Hierarchically multifunctional bioactive nanoglass for integrated tumor/infection therapy and impaired wound repair

Abstract

The complex wound repair induced by tumor surgery and infection is still the clinical challenge due to the subsequent tumor recurrence and serious inflammation. Herein, we develop a bioactive Si-Ca-Sr glass-based therapy-regeneration-enabled nanohybrids (BSr@PPE) with hierarchical versatility for overcoming the challenges of tumor and infection-impaired wound repair. BSr@PPE showed a representative concentration-dependent photothermal effect, strong free radical scavenging and antibacterial ability, as well as good UV-shielding properties and high biocompatibility. BSr@PPE could efficiently kill tumor cells through the photothermal effect, show the robust antibacterial activity against normal and multi-drug resistant bacteria and enhance the fibroblasts migration in vitro. In vivo animal experiments suggested that BSr@PPE could effectively promote epithelial reconstruction, collagen deposition and angiogenesis in normal wounds, reduce inflammation and enhance repair in multi-drug bacterial infected wounds, accelerate the tumor-impaired wound through inhibit the tumor cells. This work may provide a new strategy and multifunctional bioactive material for treating the tissue repair and regeneration under the multi-pathological environments.