Introduction: The articular cartilage collagen network and proteoglycans are subject to changes in deteriorating joint diseases. In this study, we exposed articular cartilage plugs to cyclic loading and investigated the properties of collagen network and proteoglycans in different zones of the articular cartilage.
Methods: Articular cartilage full-depth plugs were exposed in vitro to 4.1 MPa cyclic (0.5 Hz) loading for 1 to 20 hr and investigated using quantitative microscopic methods (i.e., polarized light microscopy, microspectrophotometry, and autoradiography).
Results: The loading caused packing or condensation of the tissue. In histological sections, the height of uncalcified articular cartilage decreased by an average of 12.8% (range, 4 to 19.7%). Loading increased the birefringence of collagen in the superficial cartilage (P < 0.05), with thickening of the zone up to 41.4% at 20 hr. The thickness of the intermediate zone increased also (22% at 1 hr and 434% at 20 hr). Concomitantly, the birefringence (P < 0.05) and the thickness of the deep zone decreased (18.5 to 27.8%). Loading for 4 hr increased the 35S-sulphate incorporation of the cartilage explants by an average of 67% (P < 0.05). The increase was most significant in the deep cartilage. A simultaneous increase was observed in the proteoglycan concentration of the cartilage; the staining intensity with safranin-O increased by 8.8% (P < 0.05). After 8 hr loading, this stimulation decreased; at 20 hr, loading caused a clear inhibitory effect on proteoglycan synthesis in the superficial zone.
Discussion: According to these results, the chosen loading regimen increased the thickness and collagen orientation in the superficial zone. In contrast, the thickness and birefringence in the deep cartilage were reduced. The proteoglycan metabolism of chondrocytes was first stimulated deep in the cartilage, but as the loading continued, the effect proved to be inhibitory (especially in the superficial part of uncalcified cartilage).