Issue 33, 2021

Emerging strategies based on nanomaterials for ionizing radiation-optimized drug treatment of cancer

Abstract

Drug-radiotherapy is a common and effective combinational treatment for cancer. This study aimed to explore the ionizing radiation-optimized drug treatment based on nanomaterials so as to improve the synergistic efficacy of drug-radiotherapy against cancer and limit the adverse effect on healthy organs. In this review, these emerging strategies were divided into four parts. First, the delivery of the drug-loaded nanoparticles was optimized owing to the strengthened passive targeting process, active targeting process, and cell targeting process of nanoparticles after ionizing radiation exposure. Second, nanomaterials were designed to respond to the ionizing radiation, thus leading to the release of the loading drugs controllably. Third, radiation-activated pro-drugs were loaded onto nanoparticles for radiation-triggered drug therapy. In particular, nontoxic nanoparticles with radiosensitization capability and innocuous radio-dynamic contrast agents can be considered as radiation-activated drugs, which were discussed in this review. Fourth, according to the various synergetic mechanisms, radiotherapy could improve the drug response of cancer, obtaining optimized drug-radiotherapy. Finally, relative suggestions were provided to further optimize these aforementioned strategies. Therefore, a novel topic was selected and the emerging strategies in this region were discussed, aiming to stimulate the inspiration for the development of ionizing radiation-optimized drug treatment based on nanomaterials.

Graphical abstract: Emerging strategies based on nanomaterials for ionizing radiation-optimized drug treatment of cancer

Article information

Article type
Review Article
Submitted
12 May 2021
Accepted
06 Aug 2021
First published
10 Aug 2021

Nanoscale, 2021,13, 13943-13961

Emerging strategies based on nanomaterials for ionizing radiation-optimized drug treatment of cancer

X. Yi, M. Shen, X. Liu and J. Gu, Nanoscale, 2021, 13, 13943 DOI: 10.1039/D1NR03034E

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