Abstract

Osteoarthritis (OA) is a progressive degenerative joint disease whose molecular mechanism has not been revealed clearly, and there is still no effective approach to cure OA completely. Recently, reactive oxygen species (ROS) are exposed as an important mediator of OA's inflammatory response, and it has been regarded as a therapeutic target for OA treatment. MnO₂ nanoparticles possess good biocompatibility and can act as an artificial nanoenzyme to scavenge ROS in various diseases effectively. In this study, the modified Stöber method was applied to synthesize hollow MnO₂ (H-MnO₂) and H-MnO₂ was modified with NH₂-PEG-NH₂, which possesses excellent biological stability and biocompatibility. It induced a change in the articular cartilage structure changes <i>in vivo</i>, with the knee tissue staining and micro-CT scanning of the whole knee suggesting that H-MnO₂ nanoparticles could effectively remove ROS and significantly relieve the inflammatory response of OA without obvious side effects. This study reveals the therapeutic effects of MnO₂-based nanomedicine toward OA, which provides potential alternative therapeutic options for patients with inflammation tissue.