View clinical trials related to Brain Injuries.
Filter by:Neurocognitive impairment is frequently observed in pediatric patients with meningoencephalitis (ME) and sepsis-associated encephalopathy (SAE) which represent two relevant central nervous system (CNS) diseases in pediatric patients. It is uncertain, if the the origin of the disease, located primarily in the CNS of patients with ME or secondarily in patients with SAE in the course of sepsis, is of importance for the severity of injury to the brain. Prospective clinical studies combining clinical and laboratory examinations including specific biomarkers of neuroaxonal injury were not performed in a comparative study. Biomarkers of neuroaxonal injury are therefore not only of great interest to detect and monitor neurocognitive impairment but also to quantify the severity of brain injury in patients with ME and SAE.
Background: Traumatic brain injury (TBI) is one of the leading causes of disability in the United States. The EKSO GT Bionics® (EKSO®) is a robotic exoskeleton approved by the Federal Drug Administration (FDA) for rehabilitation following a cerebrovascular accident (CVA or stroke) and recently received approval for use in patients with TBI. The aim of the study was to examine if the use of exoskeleton rehabilitation in patients with TBI will produce beneficial outcomes. Methods: This retrospective chart-review reports the use of the (EKSO®) robotic device in the rehabilitation of patients with TBI compared to patients with CVA. The investigators utilized data from a single, private rehabilitation hospital for patients that received post-CVA or post-TBI robotic exoskeleton intervention. All patients that used the exoskeleton were discharged from the hospital between 01/01/2017 to 04/30/2020. Ninety-four percent (94%) of patients in the CVA groups and 100% of patients in the TBI group were of Hispanic or Latino ethnicity. Gains in total Functional Independence Measure (FIM), walking and cognition, and length of stay in the rehabilitation facility were measured. Results: Patients in the TBI group (n=11) were significantly younger than the patients in the CVA group (n=66; p< 0.05). Both groups spent a similar amount of time active, number of steps taken, and the number of sessions in the exoskeleton. Both groups also started with similar admission FIM scores. The FIM gain in the TBI group was similar to that of the CVA group (37.5 and 32.0 respectively). The length of stay between groups was not different either. Conclusions: The use of exoskeleton rehabilitation in patients with TBI appear to produce similar outcomes as for patients with CVA, prompting further attention of this intervention for this type of injury.
This study will explore physical and physiological responses to mobilization of patients with acquired brain injuries in subacute phase using a classic standing frame and a standing device with simultaneous passive movement of legs, "Innowalk Pro".
The purpose of this randomized controlled trial was designed to study the efficacy of dynamic hand splinting on spastic hemiparetic patients due to stroke or traumatic brain injury.
Children and young people with movement difficulties such as Cerebral Palsy (CP) and Acquired Brain Injury (ABI) report that traditional therapies are highly repetitive and labourious. This influences enjoyment and participation in regular therapy programmes and may result in reduced adherence to therapy or exercise regimes, limiting effectiveness. This study will build on the team's previous work to explore the potential use of Virtual-Reality (VR) technologies in rehabilitationÍž particularly systems that can be used at home to increase accessibility and reduce need to attend clinics for therapy. During the co-production events of the VR4REHAB Inter Regional North West Europe (NWE) funded programme in 2018, young people desired the use of commercial games for therapeutic purposes. This work has enabled connections between affordable computer technologies: the Raspberry Pi, VR headsets and freely available commercial games. This 2-Phased project is therefore exploring the potential of commercially available virtual reality (VR) systems consoles and games for use in rehabilitation programmes. The Investigators hope to gain information on: 1. Whether commercially produced VR games can provide a motivating environment to support adherence to therapy 2. Whether it is possible to improve reaching and grasp-release hand movements through this method 3. Gain an understanding of the ages of children and young people most likely to benefit from home-based VR therapy User evaluation and performance data and therapist evaluations will be collected and compared to baseline data to provide information on usability, accessibility, acceptability and adaptability.
The aim of this retrospective cohort study is to evaluate complications rates, indications, and the utility of follow-up imaging studies of ICP measurement in severe TBI patients.
Soccer, the most popular sport in the world, exposes players to repeated head impacts and concussions, due to contact with another player or with the ground. Moreover, routine game-play in soccer involves intentional and repeated head impacts through ball "heading", with frequent high velocities, which might cause a transient brain dysfunction. In this pre-post prospective interventional study, 22 soccer players will perform 10 headers from machine-projected soccer balls at standardized speeds, modelling routine soccer practice. They will perform heading series in 2 different oral conditions, on different days at least 1 week apart: 1) Without mouthguard and tight jaws ; 2) With mouthguard and tight jaws. The strength of the neck muscles will be measured before the heading series. The kinematic of the movement will be recorded during each impact during the 2 heading series, as well as the activity of the jaw muscles which will be recorded by electromyogram. Before and after each heading series, electrophysiological data, multimodal magnetic resonance imaging (MRI), and cognitive computerized assessment will be acquired
Document and evaluate the impact of societal restrictions due to the pandemic on SCI- and ABI-related disability and functional impairments, and the resultant effects on psychological wellbeing, physical wellbeing and quality of life for those with SCI/ABI.
Time processing involves different abilities - i.e. estimating the duration of an event and moving in past and future time - and it is a fundamental ability in everyday life. For these reasons the assessment and the rehabilitation of time deficits in brain damaged patients is extremely important. The ability to estimate and reproduce time processing is usually evaluated using computerized tasks and it is influenced by aging: young participants overestimate and elderly participants underestimate time durations. Virtual Reality is an ecological approach that has recently been used for the assessment of cognitive deficits. Here we use Virtual Reality to study the ability to estimate time duration of an action execution and perception in a simulated everyday activity.
Severe brain injury (sTBI) is one of the most common causes of long-term disability and is considered the most frequent cause of mortality and serious disability in young adults in industrialized countries. It is defined as an alteration of brain function with loss of consciousness in the acute phase for at least 24 hours (Glasgow Coma Scale (GCS) <8) and it can induce a wide range of deficit, including cognitive-behavioural, motors, psychics, language, vision, coordination and balance impairments. Chronic vestibular symptoms such as dizziness and balance deficits (both static and dynamic postural instability) are present in patients with brain injury. These aspects can cause functions limitation and psychological distress, negatively impacting negatively on subjects' quality of life and social reintegration and are considered unfavourable prognostic factors of the recovery process. The literature supports the use of vestibular rehabilitation techniques in patients with mild and moderate brain injury, however, to date, no studies investigated the effect of vestibular rehabilitation in sTBI patients. The main aim of this randomized controlled trail is to verify the effect of a personalized vestibular training on balance and gait disorders in sTBI patients.