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KMID : 1144120170070030261
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Biomedical Engineering Letters
2017 Volume.7 No. 3 p.261 ~ p.266
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Design of a stimulation protocol to predict temperature distribution in subcutaneous tissue using the finite element model
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Myoung Hyoun-Seok
Kim Dong-Hyun
Kim Han-Sung
Lee Kyoung-Joung
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Abstract
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Moxibustion is a traditional Oriental medicine therapy that treats the symptoms of a disease with thermal stimulation. However, it is difficult to control the strength of the thermal or chemical stimulus generated by the various types and amounts of moxa and to prevent energy loss through the skin. To overcome these problems, we previously developed a method to efficiently provide RF thermal stimulation to subcutaneous tissue. In this paper, we propose a finite element model (FEM) to predict temperature distributions in subcutaneous tissue after radio-frequency thermal stimulation. To evaluate the performance of the developed FEM, temperature distributions were obtained from the FEM, and in vivo experiments were conducted using the RF stimulation system at subcutaneous tissue depths of 5 and 10 mm in the femoral region of a rabbit model. High correlation coefficients between simulated and actual temperature distributions?0.98 at 5 mm and 0.99 at 10 mm?were obtained, despite some slight errors in the temperature distribution at each depth. These results demonstrate that the FEM described here can be used to determine thermal stimulation profiles produced by RF stimulation of subcutaneous tissue.
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KEYWORD
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Radiofrequency stimulation, Finite element analysis, Bio-heat equation, Thermal stimulation
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