A novel robot device in rehabilitation of post-stroke hemiplegic upper limbs.

BACKGROUND AND AIMS

In this pilot study, we introduce the "NeReBot", a novel robotic device designed and programmed for clinical neurological applications. The aim of the study was to test whether additional sensorimotor training of paralyzed or paretic upper limbs, delivered by NeReBot, enhanced motor and functional outcome in stroke patients.

METHODS

Twenty patients with post-stroke hemiparesis or hemiplegia received standard poststroke multidisciplinary rehabilitation, and were randomly assigned either to exposure to the robotic device without training or to additional sensorimotor robotic training (about 4 h/week) for 4 weeks. Robot training consisted of peripheral manipulation of the shoulder and elbow of the impaired limb, correlated with visual stimuli.

RESULTS

At hospital discharge, impairment and disability had declined in all patients, but the group with robot training showed higher gains on motor impairment and functional recovery, which were maintained at the 3-month follow-up. No adverse events resulted from robot-assisted therapy.

CONCLUSIONS

According to our results, NeReBot therapy may efficaciously complement standard post-stroke multidisciplinary rehabilitation and offer novel therapeutic strategies for neurological rehabilitation.