Osteoarthritis-related nociceptive behaviour following mechanical joint loading correlates with cartilage damage

Ter Heegde, F; Luiz, A P; Santana-Varela, S; Magnusdottir, R; Hopkinson, M; Chang, Y M; Poulet, B; Fowkes, R C; Wood, J N; Chenu, C

doi:10.1016/j.joca.2019.12.004

All Outputs (2)

Applied mechanical loading to mouse hindlimb acutely increases skeletal perfusion and chronically enhanced vascular porosity (2020)
Journal Article
Gohin, S., Javaheri, B., Hopkinson, M., Pitsillides, A. A., Arnett, T. R., & Chenu, C. (2020). Applied mechanical loading to mouse hindlimb acutely increases skeletal perfusion and chronically enhanced vascular porosity. Journal of Applied Physiology,

Blood supply is essential for osteogenesis, yet its relationship to load-related increases in bone mass is poorly defined. Herein, we aim to investigate the link between load-induced osteogenesis and the blood supply (bone perfusion and vascular poro... Read More about Applied mechanical loading to mouse hindlimb acutely increases skeletal perfusion and chronically enhanced vascular porosity.

Osteoarthritis-related nociceptive behaviour following mechanical joint loading correlates with cartilage damage (2020)
Journal Article
Ter Heegde, F., Luiz, A. P., Santana-Varela, S., Magnusdottir, R., Hopkinson, M., Chang, Y. M., …Chenu, C. (2020). Osteoarthritis-related nociceptive behaviour following mechanical joint loading correlates with cartilage damage. Osteoarthritis and Cartilage, 28(3), 383-395. https://doi.org/10.1016/j.joca.2019.12.004

In osteoarthritis (OA), the pain-structure relationship remains complex and poorly understood. Here, we used the mechanical joint loading (MJL) model of OA to investigate both knee pathology and nociceptive behaviour.