Pascal Chanez scite author profile

The respiratory tract is protected by mucus, a complex fluid transported along the epithelial surface by the coordinated beating of millions of microscopic cilia, hence the name of mucociliary clearance. Its impairment is associated with all severe chronic respiratory diseases. Yet, the relationship between ciliary density and the spatial scale of mucus transport, as well as the mechanisms that drive ciliary-beat orientations are much debated. Here, we show on polarized human bronchial epithelia that mucus swirls and circular orientational order of the underlying ciliary beats emerge and grow during ciliogenesis, until a macroscopic mucus transport is achieved for physiological ciliary densities. By establishing that the macroscopic ciliary-beat order is lost and recovered by removing and adding mucus respectively, we demonstrate that cilia/mucus hydrodynamic interactions govern the collective dynamics of ciliary-beat directions. We propose a two-dimensional model that predicts a phase diagram of mucus transport in accordance with the experiments. It paves the way to a predictive in-silico modeling of bronchial mucus transport in health and disease.

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Microbiome and the immune system: From a healthy steady-state to allergy associated disruption

Mezouar

Chantran

Michel

et al. 2018

Human Microbiome Journal

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Pascal Chanez

Eosinophilic Inflammation in Asthma

Active mucus–cilia hydrodynamic coupling drives self-organization of human bronchial epithelium

Microbiome and the immune system: From a healthy steady-state to allergy associated disruption

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