Neumann E, Kakorin S, Tönsing K. Fundamentals of electroporative delivery of drugs and genes. BIOELECTROCHEMISTRY AND BIOENERGETICS. 1999;48(1):3-16.Electrooptical and conductometrical relaxation methods have given a new insight in the molecular mechanisms of the electroporative delivery of drug-like dyes and genes (DNA) to cells and tissues. Key findings are: (1) Membrane electroporation (ME) and hence the electroporative transmembrane transport of macromolecules are facilitated by a higher curvature of the membrane as well as by a gradient of the ionic strength across charged membranes, affecting the spontaneous curvature. (2) The degree of pore formation as the primary field response increases continuously without a threshold field stren...
Delivery of naked DNA molecules into living cells via physical disruption of the membrane under elec...
Copyright © 2016 by ASME. This study develops a macroscopic model of mass transport in electroporate...
Neumann E, Kakorin S, Tönsing K. Principles of Membrane Electroporation and Transport of Macromolecu...
Neumann E, Kakorin S. Digression on membrane electroporation for drug and gene delivery. Technol Can...
International audienceCell membranes can be transiently permeabilized under application of electric ...
Neumann E. Membrane electroporation and direct gene transfer. Bioelectrochemistry and Bioenergetics....
Delivery of biomolecules using pulsed electric fields or electrotransfer has applications such as bi...
Electroporation is one of the most common methods used to transfer exogenous gene into most prokaryo...
ONLINE ISSN: 2335-8718Electroporation is a widely used physical method for increasing the cell membr...
Electroporation is a methodology for the introduction of drugs and genes into cells. This technique ...
AbstractElectropermeabilization designates the use of short high-voltage pulses to overcome the barr...
Electroporation is a widely established method that uses electric fields to enhance molecular transp...
A reflection of the intense study of the effects of electromagnetic fields on living tissues that ha...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
Electroporation is a physical method to induce the uptake of therapeutic drugs and DNA, by eukaryoti...
Delivery of naked DNA molecules into living cells via physical disruption of the membrane under elec...
Copyright © 2016 by ASME. This study develops a macroscopic model of mass transport in electroporate...
Neumann E, Kakorin S, Tönsing K. Principles of Membrane Electroporation and Transport of Macromolecu...
Neumann E, Kakorin S. Digression on membrane electroporation for drug and gene delivery. Technol Can...
International audienceCell membranes can be transiently permeabilized under application of electric ...
Neumann E. Membrane electroporation and direct gene transfer. Bioelectrochemistry and Bioenergetics....
Delivery of biomolecules using pulsed electric fields or electrotransfer has applications such as bi...
Electroporation is one of the most common methods used to transfer exogenous gene into most prokaryo...
ONLINE ISSN: 2335-8718Electroporation is a widely used physical method for increasing the cell membr...
Electroporation is a methodology for the introduction of drugs and genes into cells. This technique ...
AbstractElectropermeabilization designates the use of short high-voltage pulses to overcome the barr...
Electroporation is a widely established method that uses electric fields to enhance molecular transp...
A reflection of the intense study of the effects of electromagnetic fields on living tissues that ha...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
Electroporation is a physical method to induce the uptake of therapeutic drugs and DNA, by eukaryoti...
Delivery of naked DNA molecules into living cells via physical disruption of the membrane under elec...
Copyright © 2016 by ASME. This study develops a macroscopic model of mass transport in electroporate...
Neumann E, Kakorin S, Tönsing K. Principles of Membrane Electroporation and Transport of Macromolecu...