[图书][B] Mathematical modelling of the human cardiovascular system: data, numerical approximation, clinical applications
Mathematical and numerical modelling of the human cardiovascular system has attracted
remarkable research interest due to its intrinsic mathematical difficulty and the increasing …
remarkable research interest due to its intrinsic mathematical difficulty and the increasing …
A geometric multiscale model for the numerical simulation of blood flow in the human left heart
We present a new computational model for the numerical simulation of blood flow in the
human left heart. To this aim, we use the Navier-Stokes equations in an Arbitrary Lagrangian …
human left heart. To this aim, we use the Navier-Stokes equations in an Arbitrary Lagrangian …
Fluid–structure-electrophysiology interaction (FSEI) in the left-heart: a multi-way coupled computational model
In this study we present a computational model for unprecedented simulations of the left
heart in realistic physiological conditions. To this aim, models for the electrical network of …
heart in realistic physiological conditions. To this aim, models for the electrical network of …
FSEI-GPU: GPU accelerated simulations of the fluid–structure–electrophysiology interaction in the left heart
The reliability of cardiovascular computational models depends on the accurate solution of
the hemodynamics, the realistic characterization of the hyperelastic and electric properties of …
the hemodynamics, the realistic characterization of the hyperelastic and electric properties of …
[HTML][HTML] A Python-based flow solver for numerical simulations using an immersed boundary method on single GPUs
We present an efficient implementation for the simulation of three-dimensional,
incompressible flow around moving bodies with complex geometries on single GPUs, based …
incompressible flow around moving bodies with complex geometries on single GPUs, based …
An immersed-boundary/isogeometric method for fluid–structure interaction involving thin shells
A computational framework is designed to accurately predict the elastic response of thin
shells undergoing large displacements induced by local hydrodynamic forces, as well as to …
shells undergoing large displacements induced by local hydrodynamic forces, as well as to …
[HTML][HTML] Numerical simulations of flow patterns in the human left ventricle model with a novel dynamic mesh morphing approach based on radial basis function
F Xu, S Kenjereš - Computers in Biology and Medicine, 2021 - Elsevier
We present a new numerical simulation framework for prediction of flow patterns in the
human left ventricle model. In this study, a radial basis function (RBF) mesh morphing …
human left ventricle model. In this study, a radial basis function (RBF) mesh morphing …
Slide deep reinforcement learning networks: Application for left ventricle segmentation
W Zhang, X Ding, Y Liu, B Qiao - Pattern Recognition, 2023 - Elsevier
Automatic segmentation of the left ventricle (LV) in four-chamber view images is critical for
computer-aided cardiac disease diagnosis. The complex structure of the cardiac image and …
computer-aided cardiac disease diagnosis. The complex structure of the cardiac image and …
[HTML][HTML] Impact of prosthetic mitral valve orientation on the ventricular flow field: Comparison using patient-specific computational fluid dynamics
Significant mitral valve regurgitation creates progressive adverse remodeling of the left
ventricle (LV). Replacement of the failing valve with a prosthesis generally improves patient …
ventricle (LV). Replacement of the failing valve with a prosthesis generally improves patient …
High-fidelity model of the human heart: An immersed boundary implementation
Computer simulations of cardiovascular flows can be key to improving the predicting
capabilities of standard diagnostic tools, to refine surgical techniques and perform virtual …
capabilities of standard diagnostic tools, to refine surgical techniques and perform virtual …