Development of a Control Strategy in an Isokinetic Device for Physical Rehabilitation

Overview

Journal Sensors (Basel)

Publisher MDPI

Specialty Biotechnology

Date 2023 Jul 14

PMID 37447677

Authors

Jorge Andres Penaloza-Gonzalez

Sergey Gonzalez-Mejia

Jose Isidro Garcia-Melo

Affiliations

Soon will be listed here.

Abstract

Robotic-assisted rehabilitation is currently being applied to improve the effectiveness of human gait rehabilitation and recover the mobility and strength after a stroke or spinal cord injury; a robotic assistant can allow the active participation of the patient and the supervision of the collected data and decrease the labor required from therapists during the patient's training exercises. The goal of gait rehabilitation with robotic-based assistance is to restore motor function by using diverse control strategies, taking account of the physical interaction with the lower limbs of the patient. Over the last few years, researchers have extracted useful information from the patient's biological signals that can effectively reflect movement intention and muscle activation. One way to evaluate progress in rehabilitation is through isokinetic prototype tests that describe the dynamic characteristics of an isokinetic leg extension device for rehabilitation and control action. These tests use an isokinetic system to assess muscle strength and performance in a patient during isometric or isokinetic contraction. An experimental prototype shown in the following work allows the device's performance to be evaluated in a controlled environment before the patient's use. New features provide a control system that can be teleoperated for distributed structures, enabling the remote operation and management of the device. In order to achieve physical recovery from musculoskeletal injuries in the lower limbs and the reintegration of the affected subject into society as an independent and autonomous individual in their daily activities, a control model that introduces a medical isokinetic rehabilitation protocol is presented, in which the element that carries out such protocol consists of a magnetic particle brake whose control action is strongly influenced by the dynamics of the system when in contact with the end user-specifically, the patient's legs in the stretch from the knee to the ankle. The results of these tests are valuable for health professionals seeking to measure their patient's progress during the rehabilitation process and determine when it is safe and appropriate to advance in their treatment.

Citing Articles

Power-free knee rehabilitation robot for home-based isokinetic training.

Feng Y, Wu H, Ren J, Zhang W, Jia X, Liu X Nat Commun. 2025; 16(1):2347.

PMID: 40057479 PMC: 11890594. DOI: 10.1038/s41467-025-57578-z.

A Robot-Assisted Framework for Rehabilitation Practices: Implementation and Experimental Results.

Chiriatti G, Carbonari L, Ceravolo M, Andrenelli E, Millevolte M, Palmieri G Sensors (Basel). 2023; 23(17).

PMID: 37688108 PMC: 10563072. DOI: 10.3390/s23177652.

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