SAR analysis of resonant cavity applicator using dielectric bolus with anatomical human model by finite element method

机译：介电团与人体模型的共振腔涂抹器的SAR有限元分析

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

In this study, we propose a new heating method using a resonant cavity applicator to control the heated area using a dielectric bolus. The dielectric bolus is filled with a dielectric material such as water and is attached to a human head inside the cavity. In this paper, first, the proposed heating method using the dielectric bolus was described. Second, a 3-D anatomical human head model, which was constructed from 2-D MRI and X-ray CT images, was presented. Finally, from the results of specific absorption rate (SAR) distributions using 3-D FEM, it was shown that the heated area inside a human brain could be controlled by changing the electromagnetic field distribution. From these results, it was found that the proposed method for controlling the heated area was useful for effective hyperthermia treatments.

机译：在这项研究中，我们提出了一种使用谐振腔施加器的新加热方法，以利用介电弹丸控制加热区域。介电团填充有诸如水的介电材料，并附着在空腔内的人头上。在本文中，首先，描述了使用介电弹丸的建议加热方法。其次，提出了一种由2-D MRI和X射线CT图像构建的3-D解剖人体头部模型。最后，根据使用3-D FEM的比吸收率（SAR）分布的结果，表明可以通过更改电磁场分布来控制人脑内部的加热区域。从这些结果发现，所提出的控制加热区域的方法对于有效的高温治疗是有用的。

著录项

来源
《2013 7th International Symposium on Medical Information and Communication Technology : Towards Better Personalized Medicine and Healthcare》|2013年|203-207|共5页
会议地点 Tokyo(JP);Tokyo(JP)
作者
Iseki Yuya; Arakawa Jiro; Watanabe Kazuki; Kato Kazuo;
展开▼
作者单位

Graduate School of Science and Technology Meiji University Kanagawa, Japanc;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
3-D anatomical human head model; FEM; dielectric bolus; hyperthermia treatment; resonant cavity applicator;

机译：3-D解剖人体头部模型；有限元；介电推注；体温过高治疗；共振腔涂药器；;

相似文献

外文文献
中文文献
专利

1. Finite-element-analysis models for numerical simulation of partial discharges in spherical cavities within solid dielectrics: a review and a novel method [J] . Rodriguez-Serna Johnatan M., Albarracin-Sanchez Ricardo, Masud Abdullahi A. High Voltage . 2020,第5期

机译：固体电介质中球腔中局部排出数值模拟的有限元分析模型：综述与新方法
2. Efficient analysis of resonant cavities by finite element method in the time domain [J] . Carpes W.P. Jr., Pichon L. IEE Proceedings. Part H . 2000,第1期

机译：时域有限元方法有效分析谐振腔
3. Efficient analysis of resonant cavities by finite element method in the time domain [J] . W.R.Carpes Jr, L.Pichon, A.Razek IEE Proceedings. Part H . 2000,第1期

机译：时域有限元方法有效分析谐振腔
4. SAR analysis of resonant cavity applicator using dielectric bolus with anatomical human model by finite element method [C] . Iseki Yuya, Arakawa Jiro, Watanabe Kazuki, International Symposium on Medical Information and Communication Technology . 2013

机译：用有限元法用介电推注谐振腔涂抹器的SAR分析
5. Finite element methods for the electromagnetic modeling of waveguide discontinuities and cavity resonators. [D] . Wilkins, Gregory Martine. 1992

机译：波导不连续和腔谐振器电磁建模的有限元方法。
6. Comparative finite-element analysis: a single computational modelling method can estimate the mechanical properties of porcine and human vertebrae [O] . K. Robson Brown, S. Tarsuslugil, V. N. Wijayathunga, 2014

机译：有限元比较分析：单一的计算建模方法可以估算猪和人椎骨的力学性能
7. Analysis of a Reentrant Resonant Cavity Applicator for Cancer Therapy by 3-D Finite Element Method using Edge Element [O] . 塚本敏男, 金井靖, Tsukamoto Toshio, 1995

机译：使用边缘元素的3-D有限元方法分析可折返共振腔施药器用于癌症治疗

SAR analysis of resonant cavity applicator using dielectric bolus with anatomical human model by finite element method

摘要

著录项

相似文献

相关主题

期刊订阅