A System for Neuromotor Based Rehabilitation on a Passive Robotic Aid

Righi M., Magrini M., Dolciotti C., Moroni D.

rehabilitation robotics  Article  robotics  and Optics  Biochemistry  Robotics  motion analysis  Chemical technology  Atomic and Molecular Physics  computer graphics  Electrical and Electronic Engineering  Analytical Chemistry  Prognostics and health  TP1-1185  Computer graphics  Rehabilitation robotics  Motion analysis  prognostics and health 

In the aging world population, the occurrence of neuromotor deficits arising from stroke and other medical conditions is expected to grow, demanding the design of new and more effective approaches to rehabilitation. In this paper, we show how the combination of robotic technologies with progress in exergaming methodologies may lead to the creation of new rehabilitation protocols favoring motor re-learning. To this end, we introduce the Track-Hold system for neuromotor rehabilitation based on a passive robotic arm and integrated software. A special configuration of weights on the robotic arm fully balances the weight of the patients' arm, allowing them to perform a purely neurological task, overcoming the muscular effort of similar free-hand exercises. A set of adaptive and configurable exercises are proposed to patients through a large display and a graphical user interface. Common everyday tasks are also proposed for patients to learn again the associated actions in a persistent way, thus improving life independence. A data analysis module was also designed to monitor progress and compute indices of post-stroke neurological damage and Parkinsonian-type disorders. The system was tested in the lab and in a pilot project involving five patients in the post-stroke chronic stage with partial paralysis of the right upper limb, showing encouraging preliminary results.

Source: Sensors (Basel) 21 (2021). doi:10.3390/s21093130

Publisher: Molecular Diversity Preservation International (MDPI),, Basel

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