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KMID : 0603720100160030143
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Journal of Korean Society of Medical Informatics
2010 Volume.16 No. 3 p.143 ~ p.148
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A New Method for Non-Invasive Measurement of Skin in the Low Frequency Range
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Kim Min-Soo
Cho Young-Chang
Seo Suk-Tae
Son Chang-Sik
Park Hee-Joon
Kim Yoon-Nyun
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Abstract
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Objectives The purpose of our study was to estimate skin structure and conductivity distribution in a cross section of local tissue using non-invasive measurement of impedance data. The present study was designed to evaluate the efficiency of skin depth information through computer simulations. The multilayer tissue model was composed of epidermis, dermis tissues, and subcutaneous.
Methods In this study, electrical characteristics of skin models were used for conductivity of 0.13 S/m, 0.26 S/m, 0.52 S/m, permittivity of 94,000 F/m, and a frequency of 200 Hz. The effect of the new method was assessed by computer simulations using three-electrode methods. A non-invasive electrical impedance method has been developed for analysis using computer simulation and a skin electrical model with low frequency range. Using the three-electrode method differences through the potentials between measurement electrodes and reference electrodes can be easily detected. The Cole electrical impedance model, which is better suited for skin was used in this study.
Results In this study, experiments using three-electrode methods were described by computer simulation based on a simple model. This electrical impedance model was fitted and developed in comparison with our model for measurement of skin impedance.
Conclusions The proposed electrical model for skin is suitable for use in interpretation of changes in impedance characterization of the skin. Using the computer simulation method, information on skin impedance depth can be more accurately developed and predicted.
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KEYWORD
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Non-invasive, Skin Electrical Model, Multilayer Tissue Model, Cole Model, Three Electrode Method
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