Drug recrystallization in drug-in-adhesive transdermal delivery system: A case study of deteriorating the mechanical and rheological characteristics of testosterone TDS.

Abstract

This study investigated the effects of drug recrystallization on the in vitro performance of testosterone drug-in-adhesive transdermal delivery system (TDS). Six formulations were prepared with a range of dry drug loading in the adhesive matrix from 1% to 10% w/w with the aim of generating TDS with various levels of drug crystals. We visually quantified the amount of crystals in TDS by polarized light microscopy. The effect of drug recrystallization on adhesion, tackiness, cohesive strength, viscoelasticity, drug release, and drug permeation through human cadaver skin were evaluated for these TDS samples. The Optical images showed no crystals in 1% and 2% testosterone TDSs; however, the amount of crystals increased by increasing testosterone loading from 4 to 10%. A proportional and significant decrease (p<0.05) in tack, peel, and shear strength of the adhesive matrix with increasing amount of crystals in TDS was observed. The drug crystals resulted in a proportional deterioration of the viscoelastic properties of the adhesive matrix. The 2% testosterone TDS showed faster drug release rate when compared to 1% testosterone TDS. The increase in drug loading from 2% to 4% w/w slightly increased the cumulative amount of testosterone released. Further increase in drug loading in TDS to 6, 8, and 10% was nonsignificant (p>0.05) to affect the drug release and permeation. In conclusion, this study demonstrated that the extent of drug recrystallization can be quantitatively correlated with the deterioration of performance characteristics of TDS products.