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Article type: Research Article
Authors: Kwon, Yong Unga; b
Affiliations: [a] School of Health and Human Performance, Athletic Training Program, Kean University, Union, NJ, USA | [b] School of Management Engineering and School of Business Administration, Ulsan National Institute of Science and Technology, Ulsan, Korea | Tel.: +1 335 558 1336; E-mail: mugika2@gmail.com
Correspondence: [*] Corresponding author: School of Health and Human Performance, Athletic Training Program, Kean University, Union, NJ, USA.
Abstract: BACKGROUND: There have been multiple studies focusing on the relationship between ankle muscle torque and fatigue with different body positions but have found conflicting results. OBJECTIVE: We investigated the effect of body position on maximum voluntary isometric contractions (MVIC) of ankle plantarflexors (PF) and dorsiflexors (DF) in the pre and post-fatigued conditions in healthy adults. METHODS: Twenty-five participants ran on a treadmill until volitional exhaustion by performing the Bruce protocol. The participants then performed three MVICs for both PF and DF before and after volitional exhaustion. RESULTS: Peak torques of PF (p< 0.01) and DF (p< 0.01) in the pre-fatigue condition were greater than in the post-fatigue condition regardless of the body position. Peak torques of PF (p< 0.01) and DF (p= 0.03) in the seated position were greater than in the supine position regardless of time. Variances of peak torque differences were not significantly different between the pre and post-fatigue conditions for the seated and supine positions (p= 0.09). CONCLUSIONS: The results of this study suggest that the body position affects ankle PF and DF torques but does not influence the magnitude of PF and DF strength declines elicited by a fatiguing protocol. Therefore, to obtain the most reliable MVIC measurements, the body position during MVICs should be consistent.
Keywords: Running, Bruce protocol, fatigue, maximum voluntary isometric contraction (MVIC), isokinetic dynamometer
DOI: 10.3233/IES-183198
Journal: Isokinetics and Exercise Science, vol. 28, no. 2, pp. 153-159, 2020
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