Syringe Electrode Device for Delivering DNA VAC
- 詳細技術說明
- None
- *Abstract
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Mass immunization against bioterrorism will require reagents and devices that are simple, effective, reproducible, and inexpensive. DNA vaccine fits most of these criteria, except that its delivery mechanism needs substantial improvement. Use of electroporation to deliver genes to the muscle cells has been explored as an efficient method for gene transfer. However, optimal electric parameters for electroporation often leads to tissue damage. The inventors have recently developed a simple syringe electrode device with which plasmid DNA can be efficiently delivered to muscles without any measurable tissue damage. This is because the site of the highest electric field strength coincides with the site of the highest DNA concentration, a condition not fulfilled by conventional caliper electrode products. The device is unique because it is handheld, battery operated, and uses a syringe electrode for reproducible delivery of DNA to muscle tissues. Such a device is ideal for mass immunization. It is also expected that the syringe electrode technique shall induce much less DNA damage than the conventional electrode method due to the fact that the former operates at a much lower electric field strength than the latter.Non Provisional and PCT Patent Applications Filed
- *Principal Investigation
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Name: Neal Herring, Mechanical Engineer undergraduate
Department:
Name: Steve Heston, Mechanical Engineer
Department:
Name: Leaf Huang
Department: Pharm-Pharmaceutical Science
Name: Feng Liu, Instructor
Department: Pharm-Pharmaceutical Science
Name: Michael Lovell, Associate Professor
Department: Mechanical Engineering and Materials Science
Name: Shane Messina, Computer Engineer undergraduate
Department:
Name: Marlin Mickle, Professor of Electrical Engineering
Department: Electrical and Computer Engineering
Name: Justin Ulis, Industrial Engineer undergraduate
Department: Industrial Engineering
- 國家/地區
- 美國
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