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A Computational Fluid–Structure Interaction Study for Carotids With Different Atherosclerotic Plaques

Lorenzo Bennati, Christian Vergara, Maurizio Domanin, Chiara Malloggi, Daniele Bissacco, Santi Trimarchi, Vincenzo Silani, Gianfranco Parati, Renato Casana

2021Journal of Biomechanical Engineering25 citationsDOI

Abstract

Atherosclerosis is a systemic disease that leads to accumulation of deposits, known as atherosclerotic plaques, within the walls of the carotids. In particular, three types of plaque can be distinguished: soft, fibrous, and calcific. Most of the computational studies who investigated the interplay between the plaque and the blood flow on patient-specific geometries used nonstandard medical images to directly delineate and segment the plaque and its components. However, these techniques are not so widely available in the clinical practice. In this context, the aim of our work was twofold: (i) to propose a new geometric tool that allowed to reconstruct a plausible plaque in the carotids from standard images and (ii) to perform three-dimensional (3D) fluid-structure interaction (FSI) simulations where we compared some fluid-dynamic and structural quantities among 15 patients characterized by different typologies of plaque. Our results highlighted that both the morphology and the mechanical properties of different plaque components play a crucial role in determining the vulnerability of the plaque.

Topics & Concepts

Fluid–structure interactionContext (archaeology)Vulnerable plaqueComputer scienceFibrous capBlood flowBiomedical engineeringMedicineRadiologyPathologyFinite element methodPhysicsGeologyPaleontologyThermodynamicsCerebrovascular and Carotid Artery DiseasesCardiovascular Health and Disease PreventionMedical Image Segmentation Techniques
A Computational Fluid–Structure Interaction Study for Carotids With Different Atherosclerotic Plaques | Litcius