Electromagnetic–thermal field coupling in tissue ablation: The EAES design and optimization

Lu, Xiangyang; Huang, Jintao; Lu, Wanyu

doi:10.1063/5.0184484

AIP Advances

2024

DOI: 10.1063/5.0184484

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Electromagnetic–thermal field coupling in tissue ablation: The EAES design and optimization

Xiangyang Lu,

Jintao Huang,

Wanyu Lu

Abstract: The coupling control of multi-physics fields has become a focal issue in the engineering domain, especially for achieving a more precise simulation and prediction of physical phenomena. This approach plays a crucial role in enhancing design efficiency and optimizing material selection. Focusing primarily on the controllability between microwave and temperature fields, the Emission Area Extension Structure (EAES) is a novel structure in response to the demand for high circularity in microwave ablation. Finite e… Show more

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2024

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Cited by 1 publication

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Enhancing microwave ablation efficiency with segmented power strategy

Lu,

Huang,

2024

AIP Advances

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Microwave ablation is a highly efficacious method of treating cancer that employs electromagnetic radiation falling within the microwave spectrum. While it is highly effective in managing small to medium sized tumors, it demonstrates certain restrictions when applied to larger tumors. A network partition structure has been constructed to partition the tumor and its neighboring regions. A dynamic simulation has been facilitated through the establishment of a bidirectional coupling model between temperature and electromagnetic fields within the tissue, which was achieved through the design of dependency functions for tissue characteristics and temperature. A strategy for regulating the output of electromagnetic wave energy is presented: segmented microwave power control. The work, utilizing COMSOL Multiphysics simulation software, investigates the characteristics of electromagnetic propagation in the context of tissue properties and electromagnetic energy. Approaches to augment the efficiency of tissue energy absorption, broaden the scope of ablation, and diminish carbonization regions are delineated, thereby providing a theoretical foundation for large-area microwave ablation treatment with a single antenna.

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Enhancing microwave ablation efficiency with segmented power strategy

Lu,

Huang,

2024

AIP Advances

View full text Add to dashboard Cite

show abstract

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Electromagnetic–thermal field coupling in tissue ablation: The EAES design and optimization

Cited by 1 publication

References 29 publications

Enhancing microwave ablation efficiency with segmented power strategy

Enhancing microwave ablation efficiency with segmented power strategy

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