View clinical trials related to Hemiplegia.
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).
This is a study to evaluate the efficacy of upper extremity rehabilitation using Brain-Machine Interface (BMI) on individuals with hemiplegia due to stroke. BMI is a device that can record and analyze human brain signals (in this study Functional near-infrared spectroscopy was used) and also provide live feedback (by pneumatic glove movement) to the individual wearing it. This device hypothetically enables more accurate training by reinforcing the correctly activated brain signal repeatedly then conventional therapy. In phase 1 study investigators will evaluate the feasibility of BMI on chronic stroke participants. 5 sessions of BMI-assisted occupational therapy (OT) will be performed and the Fugl Meyer Assessment-Upper Limb (FMA-UL) score change between the pre-treatment and post-treatment will be analyzed by paired t-test. In phase 2 study, a randomized controlled study will be performed by randomly allocating participants to either control (OT plus OT) or experimental group (BMI-assisted OT plus OT) and the difference of FMA-UL score change between the two groups will be analyzed by Student's t-test.
After a stroke, it is very common to lose the ability to open the affected hand. The purpose of this study is to compare the effects of three different therapies on recovery of hand function after stroke and determine if any one is better than the other.
A multi-site, interventional, non-comparative, single-arm trial to evaluate the safety of the ReWalk ReStore device in subjects with hemiplegia/hemiparesis due to ischemic or hemorrhagic stroke.
The goal of this research is to provide limb training in children with hemiplegia using a bimanual-to-unimanual training approach. Twenty pediatric patients aged 5-17 years with acquired brain injury will receive training on the bimanual-to-unimanual device for a period of 9 weeks. During the training, children use both arms to operate robotic arms to play a video game. We will assess changes in hand impairment after the training.
Hemiplegia occurs when the function of motor areas in the brain become impaired, predominantly unilaterally, during perinatal development. Children with hemiplegia show impairments in motor control of the affected side of the body. Impairments in use of the upper extremity are common, and lead to functional disability throughout the lifespan of a person with hemiplegia. Upper extremity impairments can severely affect a person's ability to carry out activities of daily living. The goal of this study at Blythedale Children's Hospital is to test the efficacy of transcranial direct current stimulation (tDCS) and robotic upper extremity therapy in improving upper extremity function in children with unilateral cerebral palsy. This study will test the hypothesis that physical rehabilitation, provided by repetitive arm movements guided by a robot, will improve upper extremity function in children with hemiplegia, and that this improvement can be enhanced by transcranial direct current stimulation of motor cortex immediately before robotic training.
The purpose of this study is to improve arm function in adults with hemiplegic cerebral palsy. Participants will receive transcranial direct current stimulation (or sham) in combination with upper extremity robotic therapy.