View clinical trials related to Brain Injuries, Traumatic.
Filter by:Traumatic brain injury (TBI) is an acquired insult to the brain from an external mechanical force. It is considered a major cause of mortality and of long-term disabilities in young adults, especially considering high-income countries. The TBI can cause a wide range of temporary and/or permanent brain's dysfunctions that can involve physical, cognitive, behavioural and emotional functioning limiting everyday life and social activities and leading to a lowers quality of life. a sequential preparatory approach (SPA), performed in aquatic environment, based on increasing difficulty and following a specific sequence of preparatory exercises (from the simplest to the most complex) could be an effective complementary training during post-acute intensive rehabilitation in patients with severe traumatic brain injury (sTBI).
This study aims to validate an established internet-guided cognitive behavioral therapy for insomnia (CBT-I) as an alternative program to traditional in-person therapy that may increase treatment availability and utilization within the military health system. The version of the internet-guided CBT-I program being studied has been customized specifically for military service members. The study will assess if the customized internet-guided CBT-I program will positively improve clinical measures of insomnia and quality of life outcomes in active or retired service members with primary insomnia and associated mild traumatic brain injury.
This study will establish the capability of a suite of conventional tests and the Neurolign Dx_100 I-PAS goggle system to reliably and objectively detect mTBI in an acute setting when comparing individuals with mTBI to controls with minor injuries in a similarly stressful environment.
Brain Injury can be devastating for both patients and family members and can result in chronic difficulties in vocational, social, financial, as well as physical functioning. The occurrence of emotional and neurobehavioral challenges in individuals with brain injury is also common with research consistently showing links between these challenges and a person's overall rehabilitation outcome. In order to provide patients and caregivers greater support and teach adaptive coping strategies, the authors of this grant designed and studied a coping skills group specifically for brain injury survivors and their caregivers at the Rehabilitation Hospital of Indiana (RHI) called the Brain Injury Coping Skills group (BICS). BICS is a 12 session (one session per week), manualized, cognitive-behavioral treatment group designed to provide support, coping skills, and psychoeducation aimed to improve perceived self-efficacy (PSE) and emotional functioning.
The purpose of this study is to validate the Brain Injury Self-Efficacy Scale as a measure of self-efficacy in brain injury by comparing it with other measures of self-efficacy, the GSE, and PROMIS self-efficacy.
The purpose of the study is to determine the effect of a low vs. high dose of acupuncture treatment in individuals with chronic post-traumatic headache (CPTH). A total of 36 people with mild traumatic brain injury (mTBI) suffering from CPTH will be enrolled in this study to receive acupuncture treatment for 5 weeks. Participants will be randomized into two groups: 1) Low Acupuncture group (5 treatments) and 2) High Acupuncture group (10 treatments). It is hypothesized that both treatment groups will have decreased headaches, but that 10 treatments will greater alleviate headaches when compared to 5 treatments.
Minor traumatic brain injury (mTBI) (Glasgow Coma Scale 13 to 15) represent 70 to 90% of traumatic brain injury. Different disorders may occur after a traumatic minor brain injury (somatic, cognitive or affective) within 2 weeks. For 10 to 20% these symptoms are persistent and are part of post-concussion syndrome. Today a small amount of tools to predict this syndrome are available. Cerebral CT scan, a routine test for mTBI, isn't relevant to predict the post concussion syndrome. In order to improve understanding of the evolution toward this complication, it seems relevant to run a multimodal study. Multiparameter MRI combined to psychological and sociological evaluations cold provide a better global perception.
Traumatic brain injury (TBI) is a major public health issue, and intracranial hypertension in the acute phase remains a critical scientific issue. Many patients with acute closed TBI received conservative, non-surgical treatments at first, while 5%~19% of which develops intractable intracranial hypertension that requires emergent surgery. Therefore, it is of great clinical significance to identify patients who are at high risk of deterioration in the early stage. Previous studies have found that brain compliance is a contributive factor to intracranial pressure, and might serve in the development of intracranial hypertension after TBI. We made assumption that intracranial pressure has a negative relationship with brain compliance providing that the volume of hematoma remains constant. However, few studies have applied magnetic resonance elastography (MRE) in evaluating brain compliance in patients with TBI. Therefore, this study is designed to enroll patients with acute closed traumatic brain injury who are initially treated non-surgically. Magnetic resonance elastography (MRE) sequences are performed to non-invasively assess patients' brain compliances, in the hope of exploring the potential value of MRE biomarkers to predict the short-term outcome in patients with acute closed TBI who are initially receive non-surgical treatments.
Severe and refractory pain after acute injury is a known-risk factor for chronic opioid use disorder. In this study, the investigators will use Virtual Reality (VR) immersion as a non-pharmacological adjunct to treat pain associated with acute traumatic injuries, including traumatic brain injury. The investigators hypothesize that VR therapy will decrease pain and reduce opioid use in patients with acute traumatic injuries, including TBI.
This project will examine if computerized cognitive remediation will improve working memory and attention in 25 adults with a mild, moderate, or severe brain injury and compare their cognitive performance to the control group of 25 adults with a mild, moderate, or severe brain injury. The control group will train on computerized tasks of social awareness. Participants in both groups will be assessed prior to training and immediately post-training and one month-post training.