Y.C. Wang scite author profile

Currently, osteoarthritis (OA) is considered a disease of the entire joint, which is not simply a process of wear and tear but rather abnormal remodelling and joint failure of an organ. The bone-cartilage interface is therefore a functioning synergistic unit, with a close physical association between subchondral bone and cartilage suggesting the existence of biochemical and molecular crosstalk across the OA interface. The crosstalk at the bone-cartilage interface may be elevated in OA in vivo and in vitro. Increased vascularisation and formation of microcracks associated with abnormal bone remodelling in joints during OA facilitate molecular transport from cartilage to bone and vice versa. Recent reports suggest that several critical signalling pathways and biological factors are key regulators and activate cellular and molecular processes in crosstalk among joint compartments. Therapeutic interventions including angiogenesis inhibitors, agonists/antagonists of molecules and drugs targeting bone remodelling are potential candidates for this interaction. This review summarised the premise for the presence of crosstalk in bone-cartilage interface as well as the current knowledge of the major signalling pathways and molecular interactions that regulate OA progression. A better understanding of crosstalk in bone-cartilage interface may lead to development of more effective strategies for treating OA patients.

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CECT study on permeability of nonionic contrast agent in human osteoarthritis articular cartilage — Associations to matrix composition and integrity

Yuan

Meng

Wang

et al. 2014

Journal of Orthopaedic Translation

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Y.C. Wang

Bone–cartilage interface crosstalk in osteoarthritis: potential pathways and future therapeutic strategies

CECT study on permeability of nonionic contrast agent in human osteoarthritis articular cartilage — Associations to matrix composition and integrity

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