PURPOSE: The purpose of this study was to design and fabricate arrays of solid microneedles and insert them into the skin of diabetic hairless rats for transdermal delivery of insulin to lower blood glucose level. METHODS: Arrays containing 105 microneedles were laser-cut from stainless steel metal sheets and inserted into the skin of anesthetized hairless rats with streptozotocin-induced diabetes. During and after microneedle treatment, an insulin solution (100 or 500 U/ml) was placed in contact with the skin for 4 h. Microneedles were removed 10 s, 10 min, or 4 h after initiating transdermal insulin delivery. Blood glucose levels were measured electrochemically every 30 min. Plasma insulin concentration was determined by radioimmunoassay at the end of most experiments. RESULTS: Arrays of microneedles were fabricated and demonstrated to insert fully into hairless rat skin in vivo. Microneedles increased skin permeability to insulin, which rapidly and steadily reduced blood glucose levels to an extent similar to 0.05-0.5 U insulin injected subcutaneously. Plasma insulin concentrations were directly measured to be 0.5-7.4 ng/ml. Higher donor solution insulin concentration, shorter insertion time, and fewer repeated insertions resulted in larger drops in blood glucose level and larger plasma insulin concentrations. CONCLUSIONS: Solid metal microneedles are capable of increasing transdermal insulin delivery and lowering blood glucose levels by as much as 80% in diabetic hairless rats in vivo.
PURPOSE: The purpose of this study was to design and fabricate arrays of solid microneedles and insert them into the skin of diabetic hairlessrats for transdermal delivery of insulin to lower blood glucose level. METHODS: Arrays containing 105 microneedles were laser-cut from stainless steel metal sheets and inserted into the skin of anesthetized hairless rats with streptozotocin-induced diabetes. During and after microneedle treatment, an insulin solution (100 or 500 U/ml) was placed in contact with the skin for 4 h. Microneedles were removed 10 s, 10 min, or 4 h after initiating transdermal insulin delivery. Blood glucose levels were measured electrochemically every 30 min. Plasma insulin concentration was determined by radioimmunoassay at the end of most experiments. RESULTS: Arrays of microneedles were fabricated and demonstrated to insert fully into hairless rat skin in vivo. Microneedles increased skin permeability to insulin, which rapidly and steadily reduced blood glucose levels to an extent similar to 0.05-0.5 U insulin injected subcutaneously. Plasma insulin concentrations were directly measured to be 0.5-7.4 ng/ml. Higher donor solution insulin concentration, shorter insertion time, and fewer repeated insertions resulted in larger drops in blood glucose level and larger plasma insulin concentrations. CONCLUSIONS: Solid metal microneedles are capable of increasing transdermal insulin delivery and lowering blood glucose levels by as much as 80% in diabetic hairlessrats in vivo.
Authors: John A Mikszta; Jason B Alarcon; John M Brittingham; Diane E Sutter; Ronald J Pettis; Noel G Harvey Journal: Nat Med Date: 2002-04 Impact factor: 53.440
Authors: James A Matriano; Michel Cormier; Juanita Johnson; Wendy A Young; Margaret Buttery; Kofi Nyam; Peter E Daddona Journal: Pharm Res Date: 2002-01 Impact factor: 4.200
Authors: Devin V McAllister; Ping M Wang; Shawn P Davis; Jung-Hwan Park; Paul J Canatella; Mark G Allen; Mark R Prausnitz Journal: Proc Natl Acad Sci U S A Date: 2003-11-17 Impact factor: 11.205
Authors: Siôn A Coulman; James C Birchall; Aneesh Alex; Marc Pearton; Bernd Hofer; Conor O'Mahony; Wolfgang Drexler; Boris Považay Journal: Pharm Res Date: 2010-05-13 Impact factor: 4.200
Authors: Wijaya Martanto; Jason S Moore; Osama Kashlan; Rachna Kamath; Ping M Wang; Jessica M O'Neal; Mark R Prausnitz Journal: Pharm Res Date: 2006-11-30 Impact factor: 4.200
Authors: Marc Pearton; Chris Allender; Keith Brain; Alexander Anstey; Chris Gateley; Nicolle Wilke; Anthony Morrissey; James Birchall Journal: Pharm Res Date: 2007-08-02 Impact factor: 4.200