Add to ORKGThe use of electric pulses to deliver therapeutic molecules to tissues and organs in vivo is a rapidly growing field of research. Electrotransfer can be used to deliver a wide range of potentially therapeutic agents, including drugs, proteins, oligonucleotides, RNA and DNA. Optimization of this approach depends upon a number of parameters such as target organ accessibility, cell turnover, microelectrode design, electric pulsing protocols and the physiological response to the therapeutic agent. Many organs have been successfully transfected by electroporation, including skin, liver, skeletal and cardiac muscle, male and female germ cells, artery, gut, kidney, retinal ganglion cells, cornea, spinal cord, joint synovium and brain. Electrotrans...
Electroporation refers to a technique that makes use of electrical pulses to create transient and re...
Efficient cell electrotransfection can be achieved using combinations of high-voltage (HV; 800 V/cm,...
Gene therapy may represent a promising alternative strategy for cardiac muscle regeneration. In vivo...
The use of electrotransfer for DNA delivery to prokaryotic cells, and eukaryotic cells in vitro, has...
Appropriate electric pulses can reversibly permeabilize living cells both in vitro and in vivo. Sinc...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
In vivo cell electroporation is the basis of DNA electrotransfer, an efficient method for non-viral ...
Skin is an attractive target for gene electrotransfer. It consists of different cell types that can ...
Gene electrotransfer (GET) is considered one of the most efficient, safe, reproducible, and cost-eff...
When an electric field is locally applied to tissues in vivo the uptake of exogenous DNA can be grea...
Skin is an attractive target for gene electrotransfer. It consists of different cell types that can ...
Electroporation is a widely used technique for enhancing the efficiency of DNA delivery into cells. ...
Gene electrotransfer is gaining momentum as an efficient methodology for nonviral gene transfer. In ...
Gene therapies are revolutionizing medicine by providing a way to cure hitherto incurable diseases. ...
DNA delivery to skin may be useful for the treatment of skin diseases, DNA vaccinations, and other g...
Electroporation refers to a technique that makes use of electrical pulses to create transient and re...
Efficient cell electrotransfection can be achieved using combinations of high-voltage (HV; 800 V/cm,...
Gene therapy may represent a promising alternative strategy for cardiac muscle regeneration. In vivo...
The use of electrotransfer for DNA delivery to prokaryotic cells, and eukaryotic cells in vitro, has...
Appropriate electric pulses can reversibly permeabilize living cells both in vitro and in vivo. Sinc...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
In vivo cell electroporation is the basis of DNA electrotransfer, an efficient method for non-viral ...
Skin is an attractive target for gene electrotransfer. It consists of different cell types that can ...
Gene electrotransfer (GET) is considered one of the most efficient, safe, reproducible, and cost-eff...
When an electric field is locally applied to tissues in vivo the uptake of exogenous DNA can be grea...
Skin is an attractive target for gene electrotransfer. It consists of different cell types that can ...
Electroporation is a widely used technique for enhancing the efficiency of DNA delivery into cells. ...
Gene electrotransfer is gaining momentum as an efficient methodology for nonviral gene transfer. In ...
Gene therapies are revolutionizing medicine by providing a way to cure hitherto incurable diseases. ...
DNA delivery to skin may be useful for the treatment of skin diseases, DNA vaccinations, and other g...
Electroporation refers to a technique that makes use of electrical pulses to create transient and re...
Efficient cell electrotransfection can be achieved using combinations of high-voltage (HV; 800 V/cm,...
Gene therapy may represent a promising alternative strategy for cardiac muscle regeneration. In vivo...