Flow-driven opening of a valvular leaflet

G. PEDRIZZETTI; F. DOMENICHINI

doi:10.1017/S002211200600303X

Abstract

The understanding of valvular opening is a central issue in cardiac flows, whose analysis is often prohibited by the unavailability of (in vivo) data about tissue properties. Asymptotic or approximate representations of fluid–structure interaction are thus sought. The dynamics of an accelerated stream, in a two-dimensional channel initially closed by a rigid inertialess movable leaflet, is studied as a simple model problem aimed at demonstrating the main phenomena contributing to the fluid–structure interaction. The problem is solved by the coupled numerical solution of equations for the flow and solid. The results show that the leaflet initially opens in a no-shedding regime, driven by fluid mass conservation and a predictable dynamics. Then the leaflet motion jumps, after the saturation of a very rapid intermediate vortex-shedding phase, to the asymptotic slower regime with a stable self-similar wake structure.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Dasi, L. P. Ge, L. Simon, H. A. Sotiropoulos, F. and Yoganathan, A. P. 2007. Vorticity dynamics of a bileaflet mechanical heart valve in an axisymmetric aorta. Physics of Fluids, Vol. 19, Issue. 6,

Pedrizzetti, Gianni and Domenichini, Federico 2007. Asymmetric Opening of a Simple Bileaflet Valve. Physical Review Letters, Vol. 98, Issue. 21,

Nejadmalayeri, AliReza Hoffmann, Klaus and Dietiker, Jean-François 2007. Numerical Simulation of Blood Flow Through Heart Valves.

Borazjani, Iman Ge, Liang and Sotiropoulos, Fotis 2008. Curvilinear immersed boundary method for simulating fluid structure interaction with complex 3D rigid bodies. Journal of Computational Physics, Vol. 227, Issue. 16, p. 7587.

Sotiropoulos, Fotis and Borazjani, Iman 2009. A review of state-of-the-art numerical methods for simulating flow through mechanical heart valves. Medical & Biological Engineering & Computing, Vol. 47, Issue. 3, p. 245.

Romano, Giovanni P. Querzoli, Giorgio and Falchi, Massimo 2009. Investigation of vortex dynamics downstream of moving leaflets using robust image velocimetry. Experiments in Fluids, Vol. 47, Issue. 4-5, p. 827.

DE TULLIO, M. D. CRISTALLO, A. BALARAS, E. and VERZICCO, R. 2009. Direct numerical simulation of the pulsatile flow through an aortic bileaflet mechanical heart valve. Journal of Fluid Mechanics, Vol. 622, Issue. , p. 259.

Sotiropoulos, Fotis Aidun, Cyrus Borazjani, Iman and MacMeccan, Robert 2010. Image-Based Computational Modeling of the Human Circulatory and Pulmonary Systems. p. 105.

PEDRIZZETTI, GIANNI 2010. Vortex formation out of two-dimensional orifices. Journal of Fluid Mechanics, Vol. 655, Issue. , p. 198.

Smadi, O. Hassan, I. Pibarot, P. and Kadem, L. 2010. Numerical and experimental investigations of pulsatile blood flow pattern through a dysfunctional mechanical heart valve. Journal of Biomechanics, Vol. 43, Issue. 8, p. 1565.

DOMENICHINI, F. 2011. Three-dimensional impulsive vortex formation from slender orifices. Journal of Fluid Mechanics, Vol. 666, Issue. , p. 506.

Vukicevic, Marija and Pedrizzetti, Gianni 2011. Opening of a wall-mounted leaflet by a single flow pulse. Physical Review E, Vol. 84, Issue. 1,

Vukicevic, Marija and Pedrizzetti, Gianni 2011. Role of inertia in the interaction between oscillatory flow and a wall-mounted leaflet. Physical Review E, Vol. 83, Issue. 1,

Dahl, S. K. Vierendeels, J. Degroote, J. Annerel, S. Hellevik, L. R. and Skallerud, B. 2012. FSI simulation of asymmetric mitral valve dynamics during diastolic filling. Computer Methods in Biomechanics and Biomedical Engineering, Vol. 15, Issue. 2, p. 121.

Das, Prashant Govardhan, R. N. and Arakeri, J. H. 2013. Effect of hinged leaflets on vortex pair generation. Journal of Fluid Mechanics, Vol. 730, Issue. , p. 626.

Ledesma-Alonso, R. Guzmán, J. E. V. and Zenit, R. 2014. Experimental study of a model valve with flexible leaflets in a pulsatile flow. Journal of Fluid Mechanics, Vol. 739, Issue. , p. 338.

Okafor, Ikechukwu U. Santhanakrishnan, Arvind Raghav, Vrishank S. and Yoganathan, Ajit P. 2015. Role of Mitral Annulus Diastolic Geometry on Intraventricular Filling Dynamics. Journal of Biomechanical Engineering, Vol. 137, Issue. 12,

Hernández-Badillo, C. Guzmán, J.E.V. and Zenit, R. 2015. Effect of the curvature of elastic plates on the evolution of pulsatile flow fields. Journal of Fluids and Structures, Vol. 56, Issue. , p. 177.

Auricchio, Ferdinando Lefieux, Adrien Reali, Alessandro and Veneziani, Alessandro 2016. A locally anisotropic fluid–structure interaction remeshing strategy for thin structures with application to a hinged rigid leaflet. International Journal for Numerical Methods in Engineering, Vol. 107, Issue. 2, p. 155.

Zakaria, Mohamad Shukri Ismail, Farzad Tamagawa, Masaaki Aziz, Ahmad Fazli Abdul Wiriadidjaja, Surjatin Basri, Adi Azrif and Ahmad, Kamarul Arifin 2017. Review of numerical methods for simulation of mechanical heart valves and the potential for blood clotting. Medical & Biological Engineering & Computing, Vol. 55, Issue. 9, p. 1519.

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Flow-driven opening of a valvular leaflet

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