Effect of Skeletal Muscle Immobilization on Regional Anisotropic Viscohyperelastic Properties Change in a Rat Model

Effect of Skeletal Muscle Immobilization on Regional Anisotropic Viscohyperelastic Properties Change in a Rat Model

The passive mechanical properties of immobilized skeletal muscle in short position were investigated over time. The purpose of this study was to explore in three different zones (distal, proximal and medial) of the biceps brachii immobilized of rats in short position and its free contralateral. In v...

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Bibliographic Details
Published in:Ingénierie et recherche biomédicale Vol. 46; no. 1; p. 100868
Main Authors: Simon, Clément, Rekik, Sonia, Zidi, Mustapha
Format: Journal Article
Language:English
Published: Elsevier Masson SAS 01-02-2025
Subjects:
Anisotropic viscohyperelasticity
Equibiaxial relaxation tests
Short immobilization
Skeletal muscle zone
Anisotropic viscohyperelasticity
Skeletal muscle zone
Short immobilization
Equibiaxial relaxation tests
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Summary:The passive mechanical properties of immobilized skeletal muscle in short position were investigated over time. The purpose of this study was to explore in three different zones (distal, proximal and medial) of the biceps brachii immobilized of rats in short position and its free contralateral. In vitro equibiaxial relaxation tests were performed from samples harvested from immobilized skeletal muscles of rats during one or two weeks. Material parameters were identified by using a viscohyperelastic model described by an anisotropic strain energy function coupled with second order Maxwell's model. The excising zone of samples greatly influenced the parameters of the hyperelastic behavior while the immobilization had effects on the viscoelasticity response instead. Based on measurements of histological parameters from flexor carpi ulnaris muscles, the immobilization produced contractile tissue atrophy and connective tissue thickening. A correlation between mechanical and structural characteristics was given. The histological analysis permitted to quantify fibrosis in the immobilized skeletal muscle and to correlate with the mechanical behavior change. The immobilization of skeletal muscles in short position is highly deleterious. Immobilized rats displayed marked atrophy of skeletal muscle, fibrosis of the extracellular matrix and a tendency to visco-hyperelastic parameter changes. This work has the potential to be useful for future research on neuromuscular diseases like spastic myopathy which leads to muscular immobilization. •Equibiaxial relaxation tests were performed in three different zones of a biceps brachii rat immobilized in a short position.•Material parameters of skeletal muscle tissue were identified by a viscohyperelastic anisotropic model.•Excising zone influenced the parameters of the hyperelasticity while the immobilization affected the viscoelasticity instead.•Histological analysis showed that immobilization produced contractile tissue atrophy and connective tissue thickening.•A correlation between mechanical and structural characteristics was given.
ISSN:1959-0318
DOI:10.1016/j.irbm.2024.100868