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Journal Abstract Search

156 related items for PubMed ID: 9880056

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  • 2. Numerical study on the effect of secondary flow in the human aorta on local shear stresses in abdominal aortic branches.
    Shipkowitz T, Rodgers VG, Frazin LJ, Chandran KB.
    J Biomech; 2000 Jun; 33(6):717-28. PubMed ID: 10807993
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  • 3. Numerical simulation of steady flow fields in a model of abdominal aorta with its peripheral branches.
    Lee D, Chen JY.
    J Biomech; 2002 Aug; 35(8):1115-22. PubMed ID: 12126670
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  • 7. Wall shear stress distribution in a model canine artery during steady flow.
    Lutz RJ, Cannon JN, Bischoff KB, Dedrick RL, Stiles RK, Fry DL.
    Circ Res; 1977 Sep; 41(3):391-9. PubMed ID: 890894
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  • 10. Vector analysis of the wall shear rate at the human aortoiliac bifurcation using cine MR velocity mapping.
    Tsuji T, Suzuki J, Shimamoto R, Yamazaki T, Nakajima T, Nagai R, Komatsu S, Ohtomo K, Toyo-Oka T, Omata M.
    AJR Am J Roentgenol; 2002 Apr; 178(4):995-9. PubMed ID: 11906890
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  • 11. Effect of exercise on hemodynamic conditions in the abdominal aorta.
    Taylor CA, Hughes TJ, Zarins CK.
    J Vasc Surg; 1999 Jun; 29(6):1077-89. PubMed ID: 10359942
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  • 15. Wall shear rate distribution in an abdominal aortic bifurcation model: effects of vessel compliance and phase angle between pressure and flow waveforms.
    Lee CS, Tarbell JM.
    J Biomech Eng; 1997 Aug; 119(3):333-42. PubMed ID: 9285347
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  • 16. Analysis of non-Newtonian effects within an aorta-iliac bifurcation region.
    Iasiello M, Vafai K, Andreozzi A, Bianco N.
    J Biomech; 2017 Nov 07; 64():153-163. PubMed ID: 29100596
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  • 17. The effect of celiac and renal artery outflows on near-wall velocities in the porcine iliac arteries.
    Clingan PA, Friedman MH.
    Ann Biomed Eng; 2000 Mar 