光动力疗法
透明质酸
明胶
伤口愈合
单线态氧
氧化应激
亚甲蓝
活性氧
炎症
充氧
化学
光合作用
生物物理学
氧气
自愈水凝胶
生物医学工程
缺氧(环境)
纳米技术
光敏剂
纳米颗粒
癌症研究
药理学
可见光谱
炎症反应
作者
Qingyan Jia,Wei Tao,Xiyin Liu,Yuanying Li,Renhao Nie,Changhan Yan,Zhuoyuan Che,Yaolan Tao,Ke Yuan,Huiying Ning,Zihan Liu,Yunxiu Zhang,Peng Li
出处
期刊:Nano Letters
[American Chemical Society]
日期:2025-10-17
卷期号:25 (43): 15594-15604
被引量:7
标识
DOI:10.1021/acs.nanolett.5c03919
摘要
A multistage microneedle (MN) patch was developed to coordinate photodynamic therapy (PDT), oxidative stress reduction, and hypoxia relief for the spatiotemporal treatment of chronically infected wounds. The MN patch uses a hyaluronic acid base loaded with methylene blue (MB), which rapidly releases upon contact with tissue fluid. As the MN penetrates biofilm, it delivers MB effectively, achieving strong antibacterial PDT effects. The needle tips are made of gelatin methacryloyl (GelMA) and contain carbon dots (CDs) and Chlorella pyrenoidosa. During inflammation, CDs scavenge ROS while C. pyrenoidosa generates oxygen via photosynthesis to reduce hypoxia. Importantly, CDs convert light (500–600 nm) into a spectrum (600–700 nm) that can be used by C. pyrenoidosa, boosting oxygen production. The GelMA matrix separates MB and CDs, preventing ROS interference and maintaining PDT effectiveness. This MN platform integrates antibacterial action, inflammation control, angiogenesis, and tissue regeneration, offering a flexible and effective approach for treating chronic wounds.
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