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Journal Abstract Search

169 related items for PubMed ID: 20943426

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  • 2. Cellular determinants of low-shear blood viscosity.
    Baskurt OK, Meiselman HJ.
    Biorheology; 1997; 34(3):235-47. PubMed ID: 9474265
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  • 3. On the effect of microstructural changes of blood on energy dissipation in Couette flow.
    Kaliviotis E, Yianneskis M.
    Clin Hemorheol Microcirc; 2008; 39(1-4):235-42. PubMed ID: 18503131
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  • 4. Mathematical model of blunt injury to the vascular wall via formation of rouleaux and changes in local hemodynamic and rheological factors. Implications for the mechanism of traumatic myocardial infarction.
    Ismailov RM.
    Theor Biol Med Model; 2005 Mar 30; 2():13. PubMed ID: 15799779
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  • 10. Magnetic resonance microscopy determined velocity and hematocrit distributions in a Couette viscometer.
    Cokelet GR, Brown JR, Codd SL, Seymour JD.
    Biorheology; 2005 Mar 30; 42(5):385-99. PubMed ID: 16308468
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  • 15. Effect of shear rate variation on apparent viscosity of human blood in tubes of 29 to 94 microns diameter.
    Reinke W, Johnson PC, Gaehtgens P.
    Circ Res; 1986 Aug 30; 59(2):124-32. PubMed ID: 3742742
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  • 16. Distributions of wall shear stress in venular convergences of mouse cremaster muscle.
    Kim MB, Sarelius IH.
    Microcirculation; 2003 Apr 30; 10(2):167-78. PubMed ID: 12700585
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  • 19. Hemodynamic effects of red blood cell aggregation.
    Baskurt OK, Meiselman HJ.
    Indian J Exp Biol; 2007 Jan 30; 45(1):25-31. PubMed ID: 17249324
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