Litcius/Paper detail

It's more than the amount that counts: implications of collagen organization on passive muscle tissue properties revealed with micromechanical models and experiments

Ridhi Sahani, Kaitlyn Hixson, Silvia S. Blemker

2024Journal of The Royal Society Interface14 citationsDOIOpen Access PDF

Abstract

Collagen accumulation is often used to characterize skeletal muscle fibrosis, but the role of collagen in passive muscle mechanics remains debated. Here we combined finite-element models and experiments to examine how collagen organization contributes to macroscopic muscle tissue properties. Tissue microstructure and mechanical properties were measured from in vitro biaxial experiments and imaging in dystrophin knockout ( mdx ) and wild-type (WT) diaphragm muscle. Micromechanical models of intramuscular and epimuscular extracellular matrix (ECM) regions were developed to account for complex microstructure and predict bulk properties, and directly calibrated and validated with the experiments. The models predicted that intramuscular collagen fibres align primarily in the cross-muscle fibre direction, with greater cross-muscle fibre alignment in mdx models compared with WT. Higher cross-muscle fibre stiffness was predicted in mdx models compared with WT models and differences between ECM and muscle properties were seen during cross-muscle fibre loading. Analysis of the models revealed that variation in collagen fibre distribution had a much more substantial impact on tissue stiffness than ECM area fraction. Taken together, we conclude that collagen organization explains anisotropic tissue properties observed in the diaphragm muscle and provides an explanation for the lack of correlation between collagen amount and tissue stiffness across experimental studies.

Topics & Concepts

Extracellular matrixStiffnessSkeletal muscleBiophysicsMaterials scienceDiaphragm muscleMuscle tissueBiomedical engineeringmdx mouseAnatomyMyosinMatrix (chemical analysis)Diaphragm (acoustics)ChemistryDystrophinComposite materialRespiratory systemBiologyMedicinePhysicsAcousticsLoudspeakerBiochemistryMuscle Physiology and DisordersMuscle activation and electromyography studiesSports injuries and prevention