2021
DOI: 10.1098/rsif.2021.0068
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A homogenized constrained mixture model of restenosis and vascular remodelling after balloon angioplasty

Abstract: Restenosis is one of the main adverse effects of the treatment of atherosclerosis through balloon angioplasty or stenting. During the intervention, the arterial wall is overstretched, causing a cascade of cellular events and subsequent neointima formation. This mechanical stimulus and its mechanobiological effects can be reproduced in biomechanical simulations. The aim of these models is to predict the long-term outcome of these procedures, to help increase the understanding of restenosis formation and to allo… Show more

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Cited by 10 publications
(11 citation statements)
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“…Different modelling strategies, based on continuum (e.g. [7,8]) and/or discrete (e.g. [9]) approaches, have been adopted [6].…”
Section: Introductionmentioning
confidence: 99%
“…Different modelling strategies, based on continuum (e.g. [7,8]) and/or discrete (e.g. [9]) approaches, have been adopted [6].…”
Section: Introductionmentioning
confidence: 99%
“…Alternatively, a handful of continuum models also exist that utilise partial differential equations (PDEs), motivated through consideration of the underlying physics and biology [37][38][39]. Moreover, there are constrained mixture models that investigate long-term restenosis evolution, simulating the significance of initial vascular injury and subsequent tissue growth within a constitutive framework describing arterial kinematics [40][41][42][43].…”
Section: Mathematical and Computational Modelling Of Arterial Re-narr...mentioning
confidence: 99%
“…Moreover, for a more exhaustive vision related to the modeling of vascular adaptation, the reader should be directed also to multiscale frameworks entirely based on continuum models (which are not the object of this review), implying that also the cell scale is represented through ODE/PDE systems. Examples can be found in models of atherosclerosis (e.g., Cilla et al (2014) , Di Tomaso et al (2015) , Thon et al (2018) and Pleouras et al (2020) ), ISR (e.g., Lally and Prendergast (2006) , Escuer et al (2019) and Maes et al (2021) ), vein graft remodeling (e.g., Budu-Grajdeanu et al (2008) and Casarin et al (2017) ) and other vascular applications (see Humphrey (2021) for an extensive review on constrained mixture models of tissue growth and remodeling). The difference of these works with those reviewed in Multiscale Agent-Based Modeling Frameworks of Vascular Pathophysiology mainly regarded the representation of the cell scale (through a ODE/PDE versus ABM approach), which thus determined the nature of the multiscale framework to be either hybrid (i.e., based on the combination of continuum models with an ABM) or fully-continuum.…”
Section: Agent- Versus Continuum-based Multiscale Framework: Strengths and Limitationsmentioning
confidence: 99%
“…Besides the works by Casarin et al (2017) and Maes et al (2021) , in which a set of ODEs was adopted to describe the temporal dynamics of tissue growth and remodeling, in all the other cited continuum-based studies PDE systems were implemented to capture the spatio-temporal evolution of the species of interest (e.g., growth factors, cells, ECM components, LDL), and thus the subsequent tissue remodeling, in response to fluid or mechanical stimuli. For example, in the patient-specific atherosclerosis model by Pleouras et al (2020) , CFD simulations were coupled with a PDE system describing mass transport of monocytes, LDL, and high-density lipoproteins, and inflammatory species’ dynamics in the arterial wall, ultimately leading to plaque growth over time ( Figure 11 ).…”
Section: Agent- Versus Continuum-based Multiscale Framework: Strengths and Limitationsmentioning
confidence: 99%