Mattia Corti scite author profile

We introduce and analyze a discontinuous Galerkin method for the numerical modeling of the equations of Multiple-Network Poroelastic Theory (MPET) in the dynamic formulation. The MPET model can comprehensively describe functional changes in the brain considering multiple scales of fluids. Concerning the spatial discretization, we employ a high-order discontinuous Galerkin method on polygonal and polyhedral grids and we derive stability and a priori error estimates. The temporal discretization is based on a coupling between a Newmark [Formula: see text]-method for the momentum equation and a [Formula: see text]-method for the pressure equations. After the presentation of some verification numerical tests, we perform a convergence analysis using an agglomerated mesh of a geometry of a brain slice. Finally, we present a simulation in a three-dimensional patient-specific brain reconstructed from magnetic resonance images. The model presented in this paper can be regarded as a preliminary attempt to model the perfusion in the brain.

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Impact of Atrial Fibrillation on Left Atrium Haemodynamics: A Computational Fluid Dynamics Study

Corti¹,

Zingaro²,

Dedè³

et al. 2022

Preprint

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We analyze left atrium haemodynamics, highlighting differences among healthy individuals and patients affected by atrial fibrillation. The computational study is based on patient-specific geometries of the left atria to simulate blood flow dynamics. We devise a novel procedure aimed at recovering the boundary conditions for the 3D haemodynamics simulations, particularly useful in absence of specific ones provided by clinical measurements. With this aim, we introduce a parametric definition of the atria displacement, and we employ a closed-loop lumped parameter model of the whole cardiocirculatory system conveniently tuned on the basis of the patient characteristics. We evaluate a number of fluid dynamics indicators for the atrial haemodynamics, validating our numerical results in terms of several clinical measurements; we investigate the impact of geometrical and clinical features on the risk of thrombosis. To analyse the correlation of thrombus formation with atrial fibrillation, coherently with the medical evidence, we propose a novel indicator, which we call age stasis and that arises from the combination of Eulerian and Lagrangian quantities. This indicator identifies regions where the slow flow cannot rinse the chamber properly, accumulating stale blood particles and creating optimal conditions for clot formation.

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MICROWAVE-ASSISTED BRUCITE AND TALC REACTIONS WITH CO₂ AS A PROXY FOR CARBON CAPTURE AND STORAGE BY SERPENTINE

Campione¹,

Militello²,

Yivlialin³

et al. 2022

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Mattia Corti

Impact of atrial fibrillation on left atrium haemodynamics: A computational fluid dynamics study

Numerical modeling of the brain poromechanics by high-order discontinuous Galerkin methods

Impact of Atrial Fibrillation on Left Atrium Haemodynamics: A Computational Fluid Dynamics Study

MICROWAVE-ASSISTED BRUCITE AND TALC REACTIONS WITH CO₂ AS A PROXY FOR CARBON CAPTURE AND STORAGE BY SERPENTINE

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Mattia Corti

Impact of atrial fibrillation on left atrium haemodynamics: A computational fluid dynamics study

Numerical modeling of the brain poromechanics by high-order discontinuous Galerkin methods

Impact of Atrial Fibrillation on Left Atrium Haemodynamics: A Computational Fluid Dynamics Study

MICROWAVE-ASSISTED BRUCITE AND TALC REACTIONS WITH CO2 AS A PROXY FOR CARBON CAPTURE AND STORAGE BY SERPENTINE

Contact Info

Product

Resources

About

MICROWAVE-ASSISTED BRUCITE AND TALC REACTIONS WITH CO₂ AS A PROXY FOR CARBON CAPTURE AND STORAGE BY SERPENTINE