The cardiovascular system: mathematical modelling, numerical algorithms and clinical applications

A Quarteroni, A Manzoni, C Vergara - Acta Numerica, 2017 - cambridge.org
Mathematical and numerical modelling of the cardiovascular system is a research topic that
has attracted remarkable interest from the mathematical community because of its intrinsic …

Blood flow simulations in patient-specific geometries of the carotid artery: A systematic review

D Lopes, H Puga, J Teixeira, R Lima - Journal of Biomechanics, 2020 - Elsevier
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 …

Physics-informed neural networks (PINNs) for 4D hemodynamics prediction: an investigation of optimal framework based on vascular morphology

X Zhang, B Mao, Y Che, J Kang, M Luo, A Qiao… - Computers in Biology …, 2023 - Elsevier
Hemodynamic parameters are of great significance in the clinical diagnosis and treatment of
cardiovascular diseases. However, noninvasive, real-time and accurate acquisition of …

[图书][B] Mathematical modelling of the human cardiovascular system: data, numerical approximation, clinical applications

A Quarteroni, A Manzoni, C Vergara - 2019 - books.google.com
Mathematical and numerical modelling of the human cardiovascular system has attracted
remarkable research interest due to its intrinsic mathematical difficulty and the increasing …

Geometric multiscale modeling of the cardiovascular system, between theory and practice

A Quarteroni, A Veneziani, C Vergara - Computer Methods in Applied …, 2016 - Elsevier
This review paper addresses the so called geometric multiscale approach for the numerical
simulation of blood flow problems, from its origin (that we can collocate in the second half …

On the choice of outlet boundary conditions for patient-specific analysis of aortic flow using computational fluid dynamics

S Pirola, Z Cheng, OA Jarral, DP O'Regan… - Journal of …, 2017 - Elsevier
Boundary conditions (BCs) are an essential part in computational fluid dynamics (CFD)
simulations of blood flow in large arteries. Although several studies have investigated the …

The influence of inlet velocity profile on predicted flow in type B aortic dissection

CH Armour, B Guo, S Pirola, S Saitta, Y Liu… - … and modeling in …, 2021 - Springer
In order for computational fluid dynamics to provide quantitative parameters to aid in the
clinical assessment of type B aortic dissection, the results must accurately mimic the …

[HTML][HTML] Patient-specific computational fluid dynamics—assessment of aortic hemodynamics in a spectrum of aortic valve pathologies

P Youssefi, A Gomez, T He, L Anderson… - The Journal of thoracic …, 2017 - Elsevier
Objectives The complexity of aortic disease is not fully exposed by aortic dimensions alone,
and morbidity or mortality can occur before intervention thresholds are met. Patient-specific …

Impact of patient-specific inflow velocity profile on hemodynamics of the thoracic aorta

P Youssefi, A Gomez, C Arthurs… - Journal of …, 2018 - asmedigitalcollection.asme.org
Computational fluid dynamics (CFD) provides a noninvasive method to functionally assess
aortic hemodynamics. The thoracic aorta has an anatomically complex inlet comprising of …

A review on computational fluid dynamics modelling in human thoracic aorta

AD Caballero, S Laín - Cardiovascular Engineering and Technology, 2013 - Springer
It has long been recognized that the forces and stresses produced by the blood flow on the
walls of the cardiovascular system are central to the development of different cardiovascular …