光动力疗法
膜
抗菌剂
活性氧
纳米颗粒
化学
声动力疗法
聚乙烯醇
生物物理学
材料科学
抗生素
体外
体内
控制释放
催化作用
联合疗法
伤口愈合
光毒性
葡萄糖氧化酶
化学发光
纳米医学
光敏剂
防腐剂
银纳米粒子
纳米技术
生物医学工程
透明质酸
药理学
透明质酸酶
微生物学
作者
Liefeng Hu,Yahuan Wang,Yan Liu,Ganlin Dong,Jiayi Luo,Shuting Li,Zihan Wang,Yu‐Qi Feng
摘要
ABSTRACT Chemodynamic therapy (CDT) and photodynamic therapy (PDT) mediated by reactive oxygen species hold great potential for wound infection management due to their independence from antibiotic resistance. However, chronic wounds with pH > 8 and inadequate H 2 O 2 impair the catalytic efficiency required for CDT, and external light irradiation required for PDT damages normal tissues and hinders wound healing. We herein develop a MOF@nanofiber membrane that enables a precise and efficient combination of controlled self‐activated CDT and PDT for diabetic infections. Shuttle‐shaped PCN‐222 MOF nanoparticles act as photosensitizers and platforms for in situ growth of Au nanoparticles with glucose oxidase‐like activity and encapsulation of luminol (Lum). These components are integrated into electrospun nanofibrous membranes composed of polyvinyl alcohol and hyaluronic acid, and crosslinked with Fe 2+ to obtain LPA@PHM(Fe). Mechanistically, the membrane is degraded by bacteria‐secreted hyaluronidase and H 2 O 2 in infected wounds, producing ·OH and releasing LPA. Au NPs then lower local glucose and pH, and supplement H 2 O 2 to enhance CDT and enable Lum‐based chemiluminescence resonance energy transfer‐mediated PDT. This synergistic antimicrobial effect is verified in vitro and in diabetic wounds. Applied as a band‐aid, LPA@PHM(Fe) shows strong potential for promoting healing of diabetic infected wounds.
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