Add to ORKGOver the last 5 years, physical methods of plasmid delivery have revolutionized the efficiency of nonviral gene transfer, in some cases reaching the efficiencies of viral vectors. In vivo electroporation dramatically increases transfection efficiency for a variety of tissues. Other methods with clinical precedent, pressure-perfusion and ultrasound, also improve plasmid gene transfer. Alternatives such as focused laser, magnetic fields and ballistic (gene gun) approaches can also enhance delivery. As plasmid DNA appears to be a safe gene vector system, it seems likely that plasmid with physically enhanced delivery will be used increasingly in clinical trials
Gene delivery as a promising and valid tool has been used for treating many serious diseases that co...
The ability to make site-specific modifications to the human genome has been an objective in medicin...
The delivery of a therapeutic gene inserted in a vector for somatic gene therapy holds great promise...
For gene therapy, in v ivo delivery of plasmid DNA offers an alternative to viral delivery methods. ...
Background: Gene therapy is a promising approach for the treatment of various diseases, including ca...
INTRODUCTION: Electroporation allows efficient delivery of DNA into cells and tissues, thereby impro...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
Electroporation (EP) has been used in basic research for the past 25 years to aid in the transfer of...
Gene therapies are revolutionizing medicine by providing a way to cure hitherto incurable diseases. ...
Electroporation refers to a technique that makes use of electrical pulses to create transient and re...
Background. Plasmid based gene delivery to muscle is a promising treatment strategy for a wide range...
Ever since mankind has started identifying the diseases, extensive work has been done, and pathologi...
FDA approved patient-derived cellular therapies are a groundbreaking biomedical/clinical accomplishm...
Intracellular delivery is a critical step in biological discoveries and has been widely utilized in ...
Plasmid-based gene delivery to muscle is a treatment strategy for many diseases with potential advan...
Gene delivery as a promising and valid tool has been used for treating many serious diseases that co...
The ability to make site-specific modifications to the human genome has been an objective in medicin...
The delivery of a therapeutic gene inserted in a vector for somatic gene therapy holds great promise...
For gene therapy, in v ivo delivery of plasmid DNA offers an alternative to viral delivery methods. ...
Background: Gene therapy is a promising approach for the treatment of various diseases, including ca...
INTRODUCTION: Electroporation allows efficient delivery of DNA into cells and tissues, thereby impro...
Intracellular gene electrotransfer by means of electroporation has been on the increase during the p...
Electroporation (EP) has been used in basic research for the past 25 years to aid in the transfer of...
Gene therapies are revolutionizing medicine by providing a way to cure hitherto incurable diseases. ...
Electroporation refers to a technique that makes use of electrical pulses to create transient and re...
Background. Plasmid based gene delivery to muscle is a promising treatment strategy for a wide range...
Ever since mankind has started identifying the diseases, extensive work has been done, and pathologi...
FDA approved patient-derived cellular therapies are a groundbreaking biomedical/clinical accomplishm...
Intracellular delivery is a critical step in biological discoveries and has been widely utilized in ...
Plasmid-based gene delivery to muscle is a treatment strategy for many diseases with potential advan...
Gene delivery as a promising and valid tool has been used for treating many serious diseases that co...
The ability to make site-specific modifications to the human genome has been an objective in medicin...
The delivery of a therapeutic gene inserted in a vector for somatic gene therapy holds great promise...