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Synergistic effect of photothermal and magnetic hyperthermia for in situ activation of Fenton reaction in tumor microenvironment for chemodynamic therapy

光热治疗 纳米棒 肿瘤微环境 芬顿反应 光热效应 热疗 化学 纳米材料 癌症治疗 癌症研究 催化作用 纳米技术 癌症 材料科学 肿瘤细胞 医学 生物化学 内科学
作者
Senthilkumar Thirumurugan,Pranjyan Dash,Yu‐Chien Lin,Rajalakshmi Sakthivel,Ying-Sui Sun,Ching‐Po Lin,Anni Wang,Xinke Liu,Udesh Dhawan,Ching‐Wei Tung,Ren‐Jei Chung
出处
期刊:Biomaterials advances [Elsevier BV]
卷期号:157: 213724-213724 被引量:5
标识
DOI:10.1016/j.bioadv.2023.213724
摘要

Traditional cancer treatments are ineffective and cause severe adverse effects. Thus, the development of chemodynamic therapy (CDT) has the potential for in situ catalysis of endogenous molecules into highly toxic species, which would then effectively destroy cancer cells. However, the shortage of high-performance nanomaterials hinders the broad clinical application of this approach. In present study, an effective therapeutic platform was developed using a simple hydrothermal method for the in-situ activation of the Fenton reaction within the tumor microenvironment (TME) to generate substantial quantities of •OH and ultimately destroy cancer cells, which could be further synergistically increased by photothermal therapy (PHT) and magnetic hyperthermia (MHT) aided by FeMoO4 nanorods (NRs). The produced FeMoO4 NRs were used as MHT/PHT and Fenton catalysts. The photothermal conversion efficiency of the FeMoO4 NRs was 31.75 %. In vitro and \ experiments demonstrated that the synergistic combination of MHT/PHT/CDT notably improved anticancer efficacy. This work reveals the significant efficacy of CDT aided by both photothermal and magnetic hyperthermia and offers a feasible strategy for the use of iron-based nanoparticles in the field of biomedical applications.
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