Computational characterization of the dish-in-a-dish, a high yield culture platform for endothelial shear stress studies on the orbital shaker

Rob Driessen, Feihu Zhao, Sandra Hofmann, Carlijn Bouten, Cecilia Sahlgren, Oscar Stassen (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademicpeer review

13 Citaten (Scopus)

Samenvatting

Endothelial cells sense and respond to shear stress. Different in vitro model systems have been used to study the cellular responses to shear stress, but these platforms do not allow studies on high numbers of cells under uniform and controllable shear stress. The annular dish, or dish-in-a-dish (DiaD), on the orbital shaker has been proposed as an accessible system to overcome these challenges. However, the influence of the DiaD design and the experimental parameters on the shear stress patterns is not known. In this study, we characterize different designs and experimental parameters (orbit size, speed and fluid height) using computational fluid dynamics. We optimize the DiaD for an atheroprotective flow, combining high shear stress levels with a low oscillatory shear index (OSI). We find that orbit size determines the DiaD design and parameters. The shear stress levels increase with increasing rotational speed and fluid height. Based on our optimization, we experimentally compare the 134/56 DiaD with regular dishes for cellular alignment and KLF2, eNOS, CDH2 and MCP1 expression. The calculated OSI has a strong impact on alignment and gene expression, emphasizing the importance of characterizing shear profiles in orbital setups.

Originele taal-2Engels
Artikelnummer552
Aantal pagina's14
TijdschriftMicromachines
Volume11
Nummer van het tijdschrift6
DOI's
StatusGepubliceerd - 1 jun. 2020

Financiering

We acknowledge the support from the 1Valve consortium, funded by the Netherlands Cardiovascular Research Initiative (CVON 2012-01): the Dutch Heart Foundation, Dutch Federation of University Medical Centers, the Netherlands Organization for Health Research and Development and the Royal Netherlands Academy of Sciences. We further acknowledge the support from the ForceMorph project, funded by the ERC, project number 771168; and from the REMOTE project, funded by ERC, project number 336043. In the context of the Open Access to Research data Pilot of the ERC, the data underlying this manuscript will be made accessible at http://doi.org/10.4121/uuid:817dbbc8-f3d7-4b91-b809-1ea25214bd3c.

FinanciersFinanciernummer
Dutch Federation of University Medical Centers
Dutch Heart Foundation
Netherlands Cardiovascular Research InitiativeCVON 2012-01
Netherlands Organization for Health Research and Development
Netherlands Institute for Neuroscience NIN - KNAW
Seventh Framework Programme336043, 771168
European Research Council

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