This paper shows the optimization of the geometry of the needles for Electrochemotherapy in terms of position, size and applied voltage. The new μ-BiMO optimization algorithm based on Finite Element Analyses is applied. The goal is to improve the electric field distribution in non-homogeneous tissues. In order to visualize the electroporation efficiency in terms of electric field distribution, experimental results are also shown.
The μ-BiMO method for needle pair optimization in ECT
Sieni E.
2018-01-01
Abstract
This paper shows the optimization of the geometry of the needles for Electrochemotherapy in terms of position, size and applied voltage. The new μ-BiMO optimization algorithm based on Finite Element Analyses is applied. The goal is to improve the electric field distribution in non-homogeneous tissues. In order to visualize the electroporation efficiency in terms of electric field distribution, experimental results are also shown.
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