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Evaluation of methods for reducing edge current density under electrode arrays for tumor-treating fields therapy

Authors
Sung, HeehunJo, YunhuiOh, GeonGi, YonghaKim, HyunwooPark, SangminSeo, JaehyeonYoon, Myonggeun
Issue Date
Jul-2022
Publisher
WILEY
Keywords
current density; edge current; electrode arrays; tumor-treating fields
Citation
MEDICAL PHYSICS, v.49, no.7, pp 4837 - 4844
Pages
8
Indexed
SCIE
SCOPUS
Journal Title
MEDICAL PHYSICS
Volume
49
Number
7
Start Page
4837
End Page
4844
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/189990
DOI
10.1002/mp.15773
ISSN
0094-2405
2473-4209
Abstract
Background Tumor-treating fields (TTFields) therapy is increasingly utilized clinically because of its demonstrated efficacy in cancer treatment. However, the risk of skin burns must still be reduced to improve patient safety and posttreatment quality of life. Purpose The purpose of this study was to evaluate the methods of constructing electrode arrays that reduce current density exceeding threshold values, which can cause skin burns during TTFields therapy. Methods Electrode and body models were generated using COMSOL software. The body model had the dielectric properties of the scalp. The average current density beneath the central region of the electrode was maintained at similar to 31 mA/cm(2) RMS. The deviations in current density at the edges of the electrode were reduced by three methods: adjustment of the ceramic thickness ratio of the center to the edge from 1/5 to 4/5, adjustment of the radius of the metal plate from 5.0 to 8.0 mm, and insertion of an insulator of width 0.5 to 2 mm at the edge. Results While using a single circular electrode, adjustment of the ceramic thickness ratio, adjustment of the metal plate radius, and insertion of an insulator near the edge reduced the deviations of current density by 14.6%, 67.7%, and 75.3%, respectively. Similarly, while using circular electrode arrays, inserting an insulator at the edge of each electrode reduced the deviations of current density significantly, from 8.62 to 2.40 mA/cm(2). Conclusions Insertion of an insulator at the edge of each electrode was found to be the most effective method of attaining uniform current density distribution beneath the electrode, thereby lowering the risk of adverse effects of TTFields therapy.
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