Cu–Sr Bilayer Bioactive Glass Nanoparticles/Polydopamine Functionalized Polyetheretherketone Enhances Osteogenic Activity and Prevents Implant‐Associated Infections through Spatiotemporal Immunomodulation

Abstract

AbstractKey factors contributing to implantation failures include implant‐associated infections (IAIs) and insufficient osseointegration of the implants. Polyetheretherketone (PEEK) is widely used in orthopedics, yet its clinical applications are restricted due to its poor osteogenic and antibacterial properties as well as inadequate immune responses. To overcome these drawbacks, a novel spatiotemporal immunomodulation approach is proposed, chelating Cu–Sr bilayer bioactive glass nanoparticles (CS‐BGNs) onto the PEEK surface via polydopamine (PDA). The CS‐BGNs possess a bilayer core–shell structure where copper is distributed in the outer layer and strontium is clustered in the inner layer. The results show that CS‐BGNs/PDA functionalized PEEK demonstrates a controlled and sequential release of Cu2+ and Sr2+. In the early stage, Cu2+ from the outer layer releases rapidly, while Sr2+ from the inner layer releases in the late stage. This well‐ordered release pattern modulates the phenotypic transition of macrophages, which induces M1 polarization in the early stage and M2 polarization in the late stage. Combined with the direct effects of Cu2+ and Sr2+, the spatiotemporal immunomodulation not only benefits the early antibacterial and tissue‐healing process, but also promotes the long‐term process of osseointegration, providing new perspectives on the design of novel immunomodulatory biomaterials.