View clinical trials related to Hemiparesis.
Filter by:To assess the impact of a 12-week virtual seated physical intervention on cardiovascular health and wellness in people with chronic neurological impairments (CNI).
A study will be performed where individuals with chronic stroke will be randomly assigned to receive 2 different dosages of robotic hand therapy. One group will receive 12 sessions of robot-assisted repetitive movement practice in the HEXORR robot over a 4-5 week period. A second group will receive 24 sessions of HEXORR therapy over a 8-10 week period.
The current project investigates a method called paired associative stimulation (PAS) which is known to influence nervous system function through a process called neuroplasticity. Here the investigators will target function of the ankle plantarflexor muscles because they are critically important to walking. The investigators will study adults who have walking dysfunction resulting from stroke. The study will test three ways of delivering PAS targeted towards brain-muscle connections serving the ankle plantarflexors. The overall goal is to improve functioning of the plantarflexors. The investigators believe that improving plantarflexor function will increase the likelihood of positive effects from gait retraining programs for people post-stroke. Participants will experience all three PAS methods in separate sessions. The investigators will compare differences in the size of these effects to identify the optimal method for delivery of PAS to the ankle plantarflexors. This study is a preliminary step to help us design a better clinical trial of combined PAS and gait retraining.
This study is designed to further develop and test the hardware and software components of the MyHand device based on user feedback and results from our pilot study. The goal is to refine the device so that is more effective and easier for stroke patients to use to increase their hand function.
Although Balance Evaluation Systems Test(BESTest) is an important balance assessment tool to differentiate balance deficits, it is time consuming and tiring for hemiparetic patients. Using artificial neural networks(ANNs) to estimate balance status can be a practical and useful tool for clinicians. The aim of this study was to compare manual BESTest results and ANNs predictive results and to determine the highest contributions of BESTest sections by using ANNs predictive results of BESTest sections. 66 hemiparetic individuals were included in the study. Balance status was evaluated using the BESTest. 70%(n=46), of the dataset was used for learning, 15%(n=10) for evaluation, and 15%(n=10) for testing purposes in order to model ANNs. Multiple linear regression model(MLR) was used to compare with ANNs.
The Occupational Therapy Department at Boston Children's Hospital is teaming up with MGH Institute of Health Professions to explore the benefits of using robot assisted therapy (Amadeo) and a problem solving approach (Active Learning Program for Stroke) to achieving functional goals for children ages 7-17 years old that have hemiparesis. The hope is to help participants make gains in both hand/arm skills and progress in everyday activities such as self-care, play, school and work. Participation will look like regular therapy with sessions 3 times weekly for 8 weeks. Each visit will include time for games on the Amadeo and time spent problem solving current activity challenges for each child. Families are encouraged to participate.
The main goal of the study is to verify the efficacy of the GRAIL system in respect to the walking pattern improvement in a population of hemiparetic subjects. In particular, the specific goals will be: - increase in walking symmetry and a better distribution among the time of stance and swing. - Kinematics and Kinetics correction, with incentive of more corrected activation timing. - Recruitment of the muscles most involved by the paresis, with the help of visual feedback. - walking speed increase (but with the priority of the walking pattern) - increase in the resistance - Stregthening of the support reaction
The instrumental evaluation of standing postural control by posturographic analysis supplements the clinical evaluation and, as such, is recommended by the French National Authority for Health (HAS 2007). The quantitative data obtained after a standardized postural examination appear relevant for the longitudinal follow-up of neuromuscular patients and hemiparetic patients. Neuro muscular (NM) diseases are progressive, these instrumental evaluations can highlight a deterioration or stabilization of postural control possibly not observable with the scores on clinical scales. The K-Force Plates, recently developed appear to be an interesting alternative to the stabilometry platforms currently used. Static and dynamic conditions in upright position are tested. Moreover, posturologic, kinematics data and clinical scores are correlated to increase understanding of strategies during postural control tasks in patients with stroke and in patients with NM disorders.
Modified constraint-induced movement therapy (mCIMT) has been successfully used with children who have hemiplegia (weakness or paralysis on one side of the body.) mCIMT uses a removable cast during treatment and home exercise programs. It has been found that mCIMT can improve use, strength and coordination of a child's affected hand, and may also help improve speech and language skills. The goal of this project is to investigate whether combining mCIMT with speech therapy will enhance speech outcomes in children with cerebral palsy.
This is a randomized clinical trial aimed at patients with a diagnosis of residual hemiparesis due to ischemic or hemorrhagic stroke. Its objective is to evaluate the effects of the mirror therapy and cognitive therapeutic exercise, both in combination with task-oriented motor learning, to achieve maximum functionality of the affected upper member,