View clinical trials related to Brain Injuries.
Filter by:Traumatic brain injury (TBI) is the signature injury of the wars in Iraq and Afghanistan. Up to 73% of TBI patients endorse fatigue as their most challenging symptom. Fatigue leads to decreased participation in everyday life and return to work. The Maximizing Energy (MAX) intervention trains individuals with TBI to manage their fatigue. The intervention individualizes the Occupational Therapist delivered Energy Conservation Strategies education by using the framework of Problem Solving Therapy. The purpose of this single-blind randomized clinical trial was to test the effect of the Maximizing Energy (MAX) intervention for decreasing the impact and severity of post-TBI fatigue, increasing participation in everyday life and physical activity, and decreasing work disability.
Background: Congenital heart disease (CHD) is the most frequent inborn defect with an incidence of 1 in 100 newborns per year, i.e. 800 children born in Switzerland per year. 10% to 15% of cases are born with single ventricle (SV), the most complex type of CHF requiring immediate surgical intervention after birth. Infants with SV CHD are treated in three surgical staged procedures over the first three years of life. However, cerebral injuries occur in around 40% of those children and impact neurocognitive abilities. As more than 90% of all infants with CHD survive to adulthood, scientific concern is focussed on patient-individual course brain growth and development within the relative contribution of fetal, perinatal, cardiac and surgical risk factors. Therefore, serial cerebral MRI examinations are needed, starting (1) at the third trimester during fetal life proceeding to (2) pre- and postoperative time points at the stage I surgery after birth and (3) before stage II surgery at 4 months of age. We will compare the cerebral MRI findings with a healthy control population, recruited at the same time points, and correlate brain growth and development with the neurodevelopmental outcome assessed at one year of age. Three Pediatric Heart Centers in Switzerland and Germany will participate. The overall aims are: 1. To analyse the patient-individual cerebral developmental trajectories, brain growth and determine the time course of brain abnormalities in infants with single ventricle CHD by serial cerebral MRI during fetal life, after birth and at an age of 4 months (primary endpoints). 2. To determine the neurodevelopmental outcome at one year of age using the Bayley III and will be correlated with the brain growth and brain development in the third trimester of fetal life and at the age of 4 months (secondary endpoints). 3. To analyse fetal, neonatal, surgery-related and intensive care associated factors determining the patient-individual course for altered cerebral growth and impaired neurodevelopmental outcome at one year of age. Methodology: We will prospectively enroll fetuses and neonates with single ventricle CHD at the three Pediatric Heart Centers in Switzerland (Zurich, Bern) and Germany (Giessen). Advanced MR imaging will assess cerebral volumes, microstructural and hemodynamic changes at repeated time points during the third trimester of fetal life (32. week of gestation), the perioperative neonatal period before and after stage I surgery and before stage II surgery at 4 months of age. Biomechanical analysis of longitudinal changes of brain morphology will be applied to longitudinal fetal and neonatal MRI data. Outcome is determined with the Bayley-III at one year of age. Significance: Using a population-based sample of children with single ventricle CHD, we will be able to determine cerebral growth from the third fetal trimester until the first 4 months after birth, when the brain is most rapidly growing. By performing serial brain imaging, the knowledge of etiological pattern affecting cerebral growth, development and brain injury will increase. Morphometric and biomechanical analysis of brain growth patterns will be performed that may capture fine-grained changes associated with CHD. By correlating these data with the neurodevelopmental outcome at one year of age it will be possible to identify specific risk constellations leading to impaired brain development and categories of brain injuries that confer a higher risk of adverse outcome. The better understanding of the pathophysiological mechanisms will serve as the basis for neuroprotective studies and pharmacological trials aiming to improve outcomes in children with CHD in the future.
