View clinical trials related to Motor Deficit.
Filter by:This study evaluated the effects of an integrated program of touch-observation and task-based mirror therapy on sensorimotor function in nerve injury patients. Before the return of protective sense (Value of Semmes-Weinstein monofilament test > 4.31), half of the participants received 15 minutes of mirror therapy program, followed by 20 minutes of regular hand therapy and 20 minutes of physiotherapy.While the other half received 15 minutes protective sensory reeducation programs, 20 minutes of regular hand therapy and 20 minutes of physiotherapy in each treatment session. Once the patients had regained the protective sense (Value of Semmes-Weinstein monofilament test < 4.31), the discriminative sensory reeducation program was started for the participants in both groups. The hypothesis was that using the mirror therapy for sensorimotor reeducation in the early phase after nerve repair would yield better results with regard to the returning of sensation, sensorimotor control ability and hand function than using a classical reeducation program alone.
The aim of the present study is to evaluate an innovative virtual reality-based balance training intervention for improving clinically relevant motor performances (balance and gait) in people with mild cognitive impairment. The investigators hypothesize that the virtual reality-based balance training intervention will improve balance and gait performances in people with mild cognitive impairment compared to a control group receiving usual care only.
The aim of the present study is to evaluate an innovative virtual reality-based balance training intervention for improving clinically relevant motor performances (balance and gait) in cancer patients. The investigators hypothesize that the virtual reality-based balance training intervention will improve balance and gait performances in cancer patients compared to a control group receiving usual care only.
The aim of the present study is to evaluate an innovative virtual reality-based balance training intervention for improving clinically relevant motor performances (balance and gait) in older adults. We hypothesize that the virtual reality-based balance training intervention will improve balance and gait performances in older adults compared to a control group receiving usual care only.
Force generation and force level control are important neuromuscular control mechanism for successful execution of movement for our daily activities. Impaired force level control is a major deficit of motor control in people with stroke. Electromyographic biofeedback (EMG biofeedback) has been suggested by researchers and clinicians to be a useful and effective tool for enhancing control of force level during motor skill learning for people with stroke. Based on the concept of motor-skill learning, practice with variable force levels may be more effective than practice with a constant force level to enhance movement performance. The EMG biofeedback provides a suitable tool for such practice of force level control and hence for motor skill learning. However, research literatures thus far have yet to provide convincing evidences to support this claim. Neural imaging studies have shown corresponding brain reorganization and neural plasticity following physical practice of movement skills in people with stroke. It is curious whether EMG biofeedback augmented physical practice of motor skills enhances brain reorganization. Using brain mapping techniques, in particular, the transcranial magnetic stimulation (TMS), we could investigate neural plasticity accompanying motor function changes induced by physical training, and hence may help to develop safer and more effective training parameters. The purpose of this study is to examine the effects of variable practiced EMG biofeedback training emphasized on force level control of the ankle muscle on balance and gait performance and the corresponding changes of corticospinal excitability using TMS in people with chronic stroke.
The aim of this study is to assess the effect of the drug rotigotine on the syndrome of hemispatial neglect and motor deficits following strokes affecting the right hemisphere of the brain.