https://www.selleckchem.com/products/dyngo-4a.html The error of the robot torque is more than twice the HRC. Therefore, the HRC torque is more accurate than the actual torque. The proposed HRC dynamics effectively achieves more accurate dynamic control of upper limb rehabilitation robots. The proposed HRC dynamics effectively achieves more accurate dynamic control of upper limb rehabilitation robots. Functional recovery of the plegic upper limb in post-stroke patients may be enhanced by sequentially applying a myoelectrically controlled FES (MeCFES), which allows the patient to voluntarily control the muscle contraction during a functional movement and robotic therapy which allows many repetitions of movements. Evaluate the efficacy of MeCFES followed by robotic therapy compared to standard care arm rehabilitation for post-stroke patients. Eighteen stroke subjects (onset ⩾ 3 months, age 60.1 ± 15.5) were recruited and randomized to receive an experimental combination of MeCFES during task-oriented reaching followed by robot therapy (MRG) or same intensity conventional rehabilitation care (CG) aimed at the recovery of the upper limb (20 sessions/45 minutes). Change was evaluated through Fugl-Meyer upperextremity (FMA-UE), Reaching Performance Scale and Box and Block Test. The experimental treatment resulted in higher improvement on the FMA-UE compared with CG (P= 0.04), with a 10 point increase following intervention. Effect sizes were moderate in favor of the MRG group on FMA-UE, FMA-UE proximal and RPS (0.37-0.56). Preliminary findings indicate that a combination of MeCFES and robotic treatment may be more effective than standard care for recovery of the plegic arm in persons > 3 months after stroke. The mix of motor learning techniques may be important for successful rehabilitation of arm function. 3 months after stroke. The mix of motor learning techniques may be important for successful rehabilitation of arm function. Due to its fast service and high utilization