The effect of shear fatigue on bovine articular cartilage

Abstract

The objective of this study was to investigate the effects of mechanical fatigue in the form of cyclic shear strain on articular cartilage. Three millimeter diameter full‐thickness plugs were cored from the lateral aspect of bovine tibial plateaus. Sinusoidal shear strains of ±5, ±10, and ±15% were applied to the specimens at 100 Hz for 3 h (a total of 108 ±X 10⁴ cycles). The mechanical shear properties of the tissue (loss and storage moduli) were determined as a function of the number of applied strain cycles. A rapid, irreversible decrease of approximately 35% of initial modulus was found to occur in both loss and storage modulus during application of the first 90,000 cycles. Further decay in the moduli was found to occur from 90 ±X 10³ to 108 ±X 10⁴ cycles, but was of considerably smaller magnitude than the initial decrease. The moduli remained relatively constant beyond application of 108 ±X 10⁴ cycles. No consistent change in proteoglycan content was found to be associated with the fatigue process when comparing tested specimens with fresh untested tissue, and with experimental controls. In addition, no structural defects in the mechanically altered tissue were revealed by scanning electron microscopy.