The purpose of this small, research study is to examine effectiveness of an at-home application of an experimental intervention, on thinking and memory in mild-moderate, closed-head, traumatic brain injury cases. The experimental intervention is light-emitting diode (LED) therapy, which is applied to the scalp and through the nose using a head frame device. Participants are expected to complete two, 5-week series of LED treatments, at home, 3 times a week. There will be a 1-month period between the two series. Each home treatment is 20 minutes. Participants will be trained to use the head frame device, in-office. The head frame device falls within the FDA category General Wellness, low-risk devices, and no medical claims are made. A two-hour paper and pencil testing (4 visits) and a one-hour MRI (3 visits) will be administered before and after each treatment series. Participants may be in the study for about 4 months. This study is supported by Vielight, Inc., Hayward, CA/ Toronto, Canada
This is a randomized, placebo-controlled, double-blinded trial in which subjects with a post concussive headache meeting inclusion criterion will be assigned to one of two treatment groups: placebo or nortriptyline. Each group will be evaluated at week 0 and again each week for the next 4 weeks of treatment with a concussion survey that rates their symptoms. At the end of 4 weeks the study will be unblinded. It is hypothesized that the addition of nortriptyline to the standard headache treatments will result in more rapid decrease of symptom score than with placebo.
Background: Obstructive sleep apnea (OSA) is a sleep disorder that commonly occurs in Veterans with moderate-to-severe traumatic brain injury (TBI). Untreated OSA increases risk of poor health outcomes including cognitive impairment, declining mental health, poor physical health, and premature mortality. Positive airway pressure (PAP) is the frontline treatment for OSA that effectively reduces the many negative health consequences of the disease. However, adherence to PAP is required to reap the therapeutic benefit. Unfortunately, PAP adherence is poor. A recent study showed that 68% of Veterans with moderate-to-severe TBI and OSA were nonadherent to PAP therapy. Psychoeducation is part of the standard of care for OSA treatment with PAP, but on its own is insufficient for improving PAP adherence. Alternatives to the standard of care include evidence-based behavioral interventions such as Motivational Interviewing (MI) and Cognitive-Behavioral Therapy (CBT) which have been shown to increase PAP use and improve PAP adherence in persons without TBI. Unfortunately, these evidence-based interventions (designed for cognitively intact individuals) have not been adapted to address PAP adherence in persons with moderate-to-severe TBI, who often require cognitive accommodations. The goal of this study is to test the feasibility of a novel 4-session manualized intervention, designed with cognitive accommodations, and informed by MI and CBT, to address PAP adherence in Veterans with TBI and OSA. Study Aims: Study Aim 1 will test the feasibility and acceptability of delivering the PAP adherence intervention. Study Aim 2 will evaluate the feasibility of outcome and process measures. To date, no treatment exists to ameliorate the adverse consequences of moderate-to-severe TBI. OSA is a treatable health condition that commonly co-occurs with TBI, which is a leading cause of long-term disability. Method: In this study, 19 Veterans will be recruited from inpatient and outpatient TBI and sleep clinics. Those meeting eligibility criteria (diagnosis of OSA and moderate-to-severe TBI; nonadherent to PAP, able to provide informed consent) will be invited to participate in the 4-session intervention followed by a qualitative interview to inquire about intervention acceptability. Study measures (e.g., symptom severity, sleep quality of life), will be administered pre- and post-intervention. Adherence will be measured via objective data from hospital software which monitors PAP use.
This study evaluates and addresses challenges to implementing an acupuncture intervention for adults who have headaches after sustaining a moderate traumatic brain injury. Eligible participants will be recruited from Seattle and the surrounding areas to receive weekly acupuncture for 12 consecutive weeks. Participants will complete questionnaires to assess headache impact, depression, health-related quality of life, and cognitive function at the beginning of the study and every two weeks for the duration of the study. Participants will participate in structured interviews after the study for their views on the acceptability and tolerability of the study protocol.
