Simple-Flow: A 3D-Printed Multiwell Flow Plate to Coculture Primary Human Lung Cells at the Air-Liquid Interface.

Immortalized epithelial cell lines and animal models have been used in fundamental and preclinical research to study pulmonary diseases. However valuable, though, these models incompletely recapitulate the in vivo human lung, which leads to low predictive outcomes in potential respiratory treatments. Advanced technology and cell culture techniques stimulate the development of improved models that more closely mimic the physiology of the human lung. Nonetheless, most of these models are technically demanding and have a low throughput and reproducibility. Here, we describe a robust fluidic device consisting of a biocompatible and customizable 3D-printed cell culture plate, the Simple-Flow, which has medium throughput, is simple to manufacture, and is easy to set up. As a proof of principle, human primary bronchial epithelial cells (hPBECs) and human pulmonary microvascular endothelial cells (hMVECs) were cocultured on the apical and basolateral sides of the inset membranes, respectively. While hPBECs were cultured at the air-liquid interface to induce mucociliary differentiation, hMVECs were exposed to flow medium for up to 2 weeks. We show the versatility of 3D-printing technology in designing in vitro models for cell culturing applications, such as pediatric lung diseases or other pulmonary disorders.