Dielectric Resonators for Microwave Hyperthermia

Advanced Materials & Technologies Pub Date : 2024-09-09 DOI:10.1002/admt.202400896

Jinqing Cao, Song Gao, Qian Zhang, Yawei Liu, Jianchun Xu, Kai Liu, Ke Bi

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Abstract

Hyperthermia, utilizing various types of energy sources such as microwaves, holds great promise for cancer treatment. The intense interaction between microwaves and substances during hyperthermia can produce heat efficiently, leading to the inactivation of cancer cells. Mie‐type resonance is widely studied in the regulation of electromagnetic waves, offering a new perspective for microwave hyperthermia. In this study, a Mie‐type dielectric resonator is reported for microwave hyperthermia using high‐permittivity and temperature‐stable ceramic. The proposed dielectric particles have the characteristics of compact size, low cost, and excellent biocompatibility. The resonant frequency of the system can be finely tuned through material design and arrangement, thus expanding its potential application scenarios. The dielectric particles can be rapidly heated under microwave irradiation, thereby enabling effective hyperthermia to eliminate cancer cells. This work demonstrates the potential of a safe and tunable Mie‐type dielectric resonator in microwave hyperthermia, which is expected to promote further research on Mie‐type resonance in the biomedical field.

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用于微波热疗的介质谐振器

利用微波等各种能源的热疗在癌症治疗方面大有可为。在热疗过程中，微波与物质之间的强烈相互作用能有效产生热量，导致癌细胞失活。米氏共振在电磁波调控中被广泛研究，为微波热疗提供了一个新的视角。本研究报告了一种米氏型介质谐振器，该谐振器使用了高容限和温度稳定的陶瓷，可用于微波热疗。所提出的介质颗粒具有体积小、成本低、生物相容性好等特点。该系统的谐振频率可通过材料设计和排列进行微调，从而扩大了其潜在的应用范围。在微波照射下，电介质颗粒可以迅速加热，从而实现有效的热疗，消除癌细胞。这项工作证明了安全、可调谐的米氏介质谐振器在微波热疗中的潜力，有望推动生物医学领域对米氏谐振的进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Advanced Materials & Technologies

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