*** Engineered modular microphysiological models of the human airway clearance phenomena *** 
Authors: Pedersoli, L., Zhang, S., Briatico-Vangosa, F., Petrini, P., Cardinaels, R., den Toonder, J.M.J. & Peneda Pacheco, D. 
Department of Mechanical Engineering and Institute for Complex Molecular Systems, Eindhoven University of Technology

Corresponding author: J.M.J. den Toonder 

Contact Information: 

j.m.j.d.toonder@tue.nl

Eindhoven University of Technology  Department of Mechanical Engineering 
P.O. Box 513
5600 MB Eindhoven
The Netherlands

***General Introduction***
This dataset contains data collected during experiments at Eindhoven University of Technology, as reported in the journal article: doi: 10.1002/bit.27866
It is being made public both to act as supplementary data for the publication and in order for other researchers to use this data in their own work, under the condition that the source publication is appropriately cited.

The data in this data set was collected in the Microfab/lab and the Polymer Technology lab of Eindhoven University of Technology  Department of Mechanical Engineering, in 2019/2020.
This work was supported by the European Research Council (ERC) Advanced Grant Bio-Plan project under grant agreement no. 833214.

***Purpose of the test campaign***
This work demonstrates ad hoc mucus models of physiological and pathological mucus are combined with magnetic artificial cilia to model mucociliary transport in both physiological and pathological states. The modular concept adopted in this study enables the development of mucociliary clearance models with high versatility since these can be easily modified to reproduce phenomena characteristic of healthy and diseased human airways while allowing to determine the effect of each parameter and/or structure separately on the overall mucociliary transport. The data are experimentally obtained with methods described in the publication.

***Description of the data in this data set***
The data set is provided both in .xlsx and .csv format. Each file contains the data presented in a specific figure in the publication. Each filename corresponds with the figure of which it contains the data.
