摘要
Sonodynamic therapy(SDT)has attracted widespread attention in treatment of implant-associated infections,one of the key factors leading to implant failure.Nevertheless,constructing efficient ultrasound-triggered coatings on implant surfaces remains a challenge.Herein,an acoustic metastructure Cu-doped defective tita-nium oxide coating(Cu-TiO_(x))with lattice strain was constructed in situ on titanium implant to realize effective sonocatalysis.The redistribution of Cu atoms broke the pristine lattice of TiO_(2)during the thermal reduction treatment to regulate its energy structure,which favored separation of electron-hole pairs generated by ultra-sound radiation to enhance the sonocatalytic generation of reactive oxygen species.In addition,the acoustic metastructure enhanced the absorption of ultrasound by Cu-TiO_(x)metastructure coating,which further promoted its sonocatalytic effect.Thus,Cu-TiO_(x)metastructure coating could efficiently eliminate Staphylococcus aureus and Escherichia coli infections under ultrasonic irradiation in 10 min.Besides,the osteogenic property of implant was significantly improved after infection clearance in vivo.This work provides a fresh perspective on the design of SDT biosurfaces based on metastructure and strain-defect engineering.
基金
support from the National Natural Science Foundation of China(52450110)
the“Pioneer”and“Leading Goose”R&D Program of Zhejiang(2024C03080)
Science and Technology Commission of Shanghai Municipality(24ZR1475600)are acknowledged.
