Electric field computation and measurements in the electroporation of inhomogeneous samples

Electric field computation and measurements in the electroporation of inhomogeneous samples

In clinical treatments of a class of tumors, e.g. skin tumors, the drug uptake of tumor tissue is helped by means of a pulsed electric field, which permeabilizes the cell membranes. This technique, which is called electroporation, exploits the conductivity of the tissues: however, the tumor tissue c...

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Bibliographic Details
Main Authors: Bernardis Alessia, Bullo Marco, Campana Luca Giovanni, Di Barba Paolo, Dughiero Fabrizio, Forzan Michele, Mognaschi Maria Evelina, Sgarbossa Paolo, Sieni Elisabetta
Format: Article
Language:English
Published: De Gruyter 2017-12-01
Series:Open Physics
Subjects:
clinical electroporation
electric field model
equivalent circuit
resistivity identification
potato samples
87.50.c
07.05.tp
Online Access:https://doi.org/10.1515/phys-2017-0092
Description
Summary:In clinical treatments of a class of tumors, e.g. skin tumors, the drug uptake of tumor tissue is helped by means of a pulsed electric field, which permeabilizes the cell membranes. This technique, which is called electroporation, exploits the conductivity of the tissues: however, the tumor tissue could be characterized by inhomogeneous areas, eventually causing a non-uniform distribution of current. In this paper, the authors propose a field model to predict the effect of tissue inhomogeneity, which can affect the current density distribution. In particular, finite-element simulations, considering non-linear conductivity against field relationship, are developed. Measurements on a set of samples subject to controlled inhomogeneity make it possible to assess the numerical model in view of identifying the equivalent resistance between pairs of electrodes.
ISSN:2391-5471

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