Structural Origins of Cartilage Shear Mechanics

TL;DR

This paper investigates the structural basis of cartilage shear mechanics using experiments and modeling, offering insights into osteoarthritis progression and potential diagnostic approaches.

Contribution

It introduces a rigidity percolation framework to explain how cartilage composition influences shear mechanics and disease-related degradation.

Findings

Develops a quantitative model for cartilage shear behavior

Links structural degradation to mechanical failure in osteoarthritis

Provides a foundation for improved diagnosis and treatment strategies

Abstract

Healthy cartilage is a remarkable tissue, able to withstand tens of millions of loading cycles with minimal damage. While much is known about the structural origins of its compressive mechanics, how composition determines its mechanical behavior in shear, a major mode of failure, is poorly understood. Through a combination of microscale structure-function experiments and modeling, we develop a rigidity percolation framework to explain the structural origins of cartilage shear mechanics. This framework provides a new quantitative understanding for how the known degradative events in osteoarthritis determine the mechanical changes that are a hallmark of this disease. As such, this work provides a road map for understanding disease progression and in combination with non-invasive techniques such as MRI will enable more effective diagnosis and treatment.