2026-04-17T13:25:18Zhttps://recercat.cat/oai/request

oai:recercat.cat:10230/468922025-12-20T16:51:30Zcom_2072_6col_2072_452952

RECERCAT author García Sánchez, Tomás author Voyer, Damien author Poignard, Clair author Mir, Lluis M. 2021-03-23T08:22:17Z2020 This study presents electrical measurements (both conductivity during the pulses and impedance spectroscopy before and after) performed in liver tissue of mice during electroporation with classical electrochemotherapy conditions (8 pulses of 100 µs duration). A four-needle electrode arrangement inserted in the tissue was used for the measurements. The undesirable effects of the four-electrode geometry, notably concerning its sensitivity, were quantified and discussed showing how the electrode geometry chosen for the measurements can impact the results. Numerical modelling was applied to the information collected during the pulse, and to the impedance spectra acquired before and after the pulses sequence. Our results show that the numerical results were not consistent, suggesting that other collateral phenomena not considered in the model are at work during electroporation in vivo. We show how the modification in the volume of the intra and extra cellular media, likely caused by the vascular lock effect, could at least partially explain the recorded impedance evolution. In the present study we demonstrate the significant impact that physiological effects have on impedance changes following electroporation at the tissue scale and the potential need of introducing them into the numerical models. The code for the numerical model is publicly available at https://gitlab.inria.fr/poignard/4-electrode-system.This work was partially funded by the ITMO Cancer in the frame of the Plan Cancer 2014–2019 (projects PC201515 an PC201615) and “La Ligue contre le Cancer” postdoctoral fellowship program. The authors thank the funding support of the CNRS, Gustave Roussy, Univ. Paris-Sud and Université Paris-Saclay. The authors declare no conflict of interest. DV and CP are grateful to Annabelle Collin, Assistant Professor at Bordeaux INP, for helpful discussions and advices on the implementation of the numerical method. © Elsevier http://dx.doi.org/10.1016/j.bioelechem.2020.107627 info:eu-repo/semantics/openAccess Electrical measurements Electrochemotherapy Physiological changes may dominate the electrical properties of liver during reversible electroporation: Measurements and modelling info:eu-repo/semantics/article info:eu-repo/semantics/acceptedVersion