Implementation of skeletal muscle model with advanced activation control
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Date issued
2009
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
University of West Bohemia
Abstract
is suitable for a 3D muscle representation. It respects the microstructure of the muscle which is represented by
three basic components: active fibers, passive fibers and a matrix. For purposes of presented work the existing
material models suitable for the matrix and passive fibers are used and a new active fiber model is proposed. The
active fiber model is based on the sliding cross-bridge theory of contraction. This theory is often used in modeling
of skeletal and cardiac muscle contractions. In this work, a certain simplification of the cross-bridge distribution
function is proposed, so that the 3D computer implementation becomes feasible. The new active fiber model is
implemented into our research finite element code. A simple 3D muscle bundle-like model is created and the
implemented composite model (involving the matrix, passive and active fibers) is used to perform the isometric,
concentric and excentric muscle contraction simulations.
Description
Subject(s)
aplikovaná mechanika, kosterní svaly, kalciová aktivace, kompozitní modely
Citation
Applied and Computational Mechanics. 2009, vol. 3, no. 2, p. 305-314.