Oxygen-Independent Sulfate Radical and Fe<sup>2+</sup>-Modified Implants for Fast Sterilization and Osseointegration of Infectious Bone Defects
Ziyou Wang, Ying Huang, Shuai He, Meng Li, Jing Gong, Lei Cheng, Jiyao Li, Yi Deng, Kunneng Liang
Abstract
Currently, emerging dynamic therapy has gradually become a frequently used strategy for treating infectious bone defects via a rise in reactive oxygen species (ROS) levels, which can bring about oxidative harm to bacteria. However, ROS can be generated only under conditions of exogenous energy, limited by energy penetration or dependence on the existence of internal O 2 /H 2 O 2 . Thus, we designed Na 2 S 2 O 8 -decorated polyetheretherketone implants activated by Fe 2+ for infected bone defects. In vitro experiments show that they generate sulfate radical (·SO 4 – ) and hydroxyl radical (·OH) without O 2 /H 2 O 2 existence, effectively killing bacteria. Additionally, the released Fe 2+ enters bacteria and triggers ferroptosis-like death via lipid peroxidation. In vivo experiments show implants achieve an ideal effect of bone integration through a high-efficiency bactericidal effect and enhanced osteogenic activity. As envisioned, our proposed strategy offers a promising approach to halt refractory infection of bone tissue by autonomously catalyzing ROS storms and ferroptosis-like death, facilitating bone-defect recovery.