The effect of back muscle fatigue on EMG and kinematics based estimation of low-back loads and active moments during manual lifting tasks

The effect of back muscle fatigue on EMG and kinematics based estimation of low-back loads and active moments during manual lifting tasks

This study investigated the effects of back muscle fatigue on the estimation of low-back loads and active low-back moments during lifting, using an EMG and kinematics based model calibrated with data from an unfatigued state. Fourteen participants performed lifting tasks in unfatigued and fatigued s...

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Veröffentlicht in:Journal of electromyography and kinesiology 2023-12, Vol.73, p.102815-102815, Article 102815
Hauptverfasser: Tabasi, A., Brouwer, N.P., Kingma, I., van Dijk, W., de Looze, M.P., Moya-Esteban, A., Kooij, H. v. d., van Dieën, J.H.
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Sprache:eng
Schlagworte:
Back muscle fatigue
Back Muscles
Biomechanical Phenomena
Electromyography
Exoskeleton control
Humans
Lifting
Low-back load estimation
Muscle Fatigue - physiology
Muscle, Skeletal - physiology
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container_end_page 102815
container_issue
container_start_page 102815
container_title Journal of electromyography and kinesiology
container_volume 73
creator Tabasi, A.
Brouwer, N.P.
Kingma, I.
van Dijk, W.
de Looze, M.P.
Moya-Esteban, A.
Kooij, H. v. d.
van Dieën, J.H.
description This study investigated the effects of back muscle fatigue on the estimation of low-back loads and active low-back moments during lifting, using an EMG and kinematics based model calibrated with data from an unfatigued state. Fourteen participants performed lifting tasks in unfatigued and fatigued states. Fatigue was induced through semi-static forward bending. EMG, kinematics, and ground reaction forces were measured, and low-back loads were estimated using inverse dynamics and EMG-driven muscle model. A regression model was developed using data from a set of calibration lifts, and its accuracy was evaluated for unfatigued and fatigued lifts. During the fatigue-inducing task, the EMG amplitude increased by 2.8 %MVC, representing a 38% increase relative to the initial value. However, during the fatigued lifts, the peak EMG amplitude was found to be 1.6 %MVC higher than that observed during the unfatigued lifts, representing a mere 4% increase relative to the baseline unfatigued peak EMG amplitude. Kinematics and low-back load estimates remained unaffected. Regression model estimation errors remained unaffected for 5 kg lifts, but increased by no more than 5% of the peak active low-back moment for 15 kg lifts. We conclude that the regression-based estimation quality of active low-back moments can be maintained during periods of muscle fatigue, although errors may slightly increase for heavier loads.
doi_str_mv 10.1016/j.jelekin.2023.102815
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Regression model estimation errors remained unaffected for 5 kg lifts, but increased by no more than 5% of the peak active low-back moment for 15 kg lifts. 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Regression model estimation errors remained unaffected for 5 kg lifts, but increased by no more than 5% of the peak active low-back moment for 15 kg lifts. 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Fourteen participants performed lifting tasks in unfatigued and fatigued states. Fatigue was induced through semi-static forward bending. EMG, kinematics, and ground reaction forces were measured, and low-back loads were estimated using inverse dynamics and EMG-driven muscle model. A regression model was developed using data from a set of calibration lifts, and its accuracy was evaluated for unfatigued and fatigued lifts. During the fatigue-inducing task, the EMG amplitude increased by 2.8 %MVC, representing a 38% increase relative to the initial value. However, during the fatigued lifts, the peak EMG amplitude was found to be 1.6 %MVC higher than that observed during the unfatigued lifts, representing a mere 4% increase relative to the baseline unfatigued peak EMG amplitude. Kinematics and low-back load estimates remained unaffected. Regression model estimation errors remained unaffected for 5 kg lifts, but increased by no more than 5% of the peak active low-back moment for 15 kg lifts. We conclude that the regression-based estimation quality of active low-back moments can be maintained during periods of muscle fatigue, although errors may slightly increase for heavier loads.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>37688848</pmid><doi>10.1016/j.jelekin.2023.102815</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-1680-9010</orcidid><oa>free_for_read</oa></addata></record>
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source MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects Back muscle fatigue
Back Muscles
Biomechanical Phenomena
Electromyography
Exoskeleton control
Humans
Lifting
Low-back load estimation
Muscle Fatigue - physiology
Muscle, Skeletal - physiology
title The effect of back muscle fatigue on EMG and kinematics based estimation of low-back loads and active moments during manual lifting tasks
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