Variability of the Dielectric Properties Due to Tissue Heterogeneity and Its Influence on the Development of EM Phantoms

Electromagnetic phantoms are either software tools or physical materials that emulate the dielectric properties of biological tissues. Among them, muscle, fat and skin phantoms are some of the most used ones. For their proper development, careful knowledge of the dielectric properties of their respe...

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Bibliographic Details
Main Authors: Fornes-Leal, A., Garcia-Pardo, C., Castello-Palacios, S., Cardona, N., Frasson, M., Nevarez, A., Beltran, V. Pons
Format: Conference Proceeding
Language:English
Subjects:
Dielectric measurement
dielectric properties
Dielectrics
Electromagnetic phantoms
Fats
In vivo
Muscles
open-ended coaxial
Phantoms
Skin
tissue characterization
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Summary:Electromagnetic phantoms are either software tools or physical materials that emulate the dielectric properties of biological tissues. Among them, muscle, fat and skin phantoms are some of the most used ones. For their proper development, careful knowledge of the dielectric properties of their respective real tissues is required. In general, the data of a measurement campaign-Gabriel's database generally - are used as target reference values, without considering their variability due to issues such as tissue heterogeneity, sample condition or subject's age. These aspects may have a significant impact in the range of the values of the dielectric properties, and thus using just their mean values may not be the best choice for all kinds of experiments. In this paper, the variability of the in vivo dielectric properties of abdominal tissues such as muscle, fat, skin, stomach serosa, small intestine serosa and colon serosa due to their heterogeneity is presented. For this purpose, a measurement campaign has been performed on 3 different porcine subjects using the open-ended coaxial method in the 0.5-26.5 GHz frequency band. Several measurements were driven in different tissue locations of each specimen. The mean values are compared to in vivo measurements presented in literature so far, whereas possible implications of tissue heterogeneity for developing phantoms for certain applications are briefly discussed.
ISSN:2166-9589
DOI:10.1109/PIMRC.2018.8580867