Editing Small interfering RNA (section)

=== Electroporation ===
{{Main|Electroporation}}
Electrical pulses are also used to intracellularly deliver siRNA into cells. The cell membrane is made of phospholipids which makes it susceptible to an electric field. When quick but powerful electrical pulses are initiated the lipid molecules reorient themselves, while undergoing thermal phase transitions because of heating. This results in the making of hydrophilic pores and localized perturbations in the lipid bilayer cell membrane also causing a temporary loss of semipermeability. This allows for the escape of many intracellular contents, such as ions and metabolites as well as the simultaneous uptake of drugs, molecular probes, and nucleic acids. For cells that are difficult to transfect electroporation is advantageous however cell death is more probable under this technique.<ref>{{cite web|url=http://www.sabosciences.com|title=siRNA Delivery Methods into Mammalian Cells |date=2016-10-13}}</ref>

This method has been used to deliver siRNA targeting VEGF into the xenografted tumors in nude mice, which resulted in a significant suppression of tumor growth.<ref>{{cite book | vauthors = Takei Y | chapter = Electroporation-Mediated siRNA Delivery into Tumors | title = Electroporation Protocols | series = Methods in Molecular Biology | volume = 1121 | pages = 131–8 | year = 2014 | pmid = 24510818 | doi = 10.1007/978-1-4614-9632-8_11 | isbn = 978-1-4614-9631-1 }}</ref>