Viability of Jurkat cells was analyzed after exposure to 500, 1.3 MV/m, 40 ns pulsed electric fields with variable pulse repetition rate PRR (2Hz-30Hz). A finite element model was used to investigate electroporation dynamics in a single cell under the same pulsing conditions by looking at the dynamics of both the transmembrane voltage and the pore density at the anodic and cathodic poles.
Numerical and Experimental Analysis of Electroporation in Mammalian Cells Exposed to ns Pulsed Electric Fields
LAMBERTI, PATRIZIA;TUCCI, Vincenzo;
2014-01-01
Abstract
Viability of Jurkat cells was analyzed after exposure to 500, 1.3 MV/m, 40 ns pulsed electric fields with variable pulse repetition rate PRR (2Hz-30Hz). A finite element model was used to investigate electroporation dynamics in a single cell under the same pulsing conditions by looking at the dynamics of both the transmembrane voltage and the pore density at the anodic and cathodic poles.File in questo prodotto:
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