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Towards the virtual artery: a multiscale model for vascular physiology at the physics-chemistry-biology interface.

Alfons G HoekstraSaad AlowayyedEric LorenzNatalia MelnikovaLampros MountrakisBritt van RooijAndrew SvitenkovGábor ZávodszkyPavel Zun
Published in: Philosophical transactions. Series A, Mathematical, physical, and engineering sciences (2017)
This discussion paper introduces the concept of the Virtual Artery as a multiscale model for arterial physiology and pathologies at the physics-chemistry-biology (PCB) interface. The cellular level is identified as the mesoscopic level, and we argue that by coupling cell-based models with other relevant models on the macro- and microscale, a versatile model of arterial health and disease can be composed. We review the necessary ingredients, both models of arteries at many different scales, as well as generic methods to compose multiscale models. Next, we discuss how this can be combined into the virtual artery. Finally, we argue that the concept of models at the PCB interface could or perhaps should become a powerful paradigm, not only as in our case for studying physiology, but also for many other systems that have such PCB interfaces.This article is part of the themed issue 'Multiscale modelling at the physics-chemistry-biology interface'.
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