Microsecond pulsed electric fields (μsPEFs) with amplitude of tens of kV/m are used to permeabilize the plasma membrane whereas nanosecond pulsed electric fields of MV/m also permeabilize cell internal structures, such as the endoplasmic reticulum. In this work, a numerical realistic model of cell and its reticulum has been realized to study the use of μsPEFs also for the permeabilization of this internal structur
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
International audienceIn the last decade, high-intensity pulsed electric fields with nanosecond dura...
A number of biological relevant phenomena has been associated to the exposure of cell lines and orga...
A microdosimetric study of nanosecond pulsed electric fields, including dielectric dispersivity of c...
A review of the electromagnetic (EM) approaches used for electric (E) field and transmembrane potent...
International audienceA microdosimetric study of nanosecond pulsed electric fields, including dielec...
Exposure of cell lines and tissues to nanosecond pulsed electric fields has been associated to a num...
Over the past decades, the effects of ultrashort-pulsed electric fields have been used to investigat...
International audienceRadio frequency electromagnetic fields (RF EMFs) are increasingly used in emer...
International audienceIn this paper, we propose and characterize an FDTD-based method to numerically...
Biologically relevant effects, as beginning of cellular apoptotic states or tumors growth inhibition...
Microsecond pulsed electric fields (mu sPEF) permeabilize the plasma membrane (PM) and are widely us...
International audienceBiologically relevant effects, as beginning of cellular apoptotic states, intr...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
International audienceIn the last decade, high-intensity pulsed electric fields with nanosecond dura...
A number of biological relevant phenomena has been associated to the exposure of cell lines and orga...
A microdosimetric study of nanosecond pulsed electric fields, including dielectric dispersivity of c...
A review of the electromagnetic (EM) approaches used for electric (E) field and transmembrane potent...
International audienceA microdosimetric study of nanosecond pulsed electric fields, including dielec...
Exposure of cell lines and tissues to nanosecond pulsed electric fields has been associated to a num...
Over the past decades, the effects of ultrashort-pulsed electric fields have been used to investigat...
International audienceRadio frequency electromagnetic fields (RF EMFs) are increasingly used in emer...
International audienceIn this paper, we propose and characterize an FDTD-based method to numerically...
Biologically relevant effects, as beginning of cellular apoptotic states or tumors growth inhibition...
Microsecond pulsed electric fields (mu sPEF) permeabilize the plasma membrane (PM) and are widely us...
International audienceBiologically relevant effects, as beginning of cellular apoptotic states, intr...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
Recently, the promising effects induced by pulsed electric fields with high intensity and short dura...
International audienceIn the last decade, high-intensity pulsed electric fields with nanosecond dura...