F. Cornat scite author profile

F. Cornat

5Publications

23Citation Statements Received

61Citation Statements Given

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The stentable in vitro artery: an instrumented platform for endovascular device development and optimization

Antoine¹,

Cornat²,

Barakat³

2016

J. R. Soc. Interface.

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Although vascular disease is a leading cause of mortality, in vitro tools for controlled, quantitative studies of vascular biological processes in an environment that reflects physiological complexity remain limited. We developed a novel in vitro artery that exhibits a number of unique features distinguishing it from tissue-engineered or organ-on-a-chip constructs, most notably that it allows deployment of endovascular devices including stents, quantitative real-time tracking of cellular responses and detailed measurement of flow velocity and lumenal shear stress using particle image velocimetry. The wall of the stentable in vitro artery consists of an annular collagen hydrogel containing smooth muscle cells (SMCs) and whose lumenal surface is lined with a monolayer of endothelial cells (ECs). The system has in vivo dimensions and physiological flow conditions and allows automated high-resolution live imaging of both SMCs and ECs. To demonstrate proof-of-concept, we imaged and quantified EC wound healing, SMC motility and altered shear stresses on the endothelium after deployment of a coronary stent. The stentable in vitro artery provides a unique platform suited for a broad array of research applications. Wide-scale adoption of this system promises to enhance our understanding of important biological events affecting endovascular device performance and to reduce dependence on animal studies.

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Progress in the Development of the Pulsatile CorWave LVAD

Botterbusch¹,

Barabino²,

Cornat³

et al. 2021

The Journal of Heart and Lung Transplantation

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Acute and Chronic Pre-Clinical Implants of the CorWave LVAD: Hydraulic, Hemocompatibility and Hemodynamic Results

Botterbusch¹,

Barabino²,

Cornat³

et al. 2020

The Journal of Heart and Lung Transplantation

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Corwave LVAD Development Update

Snyder¹,

Bourquin²,

Cornat³

et al. 2019

The Journal of Heart and Lung Transplantation

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Supplementary material from "The stentable in vitro artery: an instrumented platform for endovascular device development and optimization"

Antoine¹,

Cornat²,

Barakat³

2016

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F. Cornat

The stentable in vitro artery: an instrumented platform for endovascular device development and optimization

Progress in the Development of the Pulsatile CorWave LVAD

Acute and Chronic Pre-Clinical Implants of the CorWave LVAD: Hydraulic, Hemocompatibility and Hemodynamic Results

Corwave LVAD Development Update

Supplementary material from "The stentable in vitro artery: an instrumented platform for endovascular device development and optimization"

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