Electroporationis an effective method to deliver drugs into tumor cells to kill them, by applying a pulsed electric field to the cellular membrane [1, 2]. Existing electrodes consist of clamping claws or arrays of needles and can be effectively applied only to small areas. New electrodes that can treat large areas are sought; flexibility is needed to adapt to irregular tumor shape and, to be folded to enter from small surgical opening. In this work we present the design and test of a 16 cm2 flexible electrode for electroporation with biosensing capabilities, built with standard flexible circuit technologies enclosed in a biocompatible package. The electrode contains electronics to provide cryptography-based identification to the electroporation machine to avoid setup errors and protection against use of counterfeited electrodes. In-vitro tests of the electrode show that electroporation occurs up to a depth of 8 mm with 100% electroporation efficiency over the 30% of electrode area. Temperature rise on the electrode during treatment does not exceed 6 degrees celsius, a value that not causes damage to the cells. © 2013 IEEE.
Smart flexible planar electrodes for electrochemotherapy and biosensing / Nenzi, Paolo; Denzi, Agnese; Kholostov, Konstantin; Crescenzi, Rocco; Apollonio, Francesca; Liberti, Micaela; Marracino, Paolo; Alessia, Ongaro; Ruggero, Cadossi; Balucani, Marco. - 2013:(2013), pp. 486-493. (Intervento presentato al convegno 2013 IEEE 63rd Electronic Components and Technology Conference, ECTC 2013 tenutosi a Las Vegas; USA) [10.1109/ectc.2013.6575616].
Smart flexible planar electrodes for electrochemotherapy and biosensing
NENZI, Paolo;DENZI, AGNESE;KHOLOSTOV, KONSTANTIN;CRESCENZI, Rocco;APOLLONIO, Francesca;LIBERTI, Micaela;MARRACINO, PAOLO;BALUCANI, Marco
2013
Abstract
Electroporationis an effective method to deliver drugs into tumor cells to kill them, by applying a pulsed electric field to the cellular membrane [1, 2]. Existing electrodes consist of clamping claws or arrays of needles and can be effectively applied only to small areas. New electrodes that can treat large areas are sought; flexibility is needed to adapt to irregular tumor shape and, to be folded to enter from small surgical opening. In this work we present the design and test of a 16 cm2 flexible electrode for electroporation with biosensing capabilities, built with standard flexible circuit technologies enclosed in a biocompatible package. The electrode contains electronics to provide cryptography-based identification to the electroporation machine to avoid setup errors and protection against use of counterfeited electrodes. In-vitro tests of the electrode show that electroporation occurs up to a depth of 8 mm with 100% electroporation efficiency over the 30% of electrode area. Temperature rise on the electrode during treatment does not exceed 6 degrees celsius, a value that not causes damage to the cells. © 2013 IEEE.| File | Dimensione | Formato | |
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