Stabilization and Transdermal Delivery of an Investigational Peptide Using MicroCor® Solid-State Dissolving Microstructure Arrays

Abstract

The formulation of biotherapeutics presents unique challenges especially with regard to physical and chemical stability and often requires refrigerated storage conditions of final drug products. Peptide A is an example of a developmental compound which showed significant stability challenges when prepared as a liquid formulation for a subcutaneous injection. The aim of the present study was to evaluate whether Peptide A can be successfully formulated in MicroCor® microstructure arrays (MSAs) as an alternative delivery option. MSAs contain a high density of dissolving microstructures allowing for transdermal delivery. In the present work, a 5600-needle MSA (~200 μm long microstructures, 2 cm2 array) was prepared with a therapeutically-relevant dose of Peptide A. The array was shown to be stable under room-temperature storage conditions for 3 months. On in vivo application to Yucatan minipigs, Peptide-A-loaded MSAs demonstrated only mild and transient skin irritation and a very high efficiency of peptide transfer from dissolving microstructures into the skin resulting in absolute bioavailability of 74%. This transdermal bioavailability was very similar to the 73% bioavailability obtained from a subcutaneous injection. This technical feasibility study demonstrated that MicroCor® technology represents a viable option for delivery of Peptide A with significant improvements in peptide stability.