Soft Robotic Bilateral Rehabilitation System for Hand and Wrist Joints

Tanguy Ridremont; Inderjeet Singh; Baptiste Bruzek; Veysel Erel; Alexandra Jamieson; Yixin Gu; Rochdi Merzouki; Muthu B. J. Wijesundara

doi:10.3390/machines12050288

Machines (Apr 2024)

Soft Robotic Bilateral Rehabilitation System for Hand and Wrist Joints

Tanguy Ridremont,
Inderjeet Singh,
Baptiste Bruzek,
Veysel Erel,
Alexandra Jamieson,
Yixin Gu,
Rochdi Merzouki,
Muthu B. J. Wijesundara

Affiliations

Tanguy Ridremont: Polytech Lille, University of Lille, Av. Paul Langevin, 59655 Villeneuve d’Ascq, France
Inderjeet Singh: Biomedical Technologies Division, The University of Texas at Arlington Research Institute, 7300 Jack Newell Blvd S, Fort Worth, TX 76118, USA
Baptiste Bruzek: IMT Mines Alès, 6 Av. de Clavières, 30100 Alès, France
Veysel Erel: Biomedical Technologies Division, The University of Texas at Arlington Research Institute, 7300 Jack Newell Blvd S, Fort Worth, TX 76118, USA
Alexandra Jamieson: Biomedical Technologies Division, The University of Texas at Arlington Research Institute, 7300 Jack Newell Blvd S, Fort Worth, TX 76118, USA
Yixin Gu: Biomedical Technologies Division, The University of Texas at Arlington Research Institute, 7300 Jack Newell Blvd S, Fort Worth, TX 76118, USA
Rochdi Merzouki: Polytech Lille, University of Lille, Av. Paul Langevin, 59655 Villeneuve d’Ascq, France
Muthu B. J. Wijesundara: Biomedical Technologies Division, The University of Texas at Arlington Research Institute, 7300 Jack Newell Blvd S, Fort Worth, TX 76118, USA

DOI: https://doi.org/10.3390/machines12050288
Journal volume & issue: Vol. 12, no. 5
p. 288

Abstract

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Upper limb functionality is essential to perform activities of daily living. It is critical to investigate neurorehabilitation therapies in order to improve upper limb functionality in post-stroke patients. This paper presents a soft-robotic bilateral system to provide rehabilitation therapy for hand and wrist joints. A sensorized glove that tracks finger and wrist joint movements is worn on the healthy limb, which guides the movement of the paretic limb. The input of sensors from the healthy limb is provided to the soft robotic exoskeleton attached to the paretic limb to mimic the motion. A proportional derivative flow-based control algorithm is used to perform bilateral therapy. To test the feasibility of the developed system, two different applications are performed experimentally: (1) Wrist exercise with a dumbbell, and (2) Object pick-and-place task. The initial tests of the developed system verified its capability to perform bilateral therapy.

Published in Machines

ISSN: 2075-1702 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Mechanical engineering and machinery
Website: http://www.mdpi.com/journal/machines

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