Add to ORKGABSTRACT Electroporation uses electric pulses to promote delivery of DNA and drugs into cells. This study presents a model of electroporation in a spherical cell exposed to an electric field. The model determines transmembrane potential, number of pores, and distribution of pore radii as functions of time and position on the cell surface. For a 1-ms, 40 kV/m pulse, electroporation consists of three stages: charging of the cell membrane (0-0.51 ms), creation of pores (0.51-1.43 ms), and evolution of pore radii (1.43 ms to 1 ms). This pulse creates ;341,000 pores, of which 97.8% are small (%1 nm radius) and 2.2% are large. The average radius of large pores is 22.8 6 18.7 nm, although some pores grow to 419 nm. The highest pore density occurs ...
Electroporation has become a powerful tool for nonviral delivery of various biomolecules such as nuc...
AbstractThis study expands a previously developed model of a single cell electroporated by an extern...
Traditionally, microsecond pulsed electric field was widely used in cell electrofusion technology. H...
AbstractElectroporation uses electric pulses to promote delivery of DNA and drugs into cells. This s...
Electroporation EP, in which external electric field pulses create transient pores in a cell membran...
This paper attempts to introduce the dynamics of electroporation into the single cell model. The mai...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
The electroporation technique utilizes pulsed electric fields to induce porous defects in the cell m...
In this thesis, modelling and simulation of the effects of electric fields on a single spherical cel...
AbstractElectroporation, in which electric pulses create transient pores in the cell membrane, is be...
A kinetic model of cell electroporation is presented. The creation and resealing of metastable pores...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
Electroporation is the formation of reversible pores in cell membranes under a brief pulse of high e...
Cell electroporation is a complex phenomenon, which consists in the emergence of defects in cell mem...
Electroporation is one of popular techniques to increase the permeability of cells for DNA transfer ...
Electroporation has become a powerful tool for nonviral delivery of various biomolecules such as nuc...
AbstractThis study expands a previously developed model of a single cell electroporated by an extern...
Traditionally, microsecond pulsed electric field was widely used in cell electrofusion technology. H...
AbstractElectroporation uses electric pulses to promote delivery of DNA and drugs into cells. This s...
Electroporation EP, in which external electric field pulses create transient pores in a cell membran...
This paper attempts to introduce the dynamics of electroporation into the single cell model. The mai...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
The electroporation technique utilizes pulsed electric fields to induce porous defects in the cell m...
In this thesis, modelling and simulation of the effects of electric fields on a single spherical cel...
AbstractElectroporation, in which electric pulses create transient pores in the cell membrane, is be...
A kinetic model of cell electroporation is presented. The creation and resealing of metastable pores...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
Electroporation is the formation of reversible pores in cell membranes under a brief pulse of high e...
Cell electroporation is a complex phenomenon, which consists in the emergence of defects in cell mem...
Electroporation is one of popular techniques to increase the permeability of cells for DNA transfer ...
Electroporation has become a powerful tool for nonviral delivery of various biomolecules such as nuc...
AbstractThis study expands a previously developed model of a single cell electroporated by an extern...
Traditionally, microsecond pulsed electric field was widely used in cell electrofusion technology. H...