光热治疗
材料科学
自愈水凝胶
生物医学工程
光纤
肿瘤消融
纳米技术
激光器
聚合物
光子学
放射治疗
渗透(战争)
光电子学
药物输送
光热效应
辐照
癌症治疗
纳米颗粒
桥接(联网)
穿透深度
光学成像
癌症治疗
泊洛沙姆
烧蚀
热疗
光学现象
生物物理学
作者
Beilin Zhang,Wen Pang,Hua Bai,Zhenxiong Shi,Jiaxin Zhang,Yi Liu,Bo Peng,Bobo Gu,Li Fu,Lin Li,Wei Huang
标识
DOI:10.1002/adma.202517632
摘要
Deep-seated tumors are difficult to treat because of their location, conventional treatment resistance, and limited light penetration during photothermal therapy (PTT). Interstitial PTT with "inside-out" laser irradiation using optical fibers (OFs) offers a promising solution. This study proposes a drug-device integrated platform assisted by a puncture needle combining stimuli-responsive hydrogels with a spherical-tip polymer OF (SPOF) to overcome dual challenges: Inadequate photothermal agent retention and insufficient optical penetration. The injectable thermosensitive hydrogel (SW8@Gel), composed of Pluronic F127 and aza-boron-dipyrromethene-derived SW8 nanoparticles, rapidly undergoes sol-gel transition at 38°C, facilitating localized and sustained delivery of the photothermal agent. The flexible low-bending-loss SPOF emits 360° divergent near-infrared II (1064 nm) light from its spherical tip, allowing single-fiber illumination of deep-seated tumors (penetration >10 cm) in complex biological environments. Integrating these components enables depth-adaptive tumor ablation. Compared to other methods, the SPOF/SW8@Gel combination demonstrates the lowest frequency and shortest duration for PTT of deep-seated tumors and achieves superior efficacy, with a 90% tumor regression rate in mice models and no off-target damage due to enhanced heating uniformity and reduced systemic toxicity. This platform offers a transformative clinically viable solution for precise ablation of deep malignancies, bridging advanced photonics and targeted oncotherapy.
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