Analysis of electromagnetic heating patterns inside a cryopreserved organ

Journal of biomedical engineering Pub Date : 1992-11-01 DOI:10.1016/0141-5425(92)90097-5

X. Bai , D.E. Pegg , S. Evans , J.D.J. Penfold

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引用次数: 13

Abstract

Computer analysis of the induced electromagnetic field and heating distribution inside cryopreserved organs subjected to electromagnetic illumination at frequencies of 84 MHz 434 MHz and 2.45 GHz were carried out using a spherical model for the organ, with special reference to heating in a single-mode resonant cavity. The interaction between the frequency of the incident field and the size and dielectric properties of the sample was investigated. It is shown that uniform heating of organs is likely to be achieved at lower frequencies, as might be expected. However, the ratio between the power penetration depth for plane waves and the size of the organ is not a sufficient basis on which to judge quantitatively the uniformity of the power absorption. Hot or cold spots can occur within the organ even when this ratio is greater than unity; the wavelength in the material is also an important factor. The results from this study indicate that the use of a resonant cavity as a heating applicator has advantages over plane-wave illumination. A sharp upper limit can be set to the frequency suitable for rapid and uniform heating of a given organ.

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低温保存器官内电磁加热模式的分析

采用球形模型，对低温保存器官在84 MHz、434 MHz和2.45 GHz频率下的感应电磁场和加热分布进行了计算机分析，并特别参考了单模谐振腔的加热情况。研究了入射场频率与样品尺寸和介电性质的相互作用。结果表明，器官的均匀加热很可能在较低的频率下实现，正如人们所期望的那样。然而，平面波穿透功率深度与器官尺寸之比不足以定量判断吸收功率的均匀性。即使这个比例大于统一，器官内也会出现热点或冷点;材料中的波长也是一个重要因素。本研究结果表明，使用谐振腔作为加热装置比平面波照明具有优势。一个明显的上限可以设定为适合于快速和均匀加热给定器官的频率。

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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Journal of biomedical engineering

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