View clinical trials related to Hemiparesis.
Filter by:Noninvasive brain stimulations (NIBS) will be used in chronic stroke patients to improve motor learning. Functional magnetic resonance imaging will be used to evaluate the mechanisms underlying motor learning in healthy volunteers and in chronic stroke patients.
The aim of this study is to confirm the efficacy and safety of the intra-articular injection of BT-A in a multicentric double blind randomised study. For this purpose intra-articular injection of BT-A will be compared with the intra-articular steroid injection that is the current "gold standard" for the treatment of HSP.
The purpose of this study is to examine if practicing joint movements using specially designed devices can help in the recovery of muscle function in the arm/hand after a stroke. Subjects may qualify for participation in this study because they had a stroke and have had difficulty using their affected arm/hand ever since.
The purpose of this protocol is to determine if individuals who had a stroke more than one year before entering the study and whose ankles remain substantially impaired are able to sense and move the affected leg better after 9-13 weeks of treatment with a robotic therapy device (AMES).
The purpose of this study is to determine whether split belt training can be used to treat walking pattern deficits from stroke and to determine whether different schedules and types of long term training on a custom split belt treadmill are likely to change/improve walking symmetry.
The aim of this study was to investigate the effects of gait training on ground level, combining BWS and FES in people following chronic stroke.
The complexity of sensorimotor control required for hand function as well as the wide range of recovery of manipulative abilities makes rehabilitation of the hand most challenging. The investigators past work has shown that training in a virtual environment (VE) using repetitive, adaptive algorithms has the potential to be an effective rehabilitation medium to facilitate motor recovery of hand function. These findings are in accordance with current neuroscience literature in animals and motor control literature in humans. The investigators are now in a position to refine and optimize elements of the training paradigms to enhance neuroplasticity. The investigators first aim tests if and how competition among body parts for neural representations stifles functional gains from different types of training regimens. The second aim tests the functional benefits of unilateral versus bilateral training regimens.The third aim tests whether functional improvements gained from training in a virtual environment transfer to other (untrained) skills in the real world.
Transcranial galvanic stimulation (tDCS), seems to promote motor recovery after stroke by stimulating (anodal) or inhibiting (cathodal) neural circuits in the brain. In the treatment of severe lower limb paresis after stroke, the GangTrainer GT1 (GT) proved to be effective, but nevertheless only a few patients could use their affect lower limb functionally in daily life on deambulation after robot training. Therefore the present study intends to combine both approaches, tDCS + GT, apply at the same time every day for two weeks in order to improve the effectiveness of GangTrainer therapy in the gait rehabilitation.
Ankle dorsiflexor weakness (paresis) is one of the most frequently persisting consequences of stroke. The purpose of this exploratory study is to compare two different treatments -- Contralaterally Controlled Neuromuscular Electrical Stimulation (CCNMES) and Cyclic Neuromuscular Electrical Stimulation (cNMES) -- for improved recovery of ankle movement and better walking after stroke.
This study aims to determine if Aquatic Treadmill Therapy is effective for improving economy of gait, gait speed, balance, and cardiovascular fitness in people with chronic stroke.