also contribute to the rehabilitation process of patients. Therefore, it is necessary to understand the psychological coping strategies used by family caregivers in the care process and the neuropsychological function of patients. This study is divided into three stages. In the first stage, it is expected to receive 30 groups of patients and their families. Semi-structured in-depth interviews and questionnaires will be conducted for caregivers of family members with brain injury, to explore the psychological adjustment strategies developed by family caregivers in the process of care, and neuropsychological assessment will be conducted for patients to understand the impact of disease on patients' neuropsychological functions, to serve as the direction of neuropsychological intervention. In the second stage, 230 family members of patients are expected to be collected. According to the psychological adjustment strategy framework constructed in phase I, appropriate neuropsychological tests and self-report questionnaires are selected to evaluate the family members of patients, and the scale is compiled. In the third stage, it is expected to collect 60 groups of patients and their families. Through screening tests, the ecological neuropsychological intervention will be carried out for those who have an insufficient psychological function or psychological distress, and the results of neuropsychological function and psychological status before and after the intervention will be tested with evaluation tools. The objective of this study is to provide a specific framework for clinical workers and families of patients with brain injury to face difficulties together and to increase the direction of clinical psychological intervention in the future.
Paroxysmal sympathetic hyperactivity (PSH) is a syndrome that comprises a series of signs and symptoms reflecting exacerbated sympathetic activity, including arterial hypertension, fever, tachycardia, generalized perspiration, anomalous motor activity (dystonia, muscle stiffness, extension), tachypnea, mechanical ventilator maladjustment, hypoxemia, hypercapnia, and hyperglycemia. PSH episodes can be intense and prolonged and can occur several times a day and all of these can lead to secondary brain damage and are the main causes of a poor prognosis. Paroxysmal sympathetic hyperactivity also induces a hypermetabolic state with hypercatabolism and inflammation and increases vulnerability to infections, sepsis, and weight loss which in turn are associated with increased morbidity, longer hospital stay, and slower recovery. The marked and sustained increase in catecholamine levels predisposes to the development of cardiomyopathy, lung edema, arrhythmias, and cardiac and multisystemic dysfunction. The reported incidence of paroxysmal sympathetic hyperactivity ranges from 8% to 33% and has no particular age or gender predilection. 80% of these syndrome incidents developed with traumatic brain injury.
The purpose of this study is to investigate the efficacy, safety, and tolerability of two dorsolateral prefrontal cortex (DLPFC) repetitive transcranial magnetic stimulation (rTMS) protocols to alleviate symptoms of depression in United States (U.S.) military service members and veterans with a history of concussion/mild traumatic brain injury (TBI).
Mild traumatic brain injury (mTBI) is one of the most frequent emergencies in the elderly population. Despite most mTBI are managed with cranial computed tomography (CT), only 10% of CTs show lesions, determining CT overuse. The use of serum glial fibrillary acidic protein (GFAP) and Ubiquitin C-terminal Hydrolase-L1 (UCH-L1) have shown potential for ruling out the need for cranial CT. However evidence on biomarker use in mild TBI were not based on studies that included aged participants and patients with comorbidities for which biomarker levels could vary. This is why there is a need for a prospective study that assesses the predictive performance of these two biomarkers in the elderly population, both in elderly patients suffering mild TBI and in a reference population, including patients and participants with and without comorbidities.
Discover, optimize, standardize, and validate clinical-trial measures and biomarkers used to diagnose and differentiate cardiovascular, oncologic, neurologic, and other diseases and disorders. Specifically, our research study endeavors to improve disease and disorder diagnosis to the earliest clinical states, in preclinical states, and to develop ensemble multivariate biomarker risk scores leading to cardiovascular, oncologic, neurologic, and other diseases and disorders. Additionally, the study aims to: - Evaluate data analysis techniques to improve diagnostic accuracy and reduce time to diagnosis. - Evaluate data analysis techniques to improve risk stratification for participants through machine learning algorithms. - Direct participants to relevant and applicable clinical trials.