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Journal of Medical Engineering & Technology Volume 45, 2021 - Issue 1
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Innovations

The Apex bileaflet mechanical heart valve

Hadi MohammadiFaculty of Applied Science, The Heart Valve Performance Laboratory, School of Engineering, University of British Columbia, Kelowna, CanadaCorrespondence[email protected]
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Arpin BhullarFaculty of Applied Science, The Heart Valve Performance Laboratory, School of Engineering, University of British Columbia, Kelowna, CanadaView further author information
Pages 41-51 | Received 18 Jun 2020, Accepted 15 Nov 2020, Published online: 15 Jan 2021

References

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  • Mohammadi H, Fradet G. Prosthetic aortic heart valves. Cardio Vasc Syst. 2017;5(1):2.
  • Borazjani I. Fluid–structure interaction, immersed boundary-finite element method simulations of bio-prosthetic heart valves, Comput. Methods Appl Mech Eng. 2013;257:103–116.
  • Mohammadi H, Jahandardoost M, Fradet G. Elliptic St. Jude bileaflet MHVs. Cardio Vasc Syst. 2015;3(1):1–6.
  • Jahandardoost M, Fradet G, Mohammadi H. A novel computational model for the hemodynamics of bileaflet mechanical valves in the opening phase. Proc Inst Mech Eng H. 2015;229(3):232–244.
  • Jahandardoost M, Ohlmann L, Fradet G, et al. Effect of the heart rate on the hemodynamics of the elliptic St. Jude medical valve; a computational study. J Mech Med Biol. 2018;18(02):1850014.
  • Jahandardoost M, Fradet G, Mohammadi H. Effect of heart rate on the hemodynamics of bileaflet MHVs prostheses (St. Jude Medical) in the aortic position and in the opening phase: a computational study. Proc Inst Mech Eng Part H J Eng Med. 2016;230(3):1–16.
  • Jahandardoost M, Fradet G, Mohammadi H. Hemodynamic study of the elliptic St. Jude medical valve: a computational study. Proc Inst Mech Eng H. 2016;230(2):85–96.
  • Scotten LS, Siegel R. Importance of shear in prosthetic valve closure dynamic. J Heart Valve Dis. 2011;20(6):664–672.
  • Dasi L, Ge L, Simon H, et al. Vorticity dynamics of a bileaflet MHV in an axisymmetric aorta. Phys Fluids. 2007;19(6):067105.
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  • Bluestein D, Yin W, Affeld K, et al. Flow-induced platelet activation in a MHV. J Heart Valve Dis. 2004;13(3):501–508.
  • Alemu Y, Bluestein D. Flow-induced platelet activation and damage accumulation in a mechanical heart valve: numerical studies. Artif Organs. 2007;31(9):677–688.
  • Alemu Y, Girdhar G, Xenos M, et al. Design optimization of a MHV for reducing valve thrombogenicity–a case study with ATS valve. Saio J. 2010;56(5):389–396.
  • Ge L, Jones SC, Sotiropoulos F, et al. Numerical simulation of flow in MHVs: grid resolution and the assumption of flow symmetry. J Biomech Eng. 2003;125(5):709–718.
  • Sotiropoulos F, Borazjani I. A review of state-of-the-art numerical methods for simulating flow through MHVs. Med Biol Eng Comput. 2009;47(3):245–256.
  • Mohammadi H, Fradet G. Oval housing for the St. Jude medical bileaflet MHV, IMECH, Part H. J Eng Med. 2017;1:954411917719742.

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