• Title of article

    Finite Element Analysis of Cell Killing Probability in Electroporation with Single Bipolar Electrode

  • Author/Authors

    Khorasani, Amir Department of Medical Physics - School of Medicine - Isfahan University of Medical Sciences, Isfahan, Iran

  • Pages
    6
  • From page
    20
  • To page
    25
  • Abstract
    In the electroporation we can use different electrode types such as needle and plate electrode with different arrangements. One of the new electrode types is single bipolar electrode which the anode and cathode components are in the same needle for decreasing the invasiveness of electroporation procedure. For treatment planning purposes we can use different cell killing probability models such as Peleg-Fermi model. The aim of this study is, investigate the impact of geometric electrode parameters such as conductive pole length, insulated pole length and pulse voltage in bipolar electrode on the cell killing probability distribution in electroporation by COMSOL Multiphysics. The target tissue volume with cell killing probability >80% increased with conductive pole length, and voltage and decreased with insulated pole length. This paper has highlighted the importance of conductive and insulated pole length and voltage in bipolar electrode on the cell killing probability distribution and electroporated volume in the EP.
  • Keywords
    Bipolar Electrode , Cell Killing Probability , Irreversible Electroporation , Finite Element Analysis , Cell Killing Probability
  • Journal title
    Frontiers in Biomedical Technologies
  • Serial Year
    2021
  • Record number

    2701137