光动力疗法
抗菌剂
金黄色葡萄球菌
致病菌
伤口愈合
微生物学
细菌
抗菌活性
阳离子聚合
材料科学
光敏剂
环境友好型
铵
活性氧
皮肤刺激
医学
抗菌剂
体内
葡萄球菌感染
化学
作者
Yan Xu,Xincui Shi,Leijiao Li,C. Xu,Imre Varga,Hanchen Zhang,Haihua Xiao,Wenliang Li
摘要
ABSTRACT The increasing resistance of pathogenic bacteria challenges current skin disinfection strategies, while the non‐degradability of traditional cationic antimicrobials limits their clinical safety. Conventional photodynamic therapy is limited by complex application requirements. To address these limitations, we developed a biodegradable, sunlight‐activated photodynamic cationic nanospray (NP PORPMn ). Under environmentally friendly and readily accessible sunlight irradiation (NP PORPMn +L), NP PORPMn efficiently generates reactive oxygen species and works synergistically with its quaternary ammonium cations to exert potent antibacterial effects. This dual‐action significantly reduces the inflammatory response in infected microenvironments and accelerates wound healing in infections caused by Staphylococcus aureus ( S. aureus ) and methicillin‐resistant Staphylococcus aureus ( MRSA ). Skin disinfection experiments further demonstrate that NP PORPMn +L can eliminate pathogenic bacteria and resident microbial communities on the skin surface. This study presents an innovative, biodegradable, and clinically safe nanospray platform that harnesses the convenience of sunlight activation to provide a promising strategy for combating antibiotic‐resistant infections.
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