Acquired Brain Injury (ABI) is a sudden lesion in the brain, not congenital or perinatal,caused by various pathologies.According to the National Statistics Institute,in Spain 78% of people suffering from ABI are a result of stroke,and 22% due to Traumatic Brain Injuries (TBIs) and other causes.The ABI is in most cases with problems of cognitive,physical,emotional,social,family and work.Of all these problems,attentional alterations are one of the most frequent and disabling for these participants,with a prevalence of 30-62%.However,there are currently no specific programs for the rehabilitation of attentional processes in people with ABI in Spain.So recently,a program focused on the rehabilitation of NeuronUp APT attentional processes has been developed,based on the theoretical model of Sohlberg and Mateer,which considers attention as a multidimensional cognitive function that is hierarchically organized.This program includes a large group of rehabilitation activities in contexts similar to those of daily life.Objectives:1)Evaluate the effectiveness of the NeuronUp APT attentional training program for the improvement of the attention problems presented by participants with ABI;2)determine whether the improvement of attention problems in participants with ABI causes changes in their functioning emotional and quality of life and 3)determine whether the improvement of the attention problems in participants with ABI causes changes in the functionality of the participants and, consequently, in the activities of their daily lives.Method:This is a randomized clinical trial, 46 participants with ABI between the ages of 18-65 will be recruited; 23 participants will be assigned to the experimental group (integral rehabilitation+NeuronUp APT) and the other 23 to the control group (integral rehabilitation) randomly,using a simple randomization method.Both groups will be evaluated before the start of the intervention, after the end of the intervention and 6 months after the intervention, thus collecting sociodemographic information,clinical characteristics of the disease, cognitive screening measures,emotional functioning test,functional and quality of life.Conclusions:It is hoped to achieve a transfer of the gains obtained,through the training of the attention through the NeuronUp APT rehabilitation program,to other aspects of cognitive,emotional functioning and quality of life.It is also expected that these people improve their attention problems in their daily lives.
Primary aim: The primary aim of the study is to compare survival to discharge (or survival to 14 days post-operatively, whichever comes first) following emergency surgery for traumatic brain injury (TBI) across Human Development Index settings. Primary outcome measure: The primary outcome measure will be survival to discharge (or survival to 14 days post-operatively, whichever comes first) Primary comparison: Between country groups defined by human development index. Centre eligibility: Any hospital or clinic worldwide performing emergency surgery for traumatic brain injury is eligible to participate. Patient eligibility: All adult and paediatric patients admitted to the participating institution with a traumatic brain injury for which they receive emergency surgery during the selected 30-day inclusion period are eligible for inclusion in the study. Team: Individual hospital teams with up to four people, collecting data for 30 days. Time period: Local study teams may select any 30-day period from the 1st of November 2018 and the 31st of December 2019 to start their study. Patients operated on who meet the inclusion criteria between 00:01 on day 0 and 23:59 on day 30 of the selected study period will be included. Validation: We will employ a method of data validation in every centre that will give us a quantitative estimate of case ascertainment that is feasible even in low-resource centres.
Blood flow through the brain is reduced after brain damage. Secondary brain ischemia caused by hypoxia and hypotension, further increase the susceptibility of the ischemically compromised brain to secondary impairment during this period. In order to determine whether and to what extent blockage of the stellate ganglion (BSG) affects the blood flow to the injured brain, the investigators will measure the variables of brain blood flow before and after BSG using computed tomography angiography (CTA), trans-cranial Doppler ultrasound (TCD), intracranial pressure (ICP) and perfusion computed tomography (PCT) of the brain. At the same time, the investigators would like to evaluate whether and to what extent BSG affects the aseptic inflammatory brain injury response and the biochemical indicators of brain damage in patients with moderate and severe brain injury.
This project will determine the feasibility and validity of measuring elbow muscle flexor stiffness in a population of patients with sub-acute severe acquired brain injury using two measurement methods, the portable spasticity assessment device (PSAD) (Movotec, Charlottenlund, Denmark) and an ultrasound measurement called shear wave sonoelastography (SWE).