Biomatériaux et Microfluidique

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Our objective is to generate inner ear organoids that can recapitulate in vitro the initial steps of the cochlear epithelium formation. In particular, we aim at generating these organoids in a micro-environment that allows […]

The use of new technological approaches including microfluidics and organ-on-chip strategies has permitted the design of advanced in vitro assays to address a variety of questions including in the study of human infections.  These […]

The intestine, and in particular the colon, comprising a mucus blanket, an epithelial monolayer and the lamina propria rich in immune cells, is constantly subjected to shear stress (flow) and peristaltic motion (stretching), both […]

The goal of this project is to develop a new organ-on-chip microfluidic device based on the actuation of thin hydrogel layers. Indeed, hydrogels possess interesting properties, compared to the commonly used perforated PDMS membranes. […]

What’s best to study humans and their infectious deseases than Human emulation system ? It’s now possible at Pasteur to develop real Organs-on-chips with cells from different sources, patient derived or cell line. At […]

The goals of this project are to build an external bioartificial liver, a liver-on-chip as well as a bioengineered liver. In the present project, bioconstruction of the liver will be performed by the assembly […]

Welcome to the club! Welcome to Microfluidics@Pasteur! Our goal is to serve as the major entry point to all the scientists on the campus (beginners and experts) interested in undertaking projects where microfluidics is involved. Our […]