Add to ORKGThis study first considers that voltages of cellular organelle membranes could significanly surpass these of plasma membranes under the influence of ultrashort and high-intensity electric pulse. This is due to the voltages induced on the membrane. Using an approximate theory coordinated with the Kotnik's analytical method, considering the electroporation, we focus on the reactions of cell membranes placed in a trapezoidal pulse. Then, we discuss conductive power dissipations of normal cell and cancer cell generated by a sinusoidal exposure which include dielectric relaxation effects. In comparison with the complex numerical calculations of Joshi \textit{et al}, our results are in very good agreement
This dissertation research focuses on the new field of pulsed electric field interactions with biolo...
AbstractIntracellular effects of submicrosecond, megavolt-per-meter pulses imply changes in a cell's...
The temporal dynamics of electroporation of cells subjected to ultrashort voltage pulses are studied...
The dynamics of electroporation of biological cells subjected to nanosecond, high intensity pulses a...
AbstractSeveral reports have recently been published on effects of very short and intense electric p...
An improved electroporation model is used to address membrane irreversibility under ultrashort elect...
AbstractA simple electrical model for living cells predicts an increasing probability for electric f...
Science increasingly involves complex modeling. Here we describe a model for cell electroporation in...
In this thesis, modelling and simulation of the effects of electric fields on a single spherical cel...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
A model analysis of electroporation dynamics in biological cells has been carried out based on the S...
AbstractAn increased permeability of a cell membrane during the application of high-voltage pulses r...
AbstractElectroporation uses electric pulses to promote delivery of DNA and drugs into cells. This s...
AbstractTreatment of biological material by pulsed electric fields is a versatile technique in biote...
AbstractDielectrophoresis was employed to distinguish the electroporated from non-electroporated cel...
This dissertation research focuses on the new field of pulsed electric field interactions with biolo...
AbstractIntracellular effects of submicrosecond, megavolt-per-meter pulses imply changes in a cell's...
The temporal dynamics of electroporation of cells subjected to ultrashort voltage pulses are studied...
The dynamics of electroporation of biological cells subjected to nanosecond, high intensity pulses a...
AbstractSeveral reports have recently been published on effects of very short and intense electric p...
An improved electroporation model is used to address membrane irreversibility under ultrashort elect...
AbstractA simple electrical model for living cells predicts an increasing probability for electric f...
Science increasingly involves complex modeling. Here we describe a model for cell electroporation in...
In this thesis, modelling and simulation of the effects of electric fields on a single spherical cel...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
A model analysis of electroporation dynamics in biological cells has been carried out based on the S...
AbstractAn increased permeability of a cell membrane during the application of high-voltage pulses r...
AbstractElectroporation uses electric pulses to promote delivery of DNA and drugs into cells. This s...
AbstractTreatment of biological material by pulsed electric fields is a versatile technique in biote...
AbstractDielectrophoresis was employed to distinguish the electroporated from non-electroporated cel...
This dissertation research focuses on the new field of pulsed electric field interactions with biolo...
AbstractIntracellular effects of submicrosecond, megavolt-per-meter pulses imply changes in a cell's...
The temporal dynamics of electroporation of cells subjected to ultrashort voltage pulses are studied...