View clinical trials related to TBI.
Filter by:The goal of this study is to test the effect of a planning, reminders, and micro-incentives intervention verses regular health education facts on physical activity participation over 12-weeks, in older adults who have previously suffered a non-penetrating mild or moderate TBI. Participants will provide information and be screened for eligibility via phone screening call (verification of age, confirmation that the participant is not currently on any medication that affects the central nervous system, and verification that the subject can participate in exercise, brief TBI history). Baseline testing will take place at the Center for Cognitive and Brain Health and Northeastern University Biomedical Imaging Center, for the baseline magnetic resonance imaging, in the interdisciplinary science and engineering complex on Northeastern University's campus. In person testing will take place over one session. The study period lasts 12 weeks, during which all participants will 1. Receive a weekly phone call with study staff, 2. Wear a wrist-worn Fit Bit tracker and 3. Record their weekly walking activities.
This is an observational study in patients who require clinical anesthesia. The main purpose of this study is to understand whether there are differences in the cerebral blood flow, and oxygen metabolism affected by different types of anesthesia. Subjects who require clinical anesthesia for a clinical MRI and for whom the use of anesthetics for the exam are in clinical equipoise are asked to join the study. All eligible subjects will be asked to provide informed consent before participating in the study.
Risk of Veteran suicide is elevated during the first year of transition from military service to civilian life. Most Veteran suicides occur among Veterans who are not connected to VA healthcare. Suicide prevention and connection to care are therefore critical for recently transitioning Veterans. Transitioning Veterans require services to provide them with suicide prevention education, skills to manage their transition effectively, and support in their access to VA healthcare. Convenient, accessible, palatable, patient-centered care options that are cost-effective, easy to implement nationwide, and target domains known to mitigate suicide risk are needed during this critical transition period. This proposal would bridge this important healthcare gap using STEP-Home-SP, a transdiagnostic, non-stigmatizing, skills-based workshop. STEP-Home-SP will provide Veterans with suicide prevention education, skills to improve transition, support to access VA care, and a platform to decrease social isolation early in their military to civilian transition, thereby reducing suicide risk downstream.
The study aim is to improve assessment and understanding of social cognitive impairment after acquired brain injury by developing and validating a virtual reality version of The Awareness of Social Inference Test (TASIT). It is expected that the VR version of the test has comparable or better psychometric properties than the video version, and that it has improved relevance to everyday social skills. It is also expected that the VR version taxes cognitive functions more than a desktop version with identical content as the VR version.
The Boston Cognitive Assessment (BoCA) is a self-administered online test intended for longitudinal cognitive monitoring. BoCA uses random not-repeating tasks to minimize learning effects. BoCA was developed to evaluate the effects of treatment in longitudinal clinical trials and available gratis to individuals and professionals.
This study evaluates the effect of a physical exercise + caregiver skills training on feelings of burden, mood, and biological markers of inflammation in persons who provide care for Veterans with a TBI or dementia. Half of the caregivers will participate in a balance and flexibility + caregiver skills training program, while the other half will participate in a moderate/high intensity aerobic and resistance + caregiver skills training program.
Objectives: Mild traumatic brain injury (mild TBI) occurs frequently in combat personnel and has been linked to complaints of emotional symptoms in up to 85% of those injured, with high rates of PTSD symptoms, anxiety, depression, and mood swings. TBI may cause cerebral white matter injury and changes in white matter integrity have been correlated with behavioral changes even with very mild TBI. Patients with mild TBI also have higher rates of dishonorable discharge from the military, as well as substance abuse. Many of these behavioral changes are associated with alterations in frontal-subcortical networks, which are heavily dependent on white matter connectivity. Our primary goal in this investigation is to begin to understand the specific neurological mechanisms that may underlie emotional dysfunction following mild TBI. Research Plan: We will compare patients with PTSD but no TBI to patients with TBI with and without emotional symptoms. It may be that the basic emotional responses of these populations are different and that these differences may help elucidate the mechanism accounting for these changes in mood and emotional behaviors. Finding a neurological and injury-specific basis for the constellation of chronic emotional symptoms observed in this population could have treatment implications such that the treatment of patients with versus those without injury induced PTSD may have different efficacies (e.g., exposure therapy may work best for the patients with non-injury related PTSD). Methods: We will recruit 60 subjects with mild TBI from our OEF/OIF poly-traumatic and 60 controls (30 with PTSD but no TBI). We will test emotional behaviors using an affective neuroscience methodology with indicators chosen based on the reported symptoms profiles in this population. Specifically, we will assess the relationship between white matter injury in the uncinate fasciculus and anterior limb of the internal capsule and alteration of affective response physiology (e.g., startle response while viewing high intensity positively and negatively valecned visual scenes) and cognitively (identification of the 6 primary emotions including ratings of intensity and arousal). To determine the integrity of white matter pathways, we will use high-resolution diffusion weighted imaging (DWI) with diffusion tensor imaging (DTI) and related analysis techniques.
Despite the body's natural healing during the first year after a head injury, many veterans who have suffered even mild brain injuries find themselves easily upset or fearful as they go about their daily lives. While these reactions to the world around them were easily managed before the head injury, they now occur with little or no interruption and are exceedingly difficult to manage. Such reactions include a sense of always being upset or fearful that often makes it difficult to get along with family members, friends, coworkers, and employers. This may lead to broken marriages, unemployment, and even homelessness. Some people with head injuries try to manage their unmanageable moods by drinking alcohol because it can create a sense of calm. However, alcohol's actions are short in duration. Most find that they have to drink more and more for a similar calming effect, and they soon become dependent on alcohol. This makes working and being part of their families even more difficult. To treat the unmanageable mood, we tried a medicine called valproate, one that eases mood problems in people without head injury. We gave valproate to head injured persons with mood problems in a "non-blinded" study where both the doctor and the patient knew that the medicine was valproate and both were optimistic that it would work. In a small sample of eighteen people, 85% found mood relief and most of those either stopped drinking alcohol or drank much less than before. However, this might have been because both the doctor and patient were hopeful that the medication would make the patient feel better or because the medicine actually worked. The only way to know for sure if the medicine works is to perform a study in which people receive either valproate or a sugar pill while neither they nor their doctor know which one they are taking. This is called a double blind study, as proposed here, and will involve nearly three times as many head injured persons as the first study. If it is successful, this study will show that valproate treatment helps head injured people manage their moods and allows them to return to families, friends, and work. It will also show that they drink alcohol less or not at all, improving their health even further. Then doctors will know that they can use this medicine for large numbers of people who suffer from head injury and help them to lead normal lives. If the outcome of the study shows that the medicine works well, doctors can then use this medicine to treat people with head injury immediately after the study results are published.