Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise

Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise

Abstract The combined application of voluntary exercises and neuromuscular electrical stimulation (NMES) has been developed as a new type of exercise that can recruit motor units contributing to both aerobic and anaerobic energy metabolisms. We aimed to investigate the effect of voluntary exercise i...

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Main Authors: Kohei Watanabe, Tatsuya Takada, Shuhei Kawade, Toshio Moritani
Format: Article
Language:English
Published: Wiley 2021-02-01
Series:Physiological Reports
Subjects:
blood lactate concentration
electrical muscle stimulation
electrical myostimulation
energy metabolism
Online Access:https://doi.org/10.14814/phy2.14758
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spelling doaj-4d50765447b8486d96743cb40ed89d172021-02-15T15:52:34ZengWileyPhysiological Reports2051-817X2021-02-0193n/an/a10.14814/phy2.14758Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exerciseKohei Watanabe0Tatsuya Takada1Shuhei Kawade2Toshio Moritani3Laboratory of Neuromuscular Biomechanics Faculty of Liberal Arts and Sciences and School of International Liberal Studies Chukyo University Nagoya JapanMTG Co., Ltd. Nagoya JapanMTG Co., Ltd. Nagoya JapanSchool of Health and Sport Sciences Chukyo University Toyota JapanAbstract The combined application of voluntary exercises and neuromuscular electrical stimulation (NMES) has been developed as a new type of exercise that can recruit motor units contributing to both aerobic and anaerobic energy metabolisms. We aimed to investigate the effect of voluntary exercise intensity on metabolic responses on the combination of voluntary exercise and NMES. In 13 volunteers, oxygen consumption and the blood lactate concentration were measured during (1) voluntary pedaling exercise at four different intensities: 50%, 75%, 100%, and 125% of the ventilatory threshold (VT) (VOL), (2) these voluntary exercises with superimposed NMES applied to the gluteus and thigh muscles (VOL+NMES), and (3) NMES only (NMES). Oxygen consumption and the blood lactate concentration in VOL+NMES were significantly greater than VOL at each exercise intensity (p < 0.05). Differences in oxygen consumption between VOL+NMES and VOL decreased with exercise intensity, and that at 125% VT was significantly lower than the net gain in oxygen consumption following NMES (p < 0.05). Differences in the blood lactate concentration between VOL+NMES and VOL increased with exercise intensity, and that at 50% VT was significantly lower than the net gain in the blood lactate concentration following NMES (p < 0.05). Our results suggest that voluntary exercise intensity has a critical impact on metabolic responses during the combined application of voluntary exercises and NMES. Superimposing NMES onto voluntary exercises at high exercise intensities may induce overlapping recruitment of motor units, leading to a markedly reduced benefit of additional metabolic responses on its superimposition.https://doi.org/10.14814/phy2.14758blood lactate concentrationelectrical muscle stimulationelectrical myostimulationenergy metabolism
collection DOAJ
language English
format Article
sources DOAJ
author Kohei Watanabe
Tatsuya Takada
Shuhei Kawade
Toshio Moritani
spellingShingle Kohei Watanabe
Tatsuya Takada
Shuhei Kawade
Toshio Moritani
Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
Physiological Reports
blood lactate concentration
electrical muscle stimulation
electrical myostimulation
energy metabolism
author_facet Kohei Watanabe
Tatsuya Takada
Shuhei Kawade
Toshio Moritani
author_sort Kohei Watanabe
title Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
title_short Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
title_full Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
title_fullStr Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
title_full_unstemmed Effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
title_sort effect of exercise intensity on metabolic responses on combined application of electrical stimulation and voluntary exercise
publisher Wiley
series Physiological Reports
issn 2051-817X
publishDate 2021-02-01
description Abstract The combined application of voluntary exercises and neuromuscular electrical stimulation (NMES) has been developed as a new type of exercise that can recruit motor units contributing to both aerobic and anaerobic energy metabolisms. We aimed to investigate the effect of voluntary exercise intensity on metabolic responses on the combination of voluntary exercise and NMES. In 13 volunteers, oxygen consumption and the blood lactate concentration were measured during (1) voluntary pedaling exercise at four different intensities: 50%, 75%, 100%, and 125% of the ventilatory threshold (VT) (VOL), (2) these voluntary exercises with superimposed NMES applied to the gluteus and thigh muscles (VOL+NMES), and (3) NMES only (NMES). Oxygen consumption and the blood lactate concentration in VOL+NMES were significantly greater than VOL at each exercise intensity (p < 0.05). Differences in oxygen consumption between VOL+NMES and VOL decreased with exercise intensity, and that at 125% VT was significantly lower than the net gain in oxygen consumption following NMES (p < 0.05). Differences in the blood lactate concentration between VOL+NMES and VOL increased with exercise intensity, and that at 50% VT was significantly lower than the net gain in the blood lactate concentration following NMES (p < 0.05). Our results suggest that voluntary exercise intensity has a critical impact on metabolic responses during the combined application of voluntary exercises and NMES. Superimposing NMES onto voluntary exercises at high exercise intensities may induce overlapping recruitment of motor units, leading to a markedly reduced benefit of additional metabolic responses on its superimposition.
topic blood lactate concentration
electrical muscle stimulation
electrical myostimulation
energy metabolism
url https://doi.org/10.14814/phy2.14758
work_keys_str_mv AT koheiwatanabe effectofexerciseintensityonmetabolicresponsesoncombinedapplicationofelectricalstimulationandvoluntaryexercise
AT tatsuyatakada effectofexerciseintensityonmetabolicresponsesoncombinedapplicationofelectricalstimulationandvoluntaryexercise
AT shuheikawade effectofexerciseintensityonmetabolicresponsesoncombinedapplicationofelectricalstimulationandvoluntaryexercise
AT toshiomoritani effectofexerciseintensityonmetabolicresponsesoncombinedapplicationofelectricalstimulationandvoluntaryexercise
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