Due to the high incidence of cartilage-related pathologies such as focal defects and osteoarthritis, strategies are needed to restore the structure and function of osteochondral tissue. Articular cartilage and bone have distinctly different properties, rendering challenging the engineering of a robust interface that reduces stress concentrations and delamination. The osteochondral interface, which consists of a tidemark, calcified cartilage, cement line, and surrounding tissues, has a unique structure and function, but there is a dearth of quantitative data to describe it. Elucidating the structure-function relationships through characterization will be essential in defining design criteria for tissue engineering. Osteochondral engineering has used scaffold-based methods that, for example, use polymers in conjunction with ceramics. Excitingly, scaffold-free methods are emerging for engineering the articular cartilage layer, which can be interfaced with an underlying bone substrate. Critical must be the objective of designing an interface that displays mechanics robust enough to withstand the native environment.
Keywords: bone; cartilage; interface; osteochondral; tissue engineering.