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The Path from Nasal Tissue to Nasal Mucosa on Chip : Part 2 - Advanced Microfluidic Nasal In Vitro Model for Drug Absorption Testing

GND
1168663814
ORCID
0000-0001-8608-3350
Affiliation/Institute
Institut für Mikrotechnik
Koch, Eugen Viktor;
Affiliation/Institute
Institut für Pharmazeutische Technologie und Biopharmazie
Bendas, Sebastian; Nehlsen, Kristina; May, Tobias;
GND
1147689865
ORCID
0000-0001-8344-9070
Affiliation/Institute
Institut für Pharmazeutische Technologie und Biopharmazie
Reichl, Stephan;
GND
1153067498
ORCID
0000-0003-2090-6259
Affiliation/Institute
Institut für Mikrotechnik
Dietzel, Andreas

The nasal mucosa, being accessible and highly vascularized, opens up new opportunities for the systemic administration of drugs. However, there are several protective functions like the mucociliary clearance, a physiological barrier which represents is a difficult obstacle for drug candidates to overcome. For this reason, effective testing procedures are required in the preclinical phase of pharmaceutical development. Based on a recently reported immortalized porcine nasal epithelial cell line, we developed a test platform based on a tissue-compatible microfluidic chip. In this study, a biomimetic glass chip, which was equipped with a controlled bidirectional airflow to induce a physiologically relevant wall shear stress on the epithelial cell layer, was microfabricated. By developing a membrane transfer technique, the epithelial cell layer could be pre-cultivated in a static holder prior to cultivation in a microfluidic environment. The dynamic cultivation within the chip showed a homogenous distribution of the mucus film on top of the cell layer and a significant increase in cilia formation compared to the static cultivation condition. In addition, the recording of the ciliary transport mechanism by microparticle image velocimetry was successful. Using FITC-dextran 4000 as an example, it was shown that this nasal mucosa on a chip is suitable for permeation studies. The obtained permeation coefficient was in the range of values determined by means of other established in vitro and in vivo models. This novel nasal mucosa on chip could, in future, be automated and used as a substitute for animal testing.

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