Relationship Between Muscle Force and Stiffness in the Whole Mammalian Muscle: A Simulation Study

Jacek Cholewicki; Stuart M. McGill

Source: Journal of Biomechanical Engineering:;1995:;volume( 117 ):;issue: 003::page 339

Author:

Jacek Cholewicki

Stuart M. McGill

DOI: 10.1115/1.2794189

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Several types of analyses in biomechanics require estimates of both muscle force and stiffness. Simulations were performed using the two-state cross-bridge Bond Distribution-Moment muscle model of Zahalak (1981), together with other parameters for passive elasticity and tendon compliance, to estimate instantaneous stiffness and to compare these estimates with the wide range of values reported in the literature. While the relatively simple cross-bridge theory appears to approximate the stiffness of skinned muscle fibers, the stiffness of a complete muscle-tendon unit become complex and non-linear due to relative changes in muscle-tendon length and interaction with activation and length dependent passive elastic components. It would appear that the variability in muscle stiffness values reported in the literature can be explained with the D-M approach.

keyword(s): Force , Simulation , Muscle , Stiffness , Tendons , Biomechanics , Engineering simulation , Elasticity AND Fibers ,

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Relationship Between Muscle Force and Stiffness in the Whole Mammalian Muscle: A Simulation Study

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contributor author	Jacek Cholewicki
contributor author	Stuart M. McGill
date accessioned	2017-05-08T23:46:38Z
date available	2017-05-08T23:46:38Z
date copyright	August, 1995
date issued	1995
identifier issn	0148-0731
identifier other	JBENDY-25954#339_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/114988
description abstract	Several types of analyses in biomechanics require estimates of both muscle force and stiffness. Simulations were performed using the two-state cross-bridge Bond Distribution-Moment muscle model of Zahalak (1981), together with other parameters for passive elasticity and tendon compliance, to estimate instantaneous stiffness and to compare these estimates with the wide range of values reported in the literature. While the relatively simple cross-bridge theory appears to approximate the stiffness of skinned muscle fibers, the stiffness of a complete muscle-tendon unit become complex and non-linear due to relative changes in muscle-tendon length and interaction with activation and length dependent passive elastic components. It would appear that the variability in muscle stiffness values reported in the literature can be explained with the D-M approach.
publisher	The American Society of Mechanical Engineers (ASME)
title	Relationship Between Muscle Force and Stiffness in the Whole Mammalian Muscle: A Simulation Study
type	Journal Paper
journal volume	117
journal issue	3
journal title	Journal of Biomechanical Engineering
identifier doi	10.1115/1.2794189
journal fristpage	339
journal lastpage	342
identifier eissn	1528-8951
keywords	Force
keywords	Simulation
keywords	Muscle
keywords	Stiffness
keywords	Tendons
keywords	Biomechanics
keywords	Engineering simulation
keywords	Elasticity AND Fibers
tree	Journal of Biomechanical Engineering:;1995:;volume( 117 ):;issue: 003
contenttype	Fulltext

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