Publication date: 1 March 2018
Source:European Journal of Pharmaceutical Sciences, Volume 114
Author(s): Jef Stappaerts, Philippe Berben, Irem Cevik, Patrick Augustijns
In addition to its important role in preventing the interaction of toxic agents with the intestinal lining, the intestinal mucus layer can impede the permeation of drugs. The purpose of this study was to evaluate whether the presence of HP-β-CD in the intraluminal environment could influence the permeation of drugs through a layer of mucus. To this end, a new artificial membrane insert system incorporating a fixed mucus layer was developed to monitor the permeation of methylparaben (log P=1.96) and heptylparaben (log P=4.83). While the transport of methylparaben remained unaffected by the mucus layer, the transport of heptylparaben was significantly impeded by the mucus layer. In presence of relatively low concentrations of HP-β-CD, however, this negative effect of mucus on the permeation of heptylparaben disappeared. Importantly, the impact of the mucus layer was found to depend on the composition of the solvent system used. The colloidal structures present in simulated intestinal media were able to neutralize the impeding effect of mucus on heptylparaben permeation observed when using simple phosphate buffers. These findings advocate the use of biorelevant media when studying the impact of the mucus layer on drug permeation.
Graphical abstract
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