Bioinspired in vitro intestinal mucus model for 3D-dynamic culture of bacteria

粘液 自愈水凝胶 流变学 粘弹性 微流控 材料科学 纳米技术 体外 生物系统 化学 生物 复合材料 生物化学 高分子化学 生态学
作者
Lorenzo Sardelli,Francesco Briatico Vangosa,Marta Merli,Anna Ziccarelli,Sonja Visentin,Livia Visai,Paola Petrini
出处
期刊:Biomaterials advances [Elsevier BV]
卷期号:139: 213022-213022 被引量:16
标识
DOI:10.1016/j.bioadv.2022.213022
摘要

The intestinal mucus is a biological barrier that supports the intestinal microbiota growth and filters molecules. To perform these functions, mucus possesses optimized microstructure and viscoelastic properties and it is steadily replenished thus flowing along the gut. The available in vitro intestinal mucus models are useful tools in investigating the microbiota-human cells interaction, and are used as matrices for bacterial culture or as static component of microfluidic devices like gut-on-chips. The aim of this work is to engineer an in vitro mucus models (I-Bac3Gel) addressing in a single system physiological viscoelastic properties (i.e., 2–200 Pa), 3D structure and suitability for dynamic bacterial culture. Homogeneously crosslinked alginate hydrogels are optimized in composition to obtain target viscoelastic and microstructural properties. Then, rheological tests are exploited to assess a priori the hydrogels capability to withstand the flow dynamic condition. We experimentally assess the suitability of I-Bac3Gels in the evolving field of microfluidics by applying a dynamic flow to a bacterial-loaded mucus model and by monitoring E. coli growth and survival. The engineered models represent a step forward in the modelling of the mucus, since they can answer to different urgent needs such as a 3D structure, bioinspired properties and compatibility with dynamic system.
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