Add to ORKGInternational audienceIn human lungs, the long-range oriented transport of mucus by the bronchial epithelium multi-ciliated cells, a process referred to as muco-ciliary clearance, is a key self-defense mechanism protecting the respiratory tract from inhaled particles and pathogens. Yet, the biophysical processes allowing such orientational organization remain unclear. In this work, we show that in-vitro reconstituted human bronchial epithelia exhibit active orientational self-organization driven by the mucus-cilia coupling. The ciliary orientation typically forms circular patterns associated with mucus swirls, on length scales depending on the ciliary density and mucus properties. Numerical simulations are used to investigate the two-dimens...
International audienceThe mucociliary function of the bronchial epithelium ensures the continuous cl...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...
International audienceIn the lung, the airway surface is protected by mucus, whose transport and eva...
International audienceThe respiratory tract is protected by mucus, a complex fluid transported along...
International audienceMucociliary clearance is a biomechanical mechanism of airway protection. It co...
Mucus clearance constitutes the primary defence of the respiratory system against viruses, bacteria ...
National audienceThe bronchial epithelium mucociliary function ensuring the lung continuous clearanc...
Mucus clearance constitutes the primary defence of the respiratory system against viruses, bacteria ...
Mathematical modelling of the fluid mechanics of mucociliary clearance (MCC) is reviewed and future ...
Fluid flow generated by a ciliated epithelium is a fascinating evidence of collective behaviour in n...
The airway surface of human lung is covered by mucus, which constitutes a natural protection for the...
International audienceThe mucociliary function of the bronchial epithelium ensures the continuous cl...
The observed spatiotemporal ciliary beat patterns leading to proper mucociliary clearance on multici...
A multi-mode nonlinear constitutive model for mucus is constructed directly from micro- and macro-rh...
International audienceThe mucociliary function of the bronchial epithelium ensures the continuous cl...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...
International audienceIn the lung, the airway surface is protected by mucus, whose transport and eva...
International audienceThe respiratory tract is protected by mucus, a complex fluid transported along...
International audienceMucociliary clearance is a biomechanical mechanism of airway protection. It co...
Mucus clearance constitutes the primary defence of the respiratory system against viruses, bacteria ...
National audienceThe bronchial epithelium mucociliary function ensuring the lung continuous clearanc...
Mucus clearance constitutes the primary defence of the respiratory system against viruses, bacteria ...
Mathematical modelling of the fluid mechanics of mucociliary clearance (MCC) is reviewed and future ...
Fluid flow generated by a ciliated epithelium is a fascinating evidence of collective behaviour in n...
The airway surface of human lung is covered by mucus, which constitutes a natural protection for the...
International audienceThe mucociliary function of the bronchial epithelium ensures the continuous cl...
The observed spatiotemporal ciliary beat patterns leading to proper mucociliary clearance on multici...
A multi-mode nonlinear constitutive model for mucus is constructed directly from micro- and macro-rh...
International audienceThe mucociliary function of the bronchial epithelium ensures the continuous cl...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...
In this work, we aim to analyze and compare the mechanisms controlling the volume of mucus in the br...