View clinical trials related to Brain Injuries.
Filter by:The central hypotheses are that HIT combined with AIH results in: 1) greater locomotor gains as compared to HIT alone; 2) improvements in gait quality and motor coordination during walking, and 3) changes in measures of community participation and integration.
Cognitive impairment may cause problems in planning and initiating daily activities, as well as remembering to do what is scheduled. This study investigates the effectiveness of an interactive web-based mobile reminder calendar, (RemindMe). The calendar sends text messages to the user's mobile phone as support in everyday life, for persons with cognitive impairment due to neurological injury/diagnoses. The study has a randomized controlled trial design with data collection at baseline and at follow-up sessions after two and four months. Data collection started in October 2016 and continued until February 2018. RemindMe may give the needed support to remind the person and thus increase the ability to perform activities and to become independent in everyday life.
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.
The purpose of this research is to test a service the investigators of the study believe may increase quality of life after brain injury and reduce the level of disability that might be associated with that injury. This intervention is called "Resource Facilitation" and involves working one on one with a brain injury specialist. This specialist is called a "Resource Facilitator" and will work with participants to help set and achieve their own goals along with a team of professionals that specialize in this kind of injury. If randomly assigned to the Resource Facilitation group, participants will receive Resource Facilitation free of charge. If not, they will be assigned to a control group and will not receive the intervention. However, both groups will receive calls every three months. During these calls, a research assistant will collect data about each participant's recovery and progress. If assigned to the Resource Facilitation group, participants may also receive study information in the mail if research assistants are unable to reach participants via telephone.
Rationale Several experimental and clinical studies have shown how brain injury can cause secondary lung injury. Lung injury could be due either to mechanical ventilation- often necessary in brain injured patients- or to inflammatory response that follows primary acute brain injury. The concept of 'Protective lung ventilation' has shown to reduce morbidity and mortality of intensive care unit (ICU) patients with acute respiratory distress syndrome (ARDS) but seems also to have a beneficial effect on patients with healthy lungs and in the perioperative settings. However, these recommendations often come into conflict with the management of patients affected by acute brain injury, in which permissive hypercapnia and increased intrathoracic pressure as consequence of protective ventilation strategies can be dangerous. Study design This is an international multi-center prospective observational study. Study population This study will include all consecutive brain injured patients (traumatic brain injury (TBI) or cerebrovascular) intubated and ventilated in ICU and observed for a 7-day period. Nature and extent of the burden and risks associated with participation, benefit and group relatedness Seen the observational design of the study, there is no patient burden. Collection of data from ICU and hospital charts and/or (electronic) medical records systems is of no risk to patients.
The new Integra CereLink ICP monitor integrate the possibility of recording and displaying continuously the AUC (Pressure Time Dose, PTD) and other ICP derived variables and provide the possibility of evaluating the utility of this information at the bedside. It offers the opportunity to test in a standardized way the clinical value of the PTD computation in this setting. Therefore, this study aims to test clinically if PTD recorded continuously is associated to patients' outcome and to identify a threshold of PTD associated with the transition from good to negative outcomes.
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 study aims to identify factors that predict the medium and long-term outcome of patients with disorders of consciousness (DOC) undergoing early neurological rehabilitation. In this prospective, observational study, 130 DOC patients are going to be included (36 months). At study entry, different routine data, disease severity and functional status are documented for each patient. In addition, MRI, EEG and evoked potentials are measured within the first week. The level of consciousness is recorded with the Coma-Recovery-Scale-Revised and serves as the primary outcome parameter. Complications, comorbidities, functional status and leve of consciousness are assessed weekly. After eight weeks, the measurement of the MRI, the EEG and the evoked potentials are repeated. After 3, 6 and 12 months, the Glasgow Outcome Scale-Revised is used to followed up the current status of the patients.
It is known that even in patients with severe disorders of consciousness (DOC), the perception of known stimuli triggers emotional reactions that can be interpreted as an expression of a residual function of consciousness. Music therapy has a long tradition in neurological rehabilitation. Frequently, active therapies with own music making and singing are implemented in clinical settings. In DOC patients, it is more likely to use passive music listening. However, findings on effectiveness are limited, as only a few studies have systematically investigated the effects of music therapy in this population. Therefore, the investigators want to investigate the effectiveness of passive listening to preferred music on the level of consciousness.