Mechanomyographic and electromyographic responses during submaximal cycle ergometry

Housh, Terry J.; Perry, Sharon R.; Bull, Anthony J.; Johnson, Glen O.; Ebersole, Kyle T.; Housh, Dona J.; deVries, Herbert A.

doi:10.1007/s004210000315

Cited by 65 publications

(67 citation statements)

References 31 publications

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“…6), EMG-RMS and force (indirectly assessed by shear elastic modulus herein) changed in similar ways. In other words, an increase in EMG activity level during a submaximal constant-load fatiguing exercise cannot be interpreted only as a sign of neuromuscular fatigue (20,32), because it can also indicate an increase in muscle force to compensate for fatigue in other muscles, i.e., change in muscle coordination (22). Other studies are necessary to further understand the high interindividual variability reported for change in shear elastic modulus, i.e., variability in muscle coordination during fatigue.…”

Section: Evidence Of Changes In Load Sharing (Experiments Ii)mentioning

confidence: 99%

Shear elastic modulus can be used to estimate an index of individual muscle force during a submaximal isometric fatiguing contraction

Bouillard

Hug

Guével

et al. 2012

Journal of Applied Physiology

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The present study was designed to determine whether fatigue alters the ability to estimate an index of individual muscle force from shear elastic modulus measurements ( experiment I), and to test the ability of this technique to highlight changes in load sharing within a redundant muscle group during an isometric fatiguing task ( experiment II). Twelve subjects participated in experiment I, which consisted of smooth linear torque ramps from 0 to 80% of maximal voluntary contraction (MVC) performed before and after an isometric fatigue protocol, beginning at 40% of MVC and stopped when the force production dropped below 30% of MVC. Although the relationships between modulus and torque were very similar for pre- and postfatigue [root mean square deviation (RMSdeviation) = 3.7 ± 2.6% of MVC], the relationships between electromyography activity level and torque were greatly altered by fatigue (RMSdeviation = 10.3 ± 2.6% of MVC). During the fatiguing contraction, shear elastic modulus provided a significantly lower RMSdeviation between measured torque and estimated torque than electromyography activity level (5.7 ± 0.9 vs. 15.3 ± 3.8% of MVC). Experiment II performed with eight participants consisted of an isometric knee extension at 25% of MVC sustained until exhaustion. Opposite changes in shear elastic modulus were observed between synergists (vastus medialis, vastus lateralis, and rectus femoris) of some participants, reflecting changes in load sharing. In conclusion, despite the fact that we did not directly estimate muscle force (in Newtons), this is the first demonstration of an experimental technique to accurately quantify relative changes in force in an individual human muscle during a fatiguing contraction.

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Section: Evidence Of Changes In Load Sharing (Experiments Ii)mentioning

confidence: 99%

Shear elastic modulus can be used to estimate an index of individual muscle force during a submaximal isometric fatiguing contraction

Bouillard

Hug

Guével

et al. 2012

Journal of Applied Physiology

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“…A number of studies have examined the physiological and perceptual responses during continuous, constant PO cycle ergometry [1,2,4,5] within both moderate and heavy exercise intensity domains. During fatiguing constant PO exercise there are predictable time-dependent patterns of responses for O2, HR, rating of perceived exertion (RPE), breathing frequency ( ), and minute ventilation ( ) that are, in part, dependent upon the exercise intensity associated with the task.…”

Section: Introductionmentioning

confidence: 99%

Physiological Responses Underlying the Perception of Effort during Moderate and Heavy Intensity Cycle Ergometry

Cochrane

Housh

Hill

et al. 2015

Sports

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Abstract:This study examined patterns of responses for physiological and perceptual variables during cycle ergometry at a constant rate of perceived exertion (RPE) within the moderate and heavy exercise intensity domains. Nineteen (mean age 21.3 ± 0.5 years; 43.4 ± 2.0 mL·kg) moderately trained cyclists performed an incremental test to exhaustion and two 60 min constant RPE rides at the RPE corresponding to the gas exchange threshold (RPEGET) and 15% above the GET (RPEGET+15%). Oxygen consumption ( O2), respiratory exchange ratio (RER), heart rate (HR), minute ventilation ( ), breathing frequency ( ), and power output (PO) were monitored throughout the rides. Polynomial regression analyses showed O2, RER, HR, and (correlation = −0.85 to −0.98) tracked the decreases in PO required to maintain a constant RPE. Only tracked RPE during the moderate and heavy intensity rides. Repeated measures ANOVAs indicated that O2 during the 60 min rides at RPEGET was not different (p > 0.05) from O2 at GET from the incremental test to exhaustion. Thus, monitoring intensity using an RPE associated with the GET is sustainable for up to 60 min of cycling exercise and a common mechanism may mediate and the perception of effort during moderate and heavy intensity cycle ergometry.

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“…(PRINGLE e JONES, 2002;HOUSH, et al 2000;PAVLAT et al, 1995, 1993. MORITANI et al, 1993 (EBERSOLE, et al, 2005(EBERSOLE, et al, , 1999KOMI e TESCH, 1979).…”

Section: Considerações Sobre O Delineamento Experimentalunclassified

“…Tomando-se por base a análise conjunta, e preliminar, dos tempos de exaustão em cada teste de fadiga e de seus (WEIR et. al., 2006;DEDERING et al, 2002;BORG, 1990 HOUSH et al, 2000HOUSH et al, , 1995PAVLAT et al, 1995PAVLAT et al, , 1993MORITTANI et al, 1993;deVRIES et al, 1990). …”

Section: O Tempo Total De Exercício Como Indicador Global Do Processounclassified

Avaliação do sinal eletromiográfico como parâmetro para determinação do limiar de fadiga muscular

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Mechanomyographic and electromyographic responses during submaximal cycle ergometry

Cited by 65 publications

References 31 publications

Shear elastic modulus can be used to estimate an index of individual muscle force during a submaximal isometric fatiguing contraction

Shear elastic modulus can be used to estimate an index of individual muscle force during a submaximal isometric fatiguing contraction

Physiological Responses Underlying the Perception of Effort during Moderate and Heavy Intensity Cycle Ergometry

Avaliação do sinal eletromiográfico como parâmetro para determinação do limiar de fadiga muscular

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