Fluid–structure interaction modeling in cardiovascular medicine–A systematic review 2017–2019
Finite element analysis (FEA) and computational fluid dynamics (CFD) are generally
insufficient independently to model the physics of the cardiovascular system. Individually …
insufficient independently to model the physics of the cardiovascular system. Individually …
State-of-the-art numerical fluid–structure interaction methods for aortic and mitral heart valves simulations: A review
Numerical fluid–structure interaction (FSI) methods have been widely used to predict the
cardiac mechanics and associated hemodynamics of native and artificial heart valves …
cardiac mechanics and associated hemodynamics of native and artificial heart valves …
Personalized intervention cardiology with transcatheter aortic valve replacement made possible with a non-invasive monitoring and diagnostic framework
One of the most common acute and chronic cardiovascular disease conditions is aortic
stenosis, a disease in which the aortic valve is damaged and can no longer function …
stenosis, a disease in which the aortic valve is damaged and can no longer function …
Reducing long‐term mortality post transcatheter aortic valve replacement requires systemic differentiation of patient‐specific coronary hemodynamics
Background Despite the proven benefits of transcatheter aortic valve replacement (TAVR)
and its recent expansion toward the whole risk spectrum, coronary artery disease is present …
and its recent expansion toward the whole risk spectrum, coronary artery disease is present …
Impact of TAVR on coronary artery hemodynamics using clinical measurements and image‐based patient‐specific in silico modeling
In recent years, transcatheter aortic valve replacement (TAVR) has become the leading
method for treating aortic stenosis. While the procedure has improved dramatically in the …
method for treating aortic stenosis. While the procedure has improved dramatically in the …
New insights into mitral heart valve prolapse after chordae rupture through fluid–structure interaction computational modeling
A Caballero, W Mao, R McKay, C Primiano, S Hashim… - Scientific reports, 2018 - nature.com
Mitral valve (MV) dynamics depends on a force balance across the mitral leaflets, the
chordae tendineae, the mitral annulus, the papillary muscles and the adjacent ventricular …
chordae tendineae, the mitral annulus, the papillary muscles and the adjacent ventricular …
Towards a non-invasive computational diagnostic framework for personalized cardiology of transcatheter aortic valve replacement in interactions with complex …
Aortic stenosis is an acute and chronic cardiovascular disease that often coexists with other
complex valvular, ventricular and vascular diseases (C3VD). Transcatheter aortic valve …
complex valvular, ventricular and vascular diseases (C3VD). Transcatheter aortic valve …
Divergence instability of pipes conveying fluid with uncertain flow velocity
M Rahmati, HR Mirdamadi, S Goli - Physica A: Statistical Mechanics and Its …, 2018 - Elsevier
This article deals with investigation of probabilistic stability of pipes conveying fluid with
stochastic flow velocity in time domain. As a matter of fact, this study has focused on the …
stochastic flow velocity in time domain. As a matter of fact, this study has focused on the …
Fluid-structure interaction and structural simulation of high acceleration effects on surgical repaired human mitral valve biomechanics
Mitral valve dynamics depend on force stability in the mitral leaflets, the mitral annulus, the
chordae tendineae, and the papillary muscles. In chordal rupture conditions, the proper …
chordae tendineae, and the papillary muscles. In chordal rupture conditions, the proper …
Image-based simulation of mitral valve dynamic closure including anisotropy
Simulation of the dynamic behavior of mitral valve closure could improve clinical treatment
by predicting surgical procedures outcome. We propose here a method to achieve this goal …
by predicting surgical procedures outcome. We propose here a method to achieve this goal …