Comparison of the hemodynamic and thrombogenic performance of two bileaflet mechanical heart valves using a CFD/FSI model.

@article{Dumont2007ComparisonOT,
  title={Comparison of the hemodynamic and thrombogenic performance of two bileaflet mechanical heart valves using a CFD/FSI model.},
  author={Kris Dumont and Jan A. Vierendeels and Radoslav Kaminsky and Guido J Van Nooten and Pascal R. Verdonck and Danny Bluestein},
  journal={Journal of biomechanical engineering},
  year={2007},
  volume={129 4},
  pages={
          558-65
        }
}
The hemodynamic and the thrombogenic performance of two commercially available bileaflet mechanical heart valves (MHVs)--the ATS Open Pivot Valve (ATS) and the St. Jude Regent Valve (SJM), was compared using a state of the art computational fluid dynamics-fluid structure interaction (CFD-FSI) methodology. A transient simulation of the ATS and SJM valves was conducted in a three-dimensional model geometry of a straight conduit with sudden expansion distal the valves, including the valve housing… 
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TLDR
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TLDR
A strong coupling algorithm for the partitioned Fluid-Structure Interaction simulation of a BMHV is presented and the leaflet kinematics and the general flow field are discussed, with special focus on the shear stresses on the valve leaflets.
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TLDR
Results showed that as the stenosis and insufficiency increased there were more flow separation and increased local mean velocity downstream of the leaflets, and the detected elevated velocity fluctuations were associated with higher Reynolds shear stresses levels, which may increase the chances of blood damage and platelet activation and may lead to increased risk of blood clot formation.
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References

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TLDR
Findings indicate that the conduit shape at the valve outlet can affect the hydrodynamic characteristics of bileaflet valves.
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TLDR
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TLDR
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TLDR
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TLDR
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TLDR
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