Exposure of cells to high voltage electric pulses increases transiently membrane
permeability through membrane electroporation. Electroporation can be reversible and is …

Since regular radio broadcasts started in the 1920s, the exposure to human-made
electromagnetic fields has steadily increased. These days we are not only exposed to radio …

Electrical discharge plasmas can efficiently inactivate various microorganisms. Inactivation
mechanisms caused by plasma, however, are not fully understood because of the …

The formation of transient pores in their membranes is a well-known mechanism of
permeabilization of cells exposed to high-intensity electric pulses. However, the formation of …

Permeabilization of cell membranous structures by nanosecond pulsed electric field (nsPEF)
triggers transient rise of cytosolic Ca2+ concentration ([Ca2+] i), which determines …

Exposure to intense, nanosecond-duration electric pulses (nsEP) opens small but long-lived
pores in the plasma membrane. We quantified the cell uptake of two membrane integrity …

Electroporation or electropermeabilization is a technique that enables transient increase in
the cell membrane permeability by exposing cells to pulsed electric field. However, the …

Background Electroporation is a method of disrupting the integrity of cell membrane by
electric pulses (EPs). Electrical modeling is widely employed to explain and study …

Intense nanosecond pulsed electric field (nsPEF) is a novel modality for cell activation and
nanoelectroporation. Applications of nsPEF in research and therapy are hindered by a high …

Electric field pulses of nano-and picosecond duration are a novel modality for
neurostimulation, activation of Ca 2+ signaling, and tissue ablation. However it is not known …