View clinical trials related to Proprioceptive Disorders.
Filter by:To compare effects of exteroceptive and proprioceptive sensory stimulation versus sensorimotor therapy on spasticity, motor function and activities of daily living in patients with stroke
Tension-type headache is a headache that starts from the cervical and suboccipital regions, spreads from the back of the head to the parietal, frontal and temporal regions, and is felt in the form of compression, pressure and heaviness. Increased muscle and fascia tone in the cervical and cranial region, together with active trigger points and factors that trigger pain, cause tension-type headache. Head and neck fascia serves as an important proprioceptive structure in our body. Abnormal inputs from mechanoreceptors and structures around the joint cause deterioration in joint position sense. This study was planned to investigate the effects of the new facial distortion model on pain intensity, cervical posture and joint position sense, unlike the manual techniques used in previous studies in tension-type headache.
This research focuses on the effects of rehabilitation on balance, in patients with acquired chronic demyelinating neuropathy. Rehabilitation will be performed with or without vision. It is planned to include 40 subjects consulting for walking instability related to sensitivity disorders. This multicenter study will take place in Paris's area. Each participant will benefit from 20 rehabilitation sessions with a Physical Therapist and 3 assessments. Thanks to randomization, patient will be allocated in one of the 2 following groups: - Control group, Patients will benefit from balance rehabilitation with open eyes. - Experimental group, they will perform the same exercises while keeping their eyes closed or their vision will be obstructed by a mask or disturbed by moving luminous dots projected on the environment in darkness.
Supplementing or augmenting sensory information to those who have lost proprioception after stroke could help improve functional control of the arm. Thirty subjects will be recruited to a single site to evaluate the ability of supplemental kinesthetic feedback (a form of vibrotactile stimulation) to improve motor function. Participants will be tested in performing reaching movements as well as more functional tasks such as simulated drinking from a glass
The investigators propose to explore the hypothesis that vibrotactile channels for indicating spatial orientation can be exploited as a sensory prosthesis. The specific research applications will be used for guiding visual orientation, to provide alternative feedback to vision and vestibular signals for controlling balance, and for directional and lateralisation cueing in patients with neglect syndromes. The programme will study whether vibrotactile feedback improves performance and also if it speeds rehabilitation when used as an adjunct to conventional therapy.