Title :
Painless Drug Delivery Through Microneedle-Based Transdermal Patches Featuring Active Infusion
Author :
Roxhed, Niclas ; Samel, Björn ; Nordquist, Lina ; Griss, Patrick ; Stemme, Göran
Author_Institution :
KTH-R. Inst. of Technol., Stockholm
fDate :
3/1/2008 12:00:00 AM
Abstract :
This paper presents the first microneedle-based transdermal patch with integrated active dispensing functionality. The electrically controlled system consists of a low-cost dosing and actuation unit capable of controlled release of liquid in the microliter range at low flow-rates and minimally invasive, side-opened, microneedles. The system was successfully tested in vivo by insulin administration to diabetic rats. Active infusion of insulin at 2 mul/h was compared to passive, diffusion-driven, delivery. Continuous active infusion caused significantly higher insulin concentrations in blood plasma. After a 3-h delivery period, the insulin concentration was five times larger compared to passive delivery. Consistent with insulin concentrations, actively administered insulin resulted in a significant decrease of blood glucose levels. Additionally, insertion and liquid injection was verified on human skin. This study shows the feasibility of a patch-like system with on-board liquid storage and dispensing capability. The proposed device represents a first step towards painless and convenient administration of macromolecular drugs such as insulin or vaccines.
Keywords :
drug delivery systems; drugs; medical control systems; needles; skin; active infusion; blood plasma; electrically controlled system; insulin administration; integrated active dispensing functionality; macromolecular drugs; microneedle-based transdermal patches; on-board liquid storage; painless drug delivery; patch-like system; time 3 h; Blood; Control systems; Diabetes; Drug delivery; In vivo; Insulin; Minimally invasive surgery; Plasmas; Rats; System testing; Drug delivery; insulin; intradermal; microneedles; transdermal; Administration, Cutaneous; Animals; Diabetes Mellitus; Drug Therapy, Computer-Assisted; Equipment Design; Equipment Failure Analysis; Hypoglycemic Agents; Insulin; Insulin Infusion Systems; Male; Microinjections; Pain; Rats; Rats, Sprague-Dawley;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2007.906492
