Electromyography Based Orthotic Arm and Finger Rehabilitation System

Electromyography (EMG), a technique used to analyze and record electric current produced by skeletal muscles, has been used to control replacement limbs, and diagnose muscle irregularities. In this work, an EMG based system comprising of an orthotic arm and finger device to aid in muscle rehabilitat...

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Bibliographic Details
Published in2018 IEEE International Conference on Healthcare Informatics (ICHI) pp. 338 - 339
Main Authors Gotuzzo, Jose, Vu, Sonny, Dee, Sharlyn, George, Kiran
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2018
Subjects
dynamometer
Electromyography
flexion
imaginary training
motor imagery
Muscles
Orthotics
Performance evaluation
physical
rehabilitation
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Training
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Summary:Electromyography (EMG), a technique used to analyze and record electric current produced by skeletal muscles, has been used to control replacement limbs, and diagnose muscle irregularities. In this work, an EMG based system comprising of an orthotic arm and finger device to aid in muscle rehabilitation, is presented. As the user attempts to contract their bicep or forearm muscles, the system senses the change in the EMG signals and in turn triggers the motors to assist with flexion and extension of the arm and fingers. As brain is a major factor for muscle growth, mental training using motor imagery was incorporated into the system. Subjects underwent mental training to show the capability of muscle growth. The measured data reveals that the subjects were able to compensate for the loss of muscle growth, due to shorter physical training sessions, with mental training. Subjects were then tested using the orthotic arm and finger rehabilitation device with motor imagery. The findings also showed a positive increase in muscle growth using the rehabilitation system. Based on the experimental results, the EMG rehabilitation system presented in this paper has the potential to increase muscle strength and improve the recovery rate for muscle injuries, partial paralysis, or muscle irregularities.
ISSN:2575-2634
DOI:10.1109/ICHI.2018.00047