Fannie Gerosa scite author profile

We present a two phase model for microcirculation that describes the interaction of plasma with red blood cells. The model takes into account of typical effects characterizing the microcirculation, such as the Fahraeus-Lindqvist effect and plasma skimming. Besides these features, the model describes the interaction of capillaries with the surrounding tissue. More precisely, the model accounts for the interaction of capillary transmural flow with the surrounding interstitial pressure. Furthermore, the capillaries are represented as one-dimensional channels with arbitrary, possibly curved configuration. The latter two features rely on the unique ability of the model to account for variations of flow rate and pressure along the axis of the capillary, according to a local differential formulation of mass and momentum conservation. Indeed, the model stands on a solid mathematical foundation, which is also addressed in this work. In particular, we present the model derivation, the variational formulation and its approximation using the finite element method. Finally, we conclude the work with a comparative computational study of the importance of the Fahraeus-Lindqvist, plasma skimming and capillary leakage effects on the distribution of flow in a microvascular network.

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An unfitted mesh semi‐implicit coupling scheme for fluid‐structure interaction with immersed solids

Fernández

Gerosa

2020

Numerical Meth Engineering

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Unfitted mesh finite element approximations of immersed incompressible fluidstructure interaction problems which efficiently avoid strong coupling without compromising stability and accuracy are rare in the literature. Moreover, most of the existing approaches introduce additional unknowns or are limited by penalty terms which yield ill conditioning issues. In this paper, we introduce a new unfitted mesh semi-implicit coupling scheme which avoids these issues. To this purpose, we provide a consistent generalization of the projection based semi-implicit coupling paradigm of [Int.

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A mechanically consistent model for fluid–structure interactions with contact including seepage

Burman

Fernández

Frei

et al. 2022

Computer Methods in Applied Mechanics and Engineering

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Fannie Gerosa

A computational model for microcirculation including Fahraeus‐Lindqvist effect, plasma skimming and fluid exchange with the tissue interstitium

An unfitted mesh semi‐implicit coupling scheme for fluid‐structure interaction with immersed solids

A mechanically consistent model for fluid–structure interactions with contact including seepage

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