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  • The artificial membrane insert system as predictive tool for formulation performance evaluation.

The artificial membrane insert system as predictive tool for formulation performance evaluation.

International journal of pharmaceutics (2017-12-16)
Philippe Berben, Joachim Brouwers, Patrick Augustijns
ABSTRACT

In view of the increasing interest of pharmaceutical companies for cell- and tissue-free models to implement permeation into formulation testing, this study explored the capability of an artificial membrane insert system (AMI-system) as predictive tool to evaluate the performance of absorption-enabling formulations. Firstly, to explore the usefulness of the AMI-system in supersaturation assessment, permeation was monitored after induction of different degrees of loviride supersaturation. Secondly, to explore the usefulness of the AMI-system in formulation evaluation, a two-stage dissolution test was performed prior to permeation assessment. Different case examples were selected based on the availability of in vivo (intraluminal and systemic) data: (i) a suspension of posaconazole (Noxafil®), (ii) a cyclodextrin-based formulation of itraconazole (Sporanox®), and (iii) a micronized (Lipanthyl®) and nanosized (Lipanthylnano®) formulation of fenofibrate. The obtained results demonstrate that the AMI-system is able to capture the impact of loviride supersaturation on permeation. Furthermore, the AMI-system correctly predicted the effects of (i) formulation pH on posaconazole absorption, (ii) dilution on cyclodextrin-based itraconazole absorption, and (iii) food intake on fenofibrate absorption. Based on the applied in vivo/in vitro approach, the AMI-system combined with simple dissolution testing appears to be a time- and cost-effective tool for the early-stage evaluation of absorption-enabling formulations.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Loviride, ≥98% (HPLC)