光热治疗
伤口愈合
多酚
灭菌(经济)
伤口护理
纳米技术
卟啉
材料科学
生物医学工程
活性氧
化学
慢性伤口
金黄色葡萄球菌
姜黄素
光热效应
单线态氧
氧化损伤
广谱
功能(生物学)
抗菌剂
自愈
纳米颗粒
炎症
抗菌活性
作者
Xiaohui Wang,Xinran Wang,Y Y Li,Qu Tang,Rui Xia,Yuling Qin,Li Wu
标识
DOI:10.1002/adhm.202504408
摘要
ABSTRACT Persistent bacterial infections and oxidative stress‐induced inflammatory responses present significant challenges to wound healing. Conventional wound care approaches frequently prioritize bacterial eradication while overlooking the critical need to modulate inflammation. To address this limitation, we have innovatively developed carrier‐free nano‐aggregates through the co‐precipitation of natural polyphenols (resveratrol and piceatannol) and a porphyrin‐based photosensitizer, which function as antibacterial and anti‐inflammatory agents, respectively. Significantly, rather than forming a simple mixture, the two components co‐assemble via microstructure regulation into a highly ordered architecture exhibiting characteristic J‐aggregate features. Specifically, the piceatannol‐based aggregates (designated T 4 PIC NPs) achieved an exceptional photothermal conversion efficiency (PCE) of 51.1% under 730 nm irradiation, accompanied by an 86 nm spectral redshift, surpassing most previously reported porphyrin‐based nanoparticles. These properties enable highly effective sterilization even at low doses. Notably, the natural polyphenols not only enhance phototherapeutic efficacy but also, owing to their multi‐hydroxyl structures, effectively scavenge reactive oxygen species and modulate inflammatory responses, thereby accelerating wound healing. This study establishes a straightforward strategy for delivering natural polyphenolic drugs while concurrently constructing highly efficient porphyrin‐based photothermal formulations, demonstrating unique advantages for advanced wound management.
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