<p>(<b>A</b>) Schematic of the micro-electroporation channel with model domain and radially-varying electric fields. Cells flowing through the micro-electroporation channel will experience a pulsed electric field, inducing electroporation. (<b>B</b>) Detailed schematic of the model domain for the primary, and secondary, current distribution models.</p
Cell electroporation is a complex phenomenon, which consists in the emergence of defects in cell mem...
A dynamic model of electroporation is proposed in order to compute at the tissue scale the distribut...
The application of intense, short-duration pulsed electric fields to biological membranes induces an...
Traditional macro and micro-electroporation devices utilize facing electrodes, which generate electr...
ABSTRACT Electroporation uses electric pulses to promote delivery of DNA and drugs into cells. This ...
The computation for the distribution of the electric field ∇ϕ within biological tissues is crucial i...
A spherical excitable cell immersed in an electrolyte and subjected to an electric field is consider...
Electroporation EP, in which external electric field pulses create transient pores in a cell membran...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
Electroporation is the formation of reversible pores in cell membranes under a brief pulse of high e...
Electroporation is a methodology for the introduction of drugs and genes into cells. This technique ...
To aid understanding we use idealized pulse waveforms. The pulses are trapezoidal, with linear ramps...
Cell electroporation is a complex phenomenon, which consists in the emergence of defects in cell mem...
A dynamic model of electroporation is proposed in order to compute at the tissue scale the distribut...
The application of intense, short-duration pulsed electric fields to biological membranes induces an...
Traditional macro and micro-electroporation devices utilize facing electrodes, which generate electr...
ABSTRACT Electroporation uses electric pulses to promote delivery of DNA and drugs into cells. This ...
The computation for the distribution of the electric field ∇ϕ within biological tissues is crucial i...
A spherical excitable cell immersed in an electrolyte and subjected to an electric field is consider...
Electroporation EP, in which external electric field pulses create transient pores in a cell membran...
An electric pulse with a sufficient amplitude can lead to electroporation of intracellular organelle...
We develop a model of single spherical cell electroporation and simulate spatial and temporal aspect...
Electroporation is the formation of reversible pores in cell membranes under a brief pulse of high e...
Electroporation is a methodology for the introduction of drugs and genes into cells. This technique ...
To aid understanding we use idealized pulse waveforms. The pulses are trapezoidal, with linear ramps...
Cell electroporation is a complex phenomenon, which consists in the emergence of defects in cell mem...
A dynamic model of electroporation is proposed in order to compute at the tissue scale the distribut...
The application of intense, short-duration pulsed electric fields to biological membranes induces an...
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