The Role of Mucus As an Invisible Cloak to Transepithelial Drug Delivery by Nanoparticles

Overview

Journal Adv Drug Deliv Rev

Specialty Pharmacology

Date 2017 Nov 9

PMID 29117511

Citations 27

Authors

Maria Garcia-Diaz

Ditlev Birch

Feng Wan

Hanne Morck Nielsen

Affiliations

Soon will be listed here.

Abstract

Mucosal administration of drugs and drug delivery systems has gained increasing interest. However, nanoparticles intended to protect and deliver drugs to epithelial surfaces require transport through the surface-lining mucus. Translation from bench to bedside is particularly challenging for mucosal administration since a variety of parameters will influence the specific barrier properties of the mucus including the luminal fluids, the microbiota, the mucus composition and clearance rate, and the condition of the underlying epithelia. Besides, after administration, nanoparticles interact with the mucosal components, forming a biomolecular corona that modulates their behavior and fate after mucosal administration. These interactions are greatly influenced by the nanoparticle properties, and therefore different designs and surface-engineering strategies have been proposed. Overall, it is essential to evaluate these biomolecule-nanoparticle interactions by complementary techniques using complex and relevant mucus barrier matrices.

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