Chemodynamic Therapy via Fenton and Fenton-Like Nanomaterials: Strategies and Recent Advances.
Chenyang Jia,Yuxin Guo,Fu-Gen Wu +2 more
TLDR
In this article, the latest advancements in the nanomaterials-involved CDT from 2018 to the present and proposes the current limitations as well as future research directions in the related field.Abstract:
Chemodynamic therapy (CDT), a novel cancer therapeutic strategy defined as the treatment using Fenton or Fenton-like reaction to produce •OH in the tumor region, was first proposed by Bu, Shi, and co-workers in 2016. Recently, with the rapid development of Fenton and Fenton-like nanomaterials, CDT has attracted tremendous attention because of its unique advantages: 1) It is tumor-selective with low side effects; 2) the CDT process does not depend on external field stimulation; 3) it can modulate the hypoxic and immunosuppressive tumor microenvironment; 4) the treatment cost of CDT is low. In addition to the Fe-involved CDT strategies, the Fenton-like reaction-mediated CDT strategies have also been proposed, which are based on many other metal elements including copper, manganese, cobalt, titanium, vanadium, palladium, silver, molybdenum, ruthenium, tungsten, cerium, and zinc. Moreover, CDT has been combined with other therapies like chemotherapy, radiotherapy, phototherapy, sonodynamic therapy, and immunotherapy for achieving enhanced anticancer effects. Besides, there have also been studies that extend the application of CDT to the antibacterial field. This review introduces the latest advancements in the nanomaterials-involved CDT from 2018 to the present and proposes the current limitations as well as future research directions in the related field.read more
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Strategies for enhancing cancer chemodynamic therapy performance
TL;DR: In this article , the fundamental understanding of Fenton and Fenton-like reactions and their relationship with CDT is highlighted in a general manner, and recent advancement of the strategies to augment Fenton reactions in tumor microenvironment (TME) for enhanced CDT are discussed in detail.
Journal ArticleDOI
Growth of Cu2O Nanoparticles on Two-Dimensional Zr-Ferrocene-Metal-Organic Framework Nanosheets for Photothermally Enhanced Chemodynamic Antibacterial Therapy.
Xinshu Zhao,Xiaojun He,Aidi Hou,Chunhua Cheng,Xingnan Wang,Yuanjing Yue,Zhi-Biao Wu,Haixia Wu,Baozhong Liu,Hai Li,Jia Wei Shen,Chaoliang Tan,Zhan Zhou,Lu-Fang Ma +13 more
TL;DR: In this article , the growth of Cu2O nanoparticles on 2D Zr-ferrocene (Zr-Fc)-MOF nanosheets to prepare 2D composites for near-infrared (NIR) photothermally enhanced chemodynamic antibacterial therapy was reported.
Journal ArticleDOI
Recent advances in nano-architectonics of metal-organic frameworks for chemodynamic therapy
Xiaolin Tan,Donghui Liao,Congying Rao,Lu-Jun Zhou,Zhi-Cheng Tan,Yingying Pan,Amita Joshi Singh,Abhinav Kumar,Jianqiang Liu,Bao-Hong Li +9 more
TL;DR: In this paper , the latest advancements in metal-organic frameworks (MOFs) finding applications in chemicalodynamic therapy (CDT) are discussed and summarized, and the MOFs could be functionalized appropriately to enhance CDT-triggered apoptosis and achieve anti-tumor effects.
Journal ArticleDOI
Extended Conjugation Refining Carbon Nitride for Non-sacrificial H2O2 Photosynthesis and Hypoxic Tumor Therapy.
Jin Ma,Xiaoxiao Peng,Hong Yang,Kaiqing Wu,Zhengzou Fang,Dan Han,Yanfeng Fang,Songqin Liu,Yanfei Shen,Yuanjian Zhang +9 more
TL;DR: In this paper , a conjugated C=N linkage was proposed for non-sacrificial H2O2 production both in normoxic and hypoxic systems, and the strengthened delocalization of π-electrons by linkers in C5N2 downshifted the band position, thermodynamically eliminating the side H2 evolution and kinetically promoting the water oxidation.
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A Smart Near‐Infrared Carbon Dot‐Metal Organic Framework Assemblies for Tumor Microenvironment‐Activated Cancer Imaging and Chemodynamic‐Photothermal Combined Therapy
TL;DR: Smart near‐infrared carbon dot‐metal organic framework MIL‐100 (Fe) assemblies are constructed to achieve TME‐activated cancer imaging and chemodynamic‐photothermal combined therapy, which achieves chemodynamic therapy of tumors.
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