2017 14th International Conference on Synthesis, Modeling, Analysis and Simulation Methods and Applications to Circuit Design ( 2017
DOI: 10.1109/smacd.2017.7981596
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Electrical resistance in inhomogeneous samples during electroporation

Abstract: In electrochemotherapy (ECT), electric field is applied by means of needle pairs to the tumor tissue in order to permeabilize cell membranes and, as a consequence, enhance the effects of chemotherapeutic drugs. The target tissue is not homogeneous and the electric field, generated by the needle pairs, is strongly affected by the specific electrical characteristics of different tissues. This paper analyzes the effect of tissue in homogeneity by means of numerical models and suitable experiments

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Cited by 8 publications
(19 citation statements)
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“…In Equation , the conductivity, σ [S/m], could be constant or dependent on the electric field intensity, E [V/m]. In particular, a model to describe the variation of potato conductivity dependence on electric field intensity is σ()E=()σ0+σ1σ02()1+tanh()kv()EEth where σ 0 and σ EP , in [S/m], are the conductivity measured for the nonelectroporated and electroporated tissues, respectively, and k v and E th are parameters obtained fitting the experimental data as in Campana et al and Dughiero et al E th in [V/cm] is the threshold of electric field intensity approximately close to the electroporation threshold, and k v in [cm/V] is a parameter that manages the transition from electroporated and not electroporated tissue that in Kavian et al was defined as “speed of the switch” not electroporated to electroporated tissue.…”
Section: Methodssupporting
confidence: 90%
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“…In Equation , the conductivity, σ [S/m], could be constant or dependent on the electric field intensity, E [V/m]. In particular, a model to describe the variation of potato conductivity dependence on electric field intensity is σ()E=()σ0+σ1σ02()1+tanh()kv()EEth where σ 0 and σ EP , in [S/m], are the conductivity measured for the nonelectroporated and electroporated tissues, respectively, and k v and E th are parameters obtained fitting the experimental data as in Campana et al and Dughiero et al E th in [V/cm] is the threshold of electric field intensity approximately close to the electroporation threshold, and k v in [cm/V] is a parameter that manages the transition from electroporated and not electroporated tissue that in Kavian et al was defined as “speed of the switch” not electroporated to electroporated tissue.…”
Section: Methodssupporting
confidence: 90%
“…Gelatine (bought at local market), deionized water, agar (Meat Liver Agar Sigma‐Aldrich 46379), corn starch (bought at local market), glycerine, and sodium chloride (NaCl) were used as received. The list and amount of ingredients used for gel preparation is reported in Table …”
Section: Methodsmentioning
confidence: 99%
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