Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties
PURPOSE Grip strength has been well documented to represent whole body strength. This study was performed to investigate whether absolute and relative grip strength is associated with thigh strength, and thigh-derived single muscle fiber contractile properties. METHODS Twelve healthy young adults (m...
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The Korean Society of Exercise Physiology
2018-11-01
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doaj-93ccdb930bfc470abd27e5819c8799d02020-11-25T01:23:57ZkorThe Korean Society of Exercise Physiology운동과학1226-17262384-05442018-11-0127428028810.15857/ksep.2018.27.4.280766Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile PropertiesYunah Jeon0Hojun Lee1Dae-Young Kim2Jae-Young Lim3Seung-Jun Choi4School of Sports & Health Science, Kyungsung University, Busan, KoreaSchool of Sports & Health Science, Kyungsung University, Busan, KoreaDepartment of Rehabilitation Medicine, Seoul National University Bundang Hospital, Seongnam, KoreaDepartment of Rehabilitation Medicine, Seoul National University Bundang Hospital, Seongnam, KoreaSchool of Sports & Health Science, Kyungsung University, Busan, KoreaPURPOSE Grip strength has been well documented to represent whole body strength. This study was performed to investigate whether absolute and relative grip strength is associated with thigh strength, and thigh-derived single muscle fiber contractile properties. METHODS Twelve healthy young adults (mean age 27.42 years) received needle biopsy on vastus lateralis muscles. Chemically skinned muscle fibers (n=215) were used to analyze single muscle fiber contractile properties (cross sectional area, maximal force, specific force, maximal shortening velocity) and MHC isoform composition. Pearson correlation was tested to identify the relationship between dominant hand grip strength, thigh strength, and thigh-derived single muscle fiber contractile properties. RESULTS The distribution of MHC I was higher in all the subjects compared to MHC II (type I: 57.2%, IIa: 37.2%, IIa/IIx: 2.3%, IIx: 3.3%). Specific force (8.2%) and maximal shortening velocity (74%) in MHC II were greater than those of MHC I. Absolute and relative grip strength normalized by height had a positive correlation with knee extensor isometric (r=.777, r=.75) and isokinetic (r=.632, r=.603) strength. In addition, the positive correlation of knee extensor isometric and isokinetic strength was observed against both CSA and Po in the thigh-derived single muscle fiber. Finally, Absolute and relative grip strength normalized by height were positively correlated with CSA (r=.279, r=.267) and Po (r=.373, r=.351) in MHC II, but not in MHC I. CONCLUSIONS These data suggest that hand grip strength is highly associated with not only whole thigh muscle strength, but also thigh-derived fast single muscle fiber contractile properties (MHC II).http://www.ksep-es.org/upload/pdf/es-27-4-280.pdfhand grip strengthwhole muscle strengthsingle muscle fiberslow twitch fiberfast twitch fiber |
collection |
DOAJ |
language |
Korean |
format |
Article |
sources |
DOAJ |
author |
Yunah Jeon Hojun Lee Dae-Young Kim Jae-Young Lim Seung-Jun Choi |
spellingShingle |
Yunah Jeon Hojun Lee Dae-Young Kim Jae-Young Lim Seung-Jun Choi Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties 운동과학 hand grip strength whole muscle strength single muscle fiber slow twitch fiber fast twitch fiber |
author_facet |
Yunah Jeon Hojun Lee Dae-Young Kim Jae-Young Lim Seung-Jun Choi |
author_sort |
Yunah Jeon |
title |
Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties |
title_short |
Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties |
title_full |
Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties |
title_fullStr |
Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties |
title_full_unstemmed |
Hand Grip Strength and Its Relation to Thigh-derived Single Muscle Fiber Contractile Properties |
title_sort |
hand grip strength and its relation to thigh-derived single muscle fiber contractile properties |
publisher |
The Korean Society of Exercise Physiology |
series |
운동과학 |
issn |
1226-1726 2384-0544 |
publishDate |
2018-11-01 |
description |
PURPOSE Grip strength has been well documented to represent whole body strength. This study was performed to investigate whether absolute and relative grip strength is associated with thigh strength, and thigh-derived single muscle fiber contractile properties. METHODS Twelve healthy young adults (mean age 27.42 years) received needle biopsy on vastus lateralis muscles. Chemically skinned muscle fibers (n=215) were used to analyze single muscle fiber contractile properties (cross sectional area, maximal force, specific force, maximal shortening velocity) and MHC isoform composition. Pearson correlation was tested to identify the relationship between dominant hand grip strength, thigh strength, and thigh-derived single muscle fiber contractile properties. RESULTS The distribution of MHC I was higher in all the subjects compared to MHC II (type I: 57.2%, IIa: 37.2%, IIa/IIx: 2.3%, IIx: 3.3%). Specific force (8.2%) and maximal shortening velocity (74%) in MHC II were greater than those of MHC I. Absolute and relative grip strength normalized by height had a positive correlation with knee extensor isometric (r=.777, r=.75) and isokinetic (r=.632, r=.603) strength. In addition, the positive correlation of knee extensor isometric and isokinetic strength was observed against both CSA and Po in the thigh-derived single muscle fiber. Finally, Absolute and relative grip strength normalized by height were positively correlated with CSA (r=.279, r=.267) and Po (r=.373, r=.351) in MHC II, but not in MHC I. CONCLUSIONS These data suggest that hand grip strength is highly associated with not only whole thigh muscle strength, but also thigh-derived fast single muscle fiber contractile properties (MHC II). |
topic |
hand grip strength whole muscle strength single muscle fiber slow twitch fiber fast twitch fiber |
url |
http://www.ksep-es.org/upload/pdf/es-27-4-280.pdf |
work_keys_str_mv |
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