Neuroplasticity Induced by Functional Muscle Tendon Vibrations in Patients With Acquired Brain Injury
Sequences of muscle tendon vibrations allow to reproduce the sensory feedback during movement like locomotion and kinaesthesia. It is known that such a treatment promotes motor recovery after stroke assuming that it enhances neuroplasticity. The aim of the research is to study the activity in cerebrospinal circuitry to evaluate the neuroplastic changes during and after instrumented proprioceptive rehabilitation relying on sequences of muscle vibration in subacute stroke stages.
• hemiparesis at least transient in lower limb following an acquired brain injury (stroke or traumatic brain injury)
• French spoken
• Affiliated to a French social insurance
• No previous traumatic, vascular or neurodegenerative injuries
• Having presented during the acute phase or presenting a motor deficit of one of the lower limbs
• Presenting an absence of autonomy of walking at the entrance of the rehabilitation department
• In the sub-acute phase, i.e. from 15 days to 6 months after the accident
• Presenting moderate cognitive disorders allowing them to understand instructions and give their consent