TY - JOUR
T1 - The Complex Permittivity of Biological Tissues
T2 - A Practical Measurement Guideline
AU - Farrugia, Lourdes
AU - Porter, Emily
AU - Conceição, Raquel C.
AU - Di Meo, Simona
AU - Godinho, Daniela M.
AU - Bonello, Julian
AU - Ragulskis, Mykolas
AU - Ocket, Ilja
AU - Farina, Laura
AU - Cavagnaro, Marta
AU - Peyman, Azadeh
N1 - Publisher Copyright:
© 2013 IEEE.
PY - 2024
Y1 - 2024
N2 - Despite the significant number of studies published on the measurements of complex permittivity of biological tissues in the last thirty years, implementing a successful measurement program for dielectric measurements can still present a challenge for researchers. Most problems are not theoretical but of methodological or practical nature. In this article, lessons learned from experiences with goal-oriented measurements are presented by structuring them into practical guidelines for efficient and useful measurements of dielectric properties of biological tissues, aimed at addressing gaps in knowledge. Issues related to calibration, validation of the measurement system and data collection procedures are addressed from a practical perspective. This will help support reproducibility of measurements. In addition, guidelines for data analysis and data reporting are provided. The latter is also supported by a data analysis tool developed in MATLAB, made available as open source. This facilitates the harmonisation and merging of different datasets, ease of interpreting and re-using of data and comparison of data across studies. Additionally, a data repository is presented for uploading of dielectric data of biological tissues, along with the corresponding meta-data describing the experiments. These guidelines are the result of the work carried out by a dedicated working group in the project COST Action MyWAVE.
AB - Despite the significant number of studies published on the measurements of complex permittivity of biological tissues in the last thirty years, implementing a successful measurement program for dielectric measurements can still present a challenge for researchers. Most problems are not theoretical but of methodological or practical nature. In this article, lessons learned from experiences with goal-oriented measurements are presented by structuring them into practical guidelines for efficient and useful measurements of dielectric properties of biological tissues, aimed at addressing gaps in knowledge. Issues related to calibration, validation of the measurement system and data collection procedures are addressed from a practical perspective. This will help support reproducibility of measurements. In addition, guidelines for data analysis and data reporting are provided. The latter is also supported by a data analysis tool developed in MATLAB, made available as open source. This facilitates the harmonisation and merging of different datasets, ease of interpreting and re-using of data and comparison of data across studies. Additionally, a data repository is presented for uploading of dielectric data of biological tissues, along with the corresponding meta-data describing the experiments. These guidelines are the result of the work carried out by a dedicated working group in the project COST Action MyWAVE.
KW - Complex permittivity
KW - dielectric properties
KW - electromagnetic medical devices
KW - open-ended coaxial probe
KW - tissues
UR - http://www.scopus.com/inward/record.url?scp=85182950724&partnerID=8YFLogxK
U2 - 10.1109/ACCESS.2024.3352728
DO - 10.1109/ACCESS.2024.3352728
M3 - Article
AN - SCOPUS:85182950724
SN - 2169-3536
VL - 12
SP - 10296
EP - 10314
JO - IEEE Access
JF - IEEE Access
ER -