Stopped: The study was stopped because inclusion rate was not met. No inclusion in the last 11 months.
Hemiparesis is the most common motor disorder after a stroke. Most patients do not recover functional use of their paretic upper limb. The use of robotic assistance provides intensive motor training through a large number of repetitive movements, usually oriented and interactive tasks (pointing tasks, tracking paths tasks...). These feature have been demonstrated to be critical to stimulate brain plasticity after a brain damage. The InMotion Arm 2.0 manipulator works with an adaptive algorithm that provide patients with real-time Assistance-as-Neededâ„¢ desgned to enhance motor performance. Hypothesis: In the sub-acute phase of stroke, the structured practice of a large number of repeated movements will increase motor function of the upper limb compared to conventional rehabilitation. Secondly, this practice will be more effective in a free active mode (without assistance) than an active assisted mode (Assistance-as-Neededâ„¢). Expected secondary benefits: Subjective impression of improved use of the upper limb in activities of daily living and reduction of spastic cocontractions affecting the agonist and antagonist muscles during movements of the upper limb. Objectives: This randomized controlled trial will evaluate the effects of structured repetition programs of arm movements, on the function of the hemiparetic upper limb and motor control, between 4 and 10 weeks after the stroke, using a robotic device with or without assistance in partial substitution of conventional rehabilitation care, compared to a program with conventional care alone.
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Functional performance score change on Modified Frenchay Scale
Timeframe: Between the pre-rehabilitation state on the day of program start (Day1) and the state at the end of the program (Week6)