Issue 1, 2023

Multiplexed fluidic circuit board for controlled perfusion of 3D blood vessels-on-a-chip

Abstract

Three-dimensional (3D) blood vessels-on-a-chip (VoC) models integrate the biological complexity of vessel walls with dynamic microenvironmental cues, such as wall shear stress (WSS) and circumferential strain (CS). However, these parameters are difficult to control and are often poorly reproducible due to the high intrinsic diameter variation of individual 3D-VoCs. As a result, the throughput of current 3D systems is one-channel-at-a-time. Here, we developed a fluidic circuit board (FCB) for simultaneous perfusion of up to twelve 3D-VoCs using a single set of control parameters. By designing the internal hydraulic resistances in the FCB appropriately, it was possible to provide a pre-set WSS to all connected 3D-VoCs, despite significant variation in lumen diameters. Using this FCB, we found that variation of CS or WSS induce morphological changes to human induced pluripotent stem cell (hiPSC)-derived endothelial cells (ECs) and conclude that control of these parameters using a FCB is necessary to study 3D-VOCs.

Graphical abstract: Multiplexed fluidic circuit board for controlled perfusion of 3D blood vessels-on-a-chip

Supplementary files

Article information

Article type
Paper
Submitted
23 juil. 2022
Accepted
21 oct. 2022
First published
09 déc. 2022
This article is Open Access
Creative Commons BY license

Lab Chip, 2023,23, 168-181

Multiplexed fluidic circuit board for controlled perfusion of 3D blood vessels-on-a-chip

M. N. S. de Graaf, A. Vivas, D. G. Kasi, F. E. van den Hil, A. van den Berg, A. D. van der Meer, C. L. Mummery and V. V. Orlova, Lab Chip, 2023, 23, 168 DOI: 10.1039/D2LC00686C

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