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X-ray-responsive prodrugs and polymeric nanocarriers for multimodal cancer therapy

Yufei Cao, Jiale Si, Moujiang Zheng, Qinghao Zhou, Zhishen Ge

2023Chemical Communications23 citationsDOI

Abstract

X-ray) for radiotherapy has the advantages of precise spatiotemporal controllability and deep tissue penetration. However, traditional radiotherapy is frequently limited by the high side effects and tumor hypoxia. The combination of radiotherapy and other cancer treatment modalities may overcome the disadvantages of radiotherapy and improve the final therapeutic efficacy. In recent years, X-ray-activable prodrugs and polymeric nanocarriers have been extensively explored to introduce other treatment modalities in the precise position during radiotherapy, which can reduce the side toxicity of the drugs and improve the combination therapeutic efficacy. In this review, we focus on recent advances in X-ray-activable prodrugs and polymeric nanocarriers to boost X-ray-based multimodal synergistic therapy with reduced toxicity. The design strategies of prodrugs and polymeric nanocarriers are highlighted. Finally, challenges and outlooks of X-ray-activable prodrugs and polymeric nanocarriers are discussed.

Topics & Concepts

NanocarriersProdrugMultimodal therapyCancer therapyCancerNanotechnologyMedicineChemistryMaterials sciencePharmacologyCombinatorial chemistryDrug deliveryInternal medicineNanoplatforms for cancer theranosticsNanoparticle-Based Drug DeliveryGraphene and Nanomaterials Applications
X-ray-responsive prodrugs and polymeric nanocarriers for multimodal cancer therapy | Litcius