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Blood flow simulations in patient-specific geometries of the carotid artery: A systematic review
Abstract Computational Fluid Dynamics (CFD) and Fluid-Structure Interaction (FSI) are
currently widely applied in the study of blood flow parameters and their alterations under …
currently widely applied in the study of blood flow parameters and their alterations under …
Current and future applications of computational fluid dynamics in coronary artery disease
Hemodynamics interacts with the cellular components of human vessels, influencing
function and healthy status. Locally acting hemodynamic forces have been associated—by a …
function and healthy status. Locally acting hemodynamic forces have been associated—by a …
[HTML][HTML] Nonlinear biomechanics of diseased carotid arteries
The aim of this article is to analyse the nonlinear biomechanics of diseased carotid arteries
as a potential tool for predicting the onset of cerebral strokes. A two-way coupled three …
as a potential tool for predicting the onset of cerebral strokes. A two-way coupled three …
Numerical modeling of the fluid-structure interaction during blood flow in a flexible stenotic aorta
The aim of this study is to understand the relationship between blood flow and vascular
mechanics in stenotic and healthy arteries and use this understanding to improve the …
mechanics in stenotic and healthy arteries and use this understanding to improve the …
Effect of stenotic shapes and arterial wall elasticity on the hemodynamics
The present study employs an arbitrary Lagrangian–Eulerian fluid–structure interaction
approach to investigate pulsatile blood flow through a deformable stenosed channel. The …
approach to investigate pulsatile blood flow through a deformable stenosed channel. The …
Myocardial perfusion simulation for coronary artery disease: a coupled patient-specific multiscale model
Patient-specific models of blood flow are being used clinically to diagnose and plan
treatment for coronary artery disease. A remaining challenge is bridging scales from flow in …
treatment for coronary artery disease. A remaining challenge is bridging scales from flow in …
On the role of tissue mechanics in fluid–structure interaction simulations of patient‐specific aortic dissection
Modeling an aortic dissection represents a particular challenge from a numerical
perspective, especially when it comes to the interaction between solid (aortic wall) and liquid …
perspective, especially when it comes to the interaction between solid (aortic wall) and liquid …
Mathematical modelling with experimental validation of viscoelastic properties in non-Newtonian fluids
The paper proposes a mathematical framework for the use of fractional-order impedance
models to capture fluid mechanics properties in frequency-domain experimental datasets …
models to capture fluid mechanics properties in frequency-domain experimental datasets …
[HTML][HTML] On the nonlinear relationship between wall shear stress topology and multi-directionality in coronary atherosclerosis
Abstract Background and Objective In this paper we investigate twelve multi-
directional/topological wall shear stress (WSS) derived metrics and their relationships with …
directional/topological wall shear stress (WSS) derived metrics and their relationships with …
Medical image-based computational fluid dynamics and fluid-structure interaction analysis in vascular diseases
Hemodynamic factors, induced by pulsatile blood flow, play a crucial role in vascular health
and diseases, such as the initiation and progression of atherosclerosis. Computational fluid …
and diseases, such as the initiation and progression of atherosclerosis. Computational fluid …