Cerium-based nanoparticles for cancer photodynamic therapy

Hui Li; Min Wei; Xinyi Lv; Yanling Hu; Jinjun Shao; Xuejiao Song; Dongliang Yang; Wenjun Wang; Buhong Li; Xiaochen Dong

doi:10.1142/S1793545822300099

Cerium-based nanoparticles for cancer photodynamic therapy

Hui Li, Min Wei, Xinyi Lv, Yanling Hu, Jinjun Shao, Xuejiao Song, Dongliang Yang, Wenjun Wang, Buhong Li, Xiaochen Dong

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Metal- and metal-oxide-based nanoparticles have been widely exploited in cancer photodynamic therapy (PDT). Among these materials, cerium-based nanoparticles have drawn extensive attention due to their superior biosafety and distinctive physicochemical properties, especially the reversible transition between the valence states of Ce(III) and Ce(IV). In this review, the recent advances in the use of cerium-based nanoparticles as novel photosensitizers for cancer PDT are discussed, and the activation mechanisms for electron transfer to generate singlet oxygen are presented. In addition, the types of cerium-based nanoparticles used for PDT of cancer are summarized. Finally, the challenges and prospects of clinical translations of cerium-based nanoparticles are briefly addressed.

Original language	English
Article number	2230009
Journal	Journal of Innovative Optical Health Sciences
Volume	15
Issue number	6
DOIs	https://doi.org/10.1142/S1793545822300099
State	Published - 1 Nov 2022

Keywords

Photodynamic therapy
cerium
photosensitizer
reactive oxygen species

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1142/S1793545822300099

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title = "Cerium-based nanoparticles for cancer photodynamic therapy",

abstract = "Metal- and metal-oxide-based nanoparticles have been widely exploited in cancer photodynamic therapy (PDT). Among these materials, cerium-based nanoparticles have drawn extensive attention due to their superior biosafety and distinctive physicochemical properties, especially the reversible transition between the valence states of Ce(III) and Ce(IV). In this review, the recent advances in the use of cerium-based nanoparticles as novel photosensitizers for cancer PDT are discussed, and the activation mechanisms for electron transfer to generate singlet oxygen are presented. In addition, the types of cerium-based nanoparticles used for PDT of cancer are summarized. Finally, the challenges and prospects of clinical translations of cerium-based nanoparticles are briefly addressed.",

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T1 - Cerium-based nanoparticles for cancer photodynamic therapy

AU - Li, Hui

AU - Wei, Min

AU - Lv, Xinyi

AU - Hu, Yanling

AU - Shao, Jinjun

AU - Song, Xuejiao

AU - Yang, Dongliang

AU - Wang, Wenjun

AU - Li, Buhong

AU - Dong, Xiaochen

PY - 2022/11/1

Y1 - 2022/11/1

N2 - Metal- and metal-oxide-based nanoparticles have been widely exploited in cancer photodynamic therapy (PDT). Among these materials, cerium-based nanoparticles have drawn extensive attention due to their superior biosafety and distinctive physicochemical properties, especially the reversible transition between the valence states of Ce(III) and Ce(IV). In this review, the recent advances in the use of cerium-based nanoparticles as novel photosensitizers for cancer PDT are discussed, and the activation mechanisms for electron transfer to generate singlet oxygen are presented. In addition, the types of cerium-based nanoparticles used for PDT of cancer are summarized. Finally, the challenges and prospects of clinical translations of cerium-based nanoparticles are briefly addressed.

AB - Metal- and metal-oxide-based nanoparticles have been widely exploited in cancer photodynamic therapy (PDT). Among these materials, cerium-based nanoparticles have drawn extensive attention due to their superior biosafety and distinctive physicochemical properties, especially the reversible transition between the valence states of Ce(III) and Ce(IV). In this review, the recent advances in the use of cerium-based nanoparticles as novel photosensitizers for cancer PDT are discussed, and the activation mechanisms for electron transfer to generate singlet oxygen are presented. In addition, the types of cerium-based nanoparticles used for PDT of cancer are summarized. Finally, the challenges and prospects of clinical translations of cerium-based nanoparticles are briefly addressed.

KW - Photodynamic therapy

KW - cerium

KW - photosensitizer

KW - reactive oxygen species

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M3 - 文章

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Cerium-based nanoparticles for cancer photodynamic therapy

Abstract

Keywords

UN SDGs

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