Ionisation and the effect of absorption enhancers on transport of salicylic acid through silastic rubber and human skin

Abstract

Propose: to investigate if salicylic acid (SA)-permeation through excised human skin (HS) and silastic rubber (SR) conforms to the pH-hypothesis and to assess the influence of a range of absorption enhancers on the transport of SA with and without a transmembrane pH-gradient. Methods: Franz cells were used to study SA permeation from solutions and saturated suspensions. McIlvaine buffers were used to maintain transmembrane pH-gradients. Membrane pretreatment was used to study the action of absorption enhancers. Results: the flux of SA from solutions was dependent upon the vehicle pH and permeant concentration was directly related to the degree of ionisation of the solute. Flux from suspensions was independent of pH, since the level of unionised drug, the predominant diffusing species, was maintained at the intrinsic saturated solubility at all pH values. The observed SA flux enhancement across human skin without a transmembrane pH-gradient was not significantly different from the enhancement with a pH-gradient for all of the absorption enhances used, except for dodecylamine. Conclusions: the results showed that SA permeation conformed to the pH-partition hypothesis. The evidence from absorption-enhancer pretreatment demonstrated that, under certain conditions, the transdermal penetration enhancement of a number of topical enhancing compounds, including Azone and oleic acid can be explained without recourse to ion-pair phenomena.