PEGylated insulin in PLGA microparticles.: In vivo and in vivo analysis

A novel controlled release formulation has been developed with PEGylated human insulin encapsulated in PLGA microspheres that produces multi-day release in vivo. The insulin is specifically PEGylated at the amino terminus of the 13 chain with a relatively low molecular weight PEG (5000 Da). Insulin with this modification retains full biological activity, but has a limited serum half-life, making encapsulation necessary for sustained release beyond a few hours. PEGylated insulin can be codissolved with PLGA in methylene chloride and microspheres made by a single o/w emulsion process. Insulin conformation and biological activity are preserved after PEGylation and PLGA encapsulation. The monolithic microspheres have inherently low burst release, an important safety feature for an extended release injectable insulin product. In PBS at 37 degrees C, formulations with a drug content of approximately 14% show very low (< 1%) initial release of insulin over one day and near zero order drug release after a lag of 3-4 days. In animal studies, PEG-insulin microspheres administered subcutaneously as a single injection produced < 1% release of insulin in the first day but then lowered the serum glucose levels of diabetic rats to values < 200 mg/dL for approximately 9 days. When doses were given at 7-day intervals, steady state drug levels were achieved after only 2 doses. PEG-insulin PLGA microparticles show promise as a once-weekly dosed, sustained release basal insulin formulation. (c) 2005 Elsevier B.V All rights reserved.