Macroflux microprojection array patch technology: a new and efficient approach for intracutaneous immunization.

Purpose: We evaluated the Macroflux microprojection array patch technology as a novel system for intracutaneous delivery of protein antigens.

Methods: Macroflux microprojection array systems (330-microm micro-projection length, 190 microprojections/cm2, 1- and 2-cm2 area) were coated with a model protein antigen, ovalbumin (OVA), to produce a dry-film coating. After system application, microprojection penetration depth, OVA delivery, and comparative immune responses were evaluated in a hairless guinea pig model.

Reverse iontophoresis: monitoring prostaglandin E2 associated with cutaneous inflammation in vivo.

In response to topical application of irritants, increased concentrations of prostaglandin E2 (PGE2) are found in human skin exudate and in cultured dermal fibroblasts. In this study, PGE2 generated in response to transdermal delivery of irritant drug compounds was monitored in hairless guinea pig (HGP) by a non-invasive method, reverse iontophoresis. Reverse iontophoresis is the movement of molecules from the skin under the influence of an applied electric field.

Antiflammin 1 peptide delivered non-invasively by iontophoresis reduces irritant-induced inflammation in vivo.

The potential of an anti-inflammatory peptide (antiflammin 1) to reduce irritation when delivered transdermally by iontophoresis was examined. A model drug irritant, chlorpromazine, was co-delivered with and without antiflammin 1 by iontophoresis to hairless guinea pigs transdermally. Quantitative skin irritation measurements were obtained by monitoring erythema by skin color reflectance with the Minolta Chromameter.