Pallmann, NiklasNiklasPallmannLajtha, ElenaElenaLajthaOberwinkler, HeikeHeikeOberwinklerWeigel, TobiasTobiasWeigelvon Fournier, ArminArminvon FournierScherzad, AgmalAgmalScherzadHeydel, Jean-MarieJean-MarieHeydelHackenberg, StephanStephanHackenbergBodem, JochenJochenBodemSteinke, MariaMariaSteinke2025-07-022025-07-022025https://publica.fraunhofer.de/handle/publica/48907110.1089/ten.tec.2025.0087Advanced tissue-engineered respiratory models are essential for studying drug or cosmetic toxicity, infection biology and xenobiotic metabolism. Here, we investigated a polyamide 6 (PA6)-based electrospun stromal scaffold as a substitute for porcine-derived small intestinal submucosa (SIS) to build human airway mucosa tissue models at the air-liquid interface. We demonstrate that the porous PA6 scaffold supports extracellular matrix production by human nasal fibroblasts and facilitates the complete differentiation of respiratory epithelial cells to the mucociliary phenotype. These models reduce reliance on animal-derived materials, improve reproducibility, and minimize potential interference from animal-derived antigens and pathogens. Both PA6- and SIS-based models promote fibroblast migration, epithelial differentiation, and the expression of key xenobiotic metabolizing enzymes. They exhibit comparable epithelial barrier integrity and susceptibility to influenza A virus infections. These findings establish PA6 scaffolds as a suitable, animal-free alternative to the SIS to build human airway mucosa tissue models.enair-liquid interfaceelectrospun stromal scaffoldhuman respiratory tissue modelsinfluenza virusreplace animal componentsxenobiotic metabolizing enzymes600 Technik, Medizin, angewandte Wissenschaftenjournal article