Recent Advances in Studying In Vitro Drug Permeation Across Mucosal Membranes

Recent Advances in Studying In Vitro Drug Permeation Across Mucosal Membranes

Transmucosal drug products, such as aerosols, films, semisolids, suppositories, and tablets, have been developed for the treatment of various human diseases and conditions. Transmucosal drug absorption is highly influenced by the biological structures of the mucosa and the physiological environment...

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Bibliographic Details
Main Authors: Juan Song, Zizhao Xu, Lingxiao Xie, Jie Shen
Format: Article
Language:English
Published: MDPI AG 2025-02-01
Series:Pharmaceutics
Subjects:
mucosa
in vitro permeation
physiological environment
locally acting
biorelevant
in vitro characterization-based bioequivalence
Online Access:https://www.mdpi.com/1999-4923/17/2/256
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Summary:Transmucosal drug products, such as aerosols, films, semisolids, suppositories, and tablets, have been developed for the treatment of various human diseases and conditions. Transmucosal drug absorption is highly influenced by the biological structures of the mucosa and the physiological environment specific to the administration route (e.g., nasal, rectal, and vaginal). Over the last few decades, in vitro permeation testing (IVPT) using animal tissues or in vitro cell cultures have been utilized as a cost-effective and efficient tool for evaluating drug release and permeation behavior, assisting in formulation development and quality control of transmucosal drug delivery systems. This review summarizes the key mucosal permeation barriers associated with representative transmucosal administration routes, as well as considerations for IVPT method development. It highlights various IVPT methods, including vertical diffusion cell, flow-through diffusion cell, Ussing chamber, and transwell systems. Additionally, future perspectives are discussed, such as the use of optical methods to study in vitro drug permeation and the development of in vitro–in vivo correlation (IVIVC) for transmucosal drug development. The potential of IVPT as part of in vitro bioequivalence assessment strategies for locally acting transmucosal drug products is also highlighted.
ISSN:1999-4923

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