Strategies to engineer various nanocarrier-based hybrid catalysts for enhanced chemodynamic cancer therapy

纳米载体 癌症治疗 催化作用 化学 纳米技术 癌症 材料科学 医学 纳米颗粒 生物化学 内科学
作者
Ji‐Na Hao,Kaiming Ge,Guoli Chen,Bin Dai,Yongsheng Li
出处
期刊:Chemical Society Reviews [Royal Society of Chemistry]
卷期号:52 (22): 7707-7736 被引量:119
标识
DOI:10.1039/d3cs00356f
摘要

content) and overexpressed reducing substance in TME. Currently, various synergistic strategies have been elaborately developed to increase the CDT efficiency by regulating the TME, enhancing the catalytic efficiency of catalysts, or combining with other therapeutic modalities. To realize these strategies, the construction of diverse nanocarriers to deliver Fenton catalysts and cooperatively therapeutic agents to tumors is the key prerequisite, which is now being studied but has not been thoroughly summarized. In particular, nanocarriers that can not only serve as carriers but are also active themselves for therapy are recently attracting increasing attention because of their less risk of toxicity and metabolic burden compared to nanocarriers without therapeutic capabilities. These therapy-active nanocarriers well meet the requirements of an ideal therapy system with maximum multifunctionality but minimal components. From this new perspective, in this review, we comprehensively summarize the very recent research progress on nanocarrier-based systems for enhanced CDT and the strategies of how to integrate various Fenton agents into the nanocarriers, with particular focus on the studies of therapy-active nanocarriers for the construction of CDT catalysts, aiming to guide the design of nanosystems with less components and more functionalities for enhanced CDT. Finally, the challenges and prospects of such a burgeoning cancer-theranostic modality are outlooked to provide inspirations for the further development and clinical translation of CDT.
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