Design and Characterization of a Minimally Invasive Bipolar Electrode for Electroporation

Giulia Merola; Roberta Fusco; Elio Di Bernardo; Valeria D’Alessio; Francesco Izzo; Vincenza Granata; Deyanira Contartese; Matteo Cadossi; Alberto Audenino; Giacomo Perazzolo Gallo

doi:10.3390/biology9090303

Biology (Sep 2020)

Design and Characterization of a Minimally Invasive Bipolar Electrode for Electroporation

Giulia Merola,
Roberta Fusco,
Elio Di Bernardo,
Valeria D’Alessio,
Francesco Izzo,
Vincenza Granata,
Deyanira Contartese,
Matteo Cadossi,
Alberto Audenino,
Giacomo Perazzolo Gallo

Affiliations

Giulia Merola: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy
Roberta Fusco: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy
Elio Di Bernardo: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy
Valeria D’Alessio: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy
Francesco Izzo: Hepatobiliary Surgical Oncology Unit, “Istituto Nazionale Tumori IRCCS Fondazione Pascale—IRCCS di Napoli”, 80131 Naples, Italy
Vincenza Granata: Radiology Unit, “Istituto Nazionale Tumori IRCCS Fondazione Pascale—IRCCS di Napoli”, 80131 Naples, Italy
Deyanira Contartese: Complex Structure of Surgical Sciences and Technologies, IRCCS Istituto Ortopedico Rizzoli, Via di Barbiano 1/10, 40136 Bologna, Italy
Matteo Cadossi: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy
Alberto Audenino: Department of Mechanical and Aerospace Engineering, Politecnico di Torino, 10138 Turin, Italy
Giacomo Perazzolo Gallo: Oncology Medical and Research & Development Division, Igea SpA, 41012 Carpi, Italy

DOI: https://doi.org/10.3390/biology9090303
Journal volume & issue: Vol. 9, no. 9
p. 303

Abstract

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Objective: To test a new bipolar electrode for electroporation consisting of a single minimally invasive needle. Methods: A theoretical study was performed by using Comsol Multiphysics® software. The prototypes of electrode have been tested on potatoes and pigs, adopting an irreversible electroporation protocol. Different applied voltages and different geometries of bipolar electrode prototype have been evaluated. Results: Simulations and pre-clinical tests have shown that the volume of ablated area is mainly influenced by applied voltage, while the diameter of the electrode had a lesser impact, making the goal of minimal-invasiveness possible. The conductive pole’s length determined an increase of electroporated volume, while the insulated pole length inversely affects the electroporated volume size and shape; when the insulated pole length decreases, a more regular shape of the electric field is obtained. Moreover, the geometry of the electrode determined a different shape of the electroporated volume. A parenchymal damage in the liver of pigs due to irreversible electroporation protocol was observed. Conclusion: The minimally invasive bipolar electrode is able to treat an electroporated volume of about 10 mm in diameter by using a single-needle electrode. Moreover, the geometry and the electric characteristics can be selected to produce ellipsoidal ablation volumes.

Published in Biology

ISSN: 2079-7737 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Biology (General)
Website: https://www.mdpi.com/journal/biology

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