Transdermal testosterone delivery: comparison between scrotal and nonscrotal delivery systems.

The purpose of this investigation was to study the bioequivalence of two testosterone transdermal delivery systems (T-TDSs). Testoderm, designed to deliver testosterone through scrotal skin, and Androderm, designed for nonscrotal permeation. In vitro permeation and release kinetics as well as in vivo pharmacokinetics in the castrated Yucatan miniature swine (minipigs) model of both T-TDSs were studied side by side under the same experimental conditions. In vitro skin permeation kinetics studies demonstrated that testosterone permeates through minipig dorsal skin at zero-order kinetics from both T-TDSs. The nonscrotal T-TDS, however, has a permeation rate which is approximately 13 times higher than that for the scrotal T-TDS. The release of testosterone from the nonscrotal T-TDS showed a biphasic release profile between cumulative amount released and time, whereas a monophasic release profile between cumulative amount released and square root of time was observed for the scrotal T-TDS. Pharmacokinetic analysis of plasma testosterone profiles in minipigs indicated a significant difference (p < 0.001) in daily dose of testosterone delivered (1.20 versus 4.83 mg/day), maximum concentration (Cmax) (54.2 versus 218.0 ng/dl), and area under concentration-time curve (AUC0-28)[665 versus 3208 (ng/dl) x hr] between these T-TDSs. However, there is no difference in time to reach Cmax mean residence time, and daily-delivered-dose-normalized Cmax and AUC0-28. The difference in pharmacokinetic profiles resulted from the difference in daily doses delivered, which could be attributed remarkably to the difference in permeation rate (approximately 13-fold) between the nonscrotal and scrotal T-TDSs.