Issue 16, 2022

Passive viscoelastic response of striated muscles

Abstract

Muscle cells with sarcomeric structure exhibit highly non trivial passive mechanical response. The difficulty of its continuum modeling is due to the presence of long-range interactions transmitted by extended protein skeleton. To build a rheological model for muscle ‘material’, we use a stochastic micromodel, and derive a linear response theory for a half-sarcomere, which can be extended to the whole fibre. Instead of the first order rheological equation, anticipated by Hill on the phenomenological grounds, we obtain a novel second order equation which shows that tension depends not only on its current length and the velocity of stretching, but also on its acceleration. Expressing the model in terms of elementary rheological elements, we show that one contribution to the visco-elastic properties of the fibre originates in cross-bridges, while the other can be linked to inert elements which move in the sarcoplasm. We apply this model to explain the striking qualitative difference between the relaxation in experiments involving perturbation of length vs. those involving perturbation of force, and we use the values of the microscopic parameters for frog muscles to show that the model is in excellent quantitative agreement with physiological experiments.

Graphical abstract: Passive viscoelastic response of striated muscles

Supplementary files

Article information

Article type
Paper
Submitted
24 Oct 2021
Accepted
08 Mar 2022
First published
21 Mar 2022

Soft Matter, 2022,18, 3226-3233

Passive viscoelastic response of striated muscles

F. Staniscia and L. Truskinovsky, Soft Matter, 2022, 18, 3226 DOI: 10.1039/D1SM01527C

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