Nanosecond pulsed electric fields (nsPEFs) can interact with lipid vesicles, that are primary drug delivery nanocarriers activated by external signals. In this work, authors propose a new setup of an experimental bench suitable for nsPEFs exposure of liposome nanosystems, compliant with the wideband requirements for nanosecond pulses. A multiphysics modelling able to predict liposome poration is proposed to define the characteristics of signals to be used in experiments
AbstractThe dynamical translocation of lipids from one leaflet to another due to membrane permeabili...
International audienceBiologically relevant effects, as beginning of cellular apoptotic states, intr...
Nanosecond Pulsed Electric Field (nsPEF or Nano Pulsed Stimulation, NPS) is a technology that delive...
Electroporation has become a powerful technological platform for the electromanipulation of cells an...
The increasing interest towards biocompatible nanotechnologies in medicine, combined with electric f...
Smart drug delivery systems represent an interesting tool to significantly improve the efficiency an...
Nano-systems, often used in biomedical applications for the treatment of a broad category of illness...
Recently, the use of nanometer liposomes as nanocarriers in drug delivery systems mediated by nanoel...
The electromagnetic fields application as a way to enhance biomedical techniques has recently drawn ...
Radiofrequency (RF) signals as a way to remotely control smart drug delivery nanocarriers represent ...
The emergence of nanosecond pulsed electric fields (nsPEFs) for intracellular electro-manipulation e...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
International audienceIntracellular structures of biological cells can be disturbed by exposure to n...
International audienceThis paper deals with the development of a microfluidic biochip for the exposu...
Lipidic nanovesicles (so called liposomes) were one the earliest forms of nanovectors. One of their ...
AbstractThe dynamical translocation of lipids from one leaflet to another due to membrane permeabili...
International audienceBiologically relevant effects, as beginning of cellular apoptotic states, intr...
Nanosecond Pulsed Electric Field (nsPEF or Nano Pulsed Stimulation, NPS) is a technology that delive...
Electroporation has become a powerful technological platform for the electromanipulation of cells an...
The increasing interest towards biocompatible nanotechnologies in medicine, combined with electric f...
Smart drug delivery systems represent an interesting tool to significantly improve the efficiency an...
Nano-systems, often used in biomedical applications for the treatment of a broad category of illness...
Recently, the use of nanometer liposomes as nanocarriers in drug delivery systems mediated by nanoel...
The electromagnetic fields application as a way to enhance biomedical techniques has recently drawn ...
Radiofrequency (RF) signals as a way to remotely control smart drug delivery nanocarriers represent ...
The emergence of nanosecond pulsed electric fields (nsPEFs) for intracellular electro-manipulation e...
A numerical model, usually employed to analyze the electroporation phenomenon in eukaryotic cells ex...
International audienceIntracellular structures of biological cells can be disturbed by exposure to n...
International audienceThis paper deals with the development of a microfluidic biochip for the exposu...
Lipidic nanovesicles (so called liposomes) were one the earliest forms of nanovectors. One of their ...
AbstractThe dynamical translocation of lipids from one leaflet to another due to membrane permeabili...
International audienceBiologically relevant effects, as beginning of cellular apoptotic states, intr...
Nanosecond Pulsed Electric Field (nsPEF or Nano Pulsed Stimulation, NPS) is a technology that delive...