View clinical trials related to Brain Injuries.
Filter by:After an acquired brain injury (ABI), children often require extensive physiotherapy (PT) to help them relearn to walk. There is promising evidence in pediatric neuro-motor conditions of the possibility for brain activation pattern changes in response to repetitive, task-oriented functional gait training. Robotic-assisted gait training devices such as the Lokomat (LOK) allow this type of intensive walking retraining. The aim of this study is to assess the safety, feasibility and outcome possibilities linked to a LOK intervention given as 2 of the child's 4 PT weekly sessions over 8-weeks in the early stages of rehabilitation after an ABI.
Tertiary lesions responsible of the neurological decline after severe traumatic brain injury (TBI) are partially due to a persistent neuro-inflammation directly modulated by inflammatory mediators during the acute phase and detectable by using both multimodal MRI imaging and biological biomarkers during the acute phase after traumatic brain injury. The main objective is to identify if the level of IL-1beta in cerebrospinal fluid predict in a reliable and reproducible way, the neuro-radiological evolution evaluated by the comparison of a quantitative MRI performed in post-resuscitation and at one year (quantitative ΔIRM) in traumatic brain injuried patients. The secondary objectives are: - To understand the links between the acute and chronic neuro-inflammatory phase in a population of TBI, - To explore the contribution of the adaptive immune response in the persistent activation of the immune response, - To Examine the links between persistent neuroinflammation, clinical deterioration and neuroimaging, - To establish a correlation between the pathology and the physio-pathology of TBI.
The proposed study tests the feasibility (Phase I) of PATH neurotraining to improve working memory and attention in mTBI patients rapidly and effectively to provide clinical testing of a therapeutic training for the remediation of cognitive disorders caused by a concussion. This study will contribute to the fundamental knowledge of how to remediate concussions from a mTBI to enhance the health, lengthen the life and reduce the disabilities that result from a mTBI.
The study will enable the clinical applicability of the multiple-spectral-sonography for detection of severe brain injury in ICU patients. For this, the ACG diagnostic system (Sonovum AG, Leipzig, Germany) should be used as additional diagnostic tool in prospective single-center study.
The purpose of this research is to investigate the effectiveness of a technique designed to improve divided attention and set-shifting impairments in persons with a traumatic brain injury (TBI). The study is designed to evaluate how well this technique can help people with TBI increase their attention and ability to function better in everyday life.
Two groups of subjects will be constitute: (i) patients with circumscribed brain injury (including stroke, vascular malformations, tumor or circumscribed infectious lesions) or degenerative/developmental disorders and selective cognitive disorders; (ii) healthy control subjects. The objective of this project is to evaluate specific neuropsychological deficits and apply current brain imaging techniques (anatomical, diffusion, functional, magnetic stimulation) to patients suffering from these cognitive deficits due to brain damage, in order to elucidate the brain mechanisms underlying these deficits.
One of the principal complicating factors associated with traumatic brain injury (TBI) is sleep-wake disturbances (e.g., insomnia, excessive daytime sleepiness, and circadian rhythm sleep disorders). Morning bright light therapy (MBLT) has been shown to improve sleep quality in a variety of conditions, but little has been done investigating the utility of MBLT in improving sleep in Veterans with TBI. This proposal aims to determine the effect of MBLT on sleep quality in Veterans with TBI. Veterans with and without TBI will be recruited from the VA Portland Health Care System. Baseline questionnaires and 7 days of actigraphy will be collected prior to engaging in 60 minutes of MBLT daily for 4 weeks, during which actigraphy will also be collected continuously. Post-MBLT questionnaire data will be collected, and follow-up questionnaire data will be collected at 3 months post-MBLT.
Madonna's Rehabilitation Engineering Center of Excellence (REC) is continually developing custom devices for persons with disabilities. These devices are created to improve the independence of individuals living with disabilities at Madonna Rehabilitation Hospitals and in the community. The purpose of this study is to investigate the impact custom assistive and adaptive devices have on patient independence, quality of life, and experience at Madonna Rehabilitation Hospitals.
To evaluate the effects of Mindfulness Based Stress Reduction (MBSR) as an adjunct to usual clinical care for treatment of stress and chronic insomnia for patients with mild to moderate traumatic brain injury (MTBI). MBSR is a standardized protocol of meditation and yoga that has been studied extensively in other populations, however the effects of MBSR have not yet been well studied in the proposed population of service members with a Traumatic Brain Injury (TBI) who are experiencing insomnia.
This is a pilot study, phase III, multi-centre, double blind, randomized controlled trial of patients with traumatic brain injury (TBI).