Issue 19, 2022

A similarity scaling approach for organ-on-chip devices

Abstract

Organ-on-chip devices (OoCs) provide more nuanced insights into (patho)physiological processes of the human body than static tissue models, and are currently the most promising approach to emulating human (patho)physiology in vitro. OoC designs vary greatly and questions remain as to how to maximize biomimicry and clinical translatability of the in vitro findings. Scaling is critical, yet has largely been ad hoc, consisting in matching one or a few variables between the OoC and the target organ. This has limited the predictive value of OoCs. Here, we propose a systematic approach based on the principle of similitude widely used in the physical sciences, and present three case studies from the recent literature to demonstrate how the approach works. A lung-on-a-chip and a liver-on-a-chip both satisfied important similarity criteria, and therefore yielded results that were in good agreement with clinical data. A gut–liver system failed to satisfy a key criterion of kinematic similarity, and yielded unphysiological pharmacokinetic responses in vitro. The similarity scaling approach promises to improve markedly the design and operation of organ- and human-on-chip devices.

Graphical abstract: A similarity scaling approach for organ-on-chip devices

Supplementary files

Article information

Article type
Communication
Submitted
12 Jul 2022
Accepted
30 Aug 2022
First published
31 Aug 2022
This article is Open Access
Creative Commons BY-NC license

Lab Chip, 2022,22, 3663-3667

A similarity scaling approach for organ-on-chip devices

J. J. Feng and S. Hedtrich, Lab Chip, 2022, 22, 3663 DOI: 10.1039/D2LC00641C

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