纳米载体
光动力疗法
生物相容性
活性氧
化学
聚合物囊泡
生物物理学
肿瘤微环境
纳米技术
生物
癌症研究
药物输送
生物化学
材料科学
肿瘤细胞
两亲性
有机化学
共聚物
聚合物
作者
Jiapeng Dong,Jiacheng Tang,Xinyi Li,Yaoxun Zeng,Xiang Su,Yan He,Xujie Liu
标识
DOI:10.1080/17568919.2025.2515813
摘要
Photodynamic therapy (PDT) has emerged as a promising anticancer strategy utilizing photosensitizers (PSs) to generate cytotoxic reactive oxygen species (ROS) upon light irradiation. This review highlights recent advancements in optimizing PSs through structural modifications, nanocarrier systems, and stimulus-responsive designs, aiming to enhance their stability, specificity, and responsiveness. Key strategies include chemical modifications (e.g. D-A type structures, shortening the polymethine chain or incorporation of rigid cyclic segments, etc.), nanocarrier encapsulation (e.g. extracellular vesicles and liposomes), host-guest interactions, and specific targeting mechanisms (e.g. organelle-specific localization, antibody conjugation). Additionally, the responsiveness to tumor microenvironment (TME) factors, such as glutathione levels, viscosity, pH, and ROS, has been leveraged to improve the precision and minimize off-target toxicity. Despite significant progress, challenges persist in balancing photostability, biocompatibility, and clinical translatability, highlighting the need for continued innovation in PS design.
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