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Journal Abstract Search

142 related items for PubMed ID: 16995755

  • 1. Asymptotically consistent numerical approximation of hemolysis.
    Farinas MI, Garon A, Lacasse D, N'dri D.
    J Biomech Eng; 2006 Oct; 128(5):688-96. PubMed ID: 16995755
    [Abstract] [Full Text] [Related]

  • 2. Fast three-dimensional numerical hemolysis approximation.
    Garon A, Farinas MI.
    Artif Organs; 2004 Nov; 28(11):1016-25. PubMed ID: 15504117
    [Abstract] [Full Text] [Related]

  • 3. Intermittent stops of shear reduce the mechanical damage of red blood cells.
    Mizunuma H, Sakai S.
    Artif Organs; 2007 Jun; 31(6):472-5. PubMed ID: 17537060
    [Abstract] [Full Text] [Related]

  • 4. Mechanical hemolysis in blood flow: user-independent predictions with the solution of a partial differential equation.
    Lacasse D, Garon A, Pelletier D.
    Comput Methods Biomech Biomed Engin; 2007 Feb; 10(1):1-12. PubMed ID: 18651267
    [Abstract] [Full Text] [Related]

  • 5. A novel formulation for blood trauma prediction by a modified power-law mathematical model.
    Grigioni M, Morbiducci U, D'Avenio G, Benedetto GD, Del Gaudio C.
    Biomech Model Mechanobiol; 2005 Dec; 4(4):249-60. PubMed ID: 16283225
    [Abstract] [Full Text] [Related]

  • 6. Evaluation of Eulerian and Lagrangian models for hemolysis estimation.
    Taskin ME, Fraser KH, Zhang T, Wu C, Griffith BP, Wu ZJ.
    ASAIO J; 2012 Dec; 58(4):363-72. PubMed ID: 22635012
    [Abstract] [Full Text] [Related]

  • 7. A validated computational fluid dynamics model to estimate hemolysis in a rotary blood pump.
    Arvand A, Hormes M, Reul H.
    Artif Organs; 2005 Jul; 29(7):531-40. PubMed ID: 15982281
    [Abstract] [Full Text] [Related]

  • 8. Extending the Power-Law Hemolysis Model to Complex Flows.
    Faghih MM, Keith Sharp M.
    J Biomech Eng; 2016 Dec 01; 138(12):. PubMed ID: 27657486
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  • 11. Correlations between the experimental and numerical investigations on the mechanical properties of erythrocyte by laser stretching.
    Li C, Liu YP, Liu KK, Lai AK.
    IEEE Trans Nanobioscience; 2008 Mar 01; 7(1):80-90. PubMed ID: 18334458
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  • 12. The cumulative and sublethal effects of turbulence on erythrocytes in a stirred-tank model.
    Aziz A, Werner BC, Epting KL, Agosti CD, Curtis WR.
    Ann Biomed Eng; 2007 Dec 01; 35(12):2108-20. PubMed ID: 17909969
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  • 13. A viscoelastic model of shear-induced hemolysis in laminar flow.
    Arwatz G, Smits AJ.
    Biorheology; 2013 Dec 01; 50(1-2):45-55. PubMed ID: 23619152
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  • 16. Two-dimensional simulation of red blood cell deformation and lateral migration in microvessels.
    Secomb TW, Styp-Rekowska B, Pries AR.
    Ann Biomed Eng; 2007 May 01; 35(5):755-65. PubMed ID: 17380392
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  • 17. Prosthetic heart valves' mechanical loading of red blood cells in patients with hereditary membrane defects.
    Grigioni M, Caprari P, Tarzia A, D'Avenio G.
    J Biomech; 2005 Aug 01; 38(8):1557-65. PubMed ID: 15958211
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  • 18. Human red blood cells deformed under thermal fluid flow.
    Foo JJ, Chan V, Feng ZQ, Liu KK.
    Biomed Mater; 2006 Mar 01; 1(1):1-7. PubMed ID: 18458379
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  • 19. A strain-based flow-induced hemolysis prediction model calibrated by in vitro erythrocyte deformation measurements.
    Chen Y, Sharp MK.
    Artif Organs; 2011 Feb 01; 35(2):145-56. PubMed ID: 21091515
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  • 20. Numerical estimation of blood damage in artificial organs.
    Goubergrits L, Affeld K.
    Artif Organs; 2004 May 01; 28(5):499-507. PubMed ID: 15113346
    [Abstract] [Full Text] [Related]

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