光动力疗法
单线态氧
癌症研究
细胞毒性
生物医学中的光声成像
肺癌
癌症影像学
荧光寿命成像显微镜
化学
肿瘤缺氧
光敏剂
活性氧
体外
癌细胞
医学
缺氧(环境)
分子成像
光学成像
生物物理学
A549电池
癌症
荧光
氧气
癌症治疗
显像剂
生物医学工程
功能成像
作者
Ang Li,Fang Wang,Mou Jiang,Yu Li,Xin Zhou,Zhong‐Xing Jiang
标识
DOI:10.1002/advs.202521886
摘要
ABSTRACT Tumor hypoxia limits the efficacy of photodynamic therapy (PDT), necessitating photosensitizers with hypoxia‐adaptive therapy and imaging. Here, we present a fluorinated N ‐oxide aza‐BODIPY ( OFBD ) nanoemulsion ( OFBD‐NP ) for hypoxia‐responsive, multimodal imaging‐guided phototherapy. OFBD generates robust singlet oxygen under normoxia for PDT, but is reduced by CYP450 enzymes in hypoxic cells to photothermal‐potent FBD , enabling switchable PDT/PTT. Co‐assembly with fluorinated oil enhances oxygen delivery, boosts 19 F MRI sensitivity, and promotes J ‐aggregation, shifting fluorescence into the NIR‐II window for deep‐tissue imaging. The redox conversion also activates photoacoustic signals, enabling responsive tri‐modal imaging (NIR‐II FLI/ 19 F MRI/PAI). OFBD‐NP shows potent cytotoxicity in vitro under both normoxic and hypoxic conditions via apoptosis. In vivo, it selectively accumulates in tumors, offers high‐contrast imaging, and leads to complete tumor regression in subcutaneous A549 models after laser irradiation, without systemic toxicity. This work demonstrates a smart nanoplatform that integrates deep‐tissue imaging and hypoxia‐triggered therapeutic switching, addressing major limitations of conventional photosensitizers in cancer imaging and phototherapy.
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