Self-assembled phthalocyanine-based nano-photosensitizers in photodynamic therapy for hypoxic tumors

IF 6 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Lin He and Ding Ma
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Abstract

Photodynamic therapy (PDT) is a well-established minimally invasive cancer treatment, yet its effectiveness in treating hypoxic tumors is limited due to oxygen scarcity, hindering the production of reactive oxygen species (ROS). Phthalocyanines, notable for their remarkable optoelectronic attributes and structural flexibility, have emerged as a class of photosensitizers with potential to enhance PDT. This review highlights innovations in the development of self-assembled phthalocyanine-based nano-photosensitizers, underscoring their potential to mitigate the obstacles posed by hypoxia in PDT. It details advancements in self-assembly methodologies and their applications to augment the therapeutic impact of PDT in hypoxic tumors, encompassing oxygen supply augmentation, metabolic pathway modulation, development of phthalocyanine-based nano-photosensitizers for photothermal therapy (PTT), type I PDT photosensitizers and combination therapy. It concludes with an overview of the current challenges and future prospects of phthalocyanine-based nano-photosensitizers in PDT. By reviewing recent progress, this paper aspires to offer pioneering insights into the conception of novel nano-photosensitizers, engineered to counteract hypoxia and circumvent the intrinsic limitations of PDT.

Abstract Image

基于酞菁的自组装纳米光敏剂在缺氧肿瘤光动力疗法中的应用
光动力疗法(PDT)是一种行之有效的微创癌症治疗方法,但由于氧气稀缺,阻碍了活性氧(ROS)的产生,其治疗缺氧性肿瘤的效果受到了限制。酞菁因其显著的光电特性和结构灵活性而成为一类光敏剂,具有增强光导疗法的潜力。本综述重点介绍了基于酞菁的自组装纳米光敏剂的创新发展,强调了这些光敏剂缓解缺氧给光动力疗法带来的障碍的潜力。报告详细介绍了自组装方法的进展及其在缺氧肿瘤中增强光动力疗法治疗效果的应用,包括氧气供应增强、代谢途径调节、用于光热疗法(PTT)的酞菁基纳米光敏剂的开发、I型光动力疗法光敏剂和联合疗法。最后,本文概述了酞菁基纳米光敏剂在光热疗法中的当前挑战和未来前景。通过回顾最新进展,本文希望为新型纳米光敏剂的构想提供开创性的见解,这些光敏剂可抵消缺氧并规避光导疗法的内在局限性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Materials Chemistry Frontiers
Materials Chemistry Frontiers Materials Science-Materials Chemistry
CiteScore
12.00
自引率
2.90%
发文量
313
期刊介绍: Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.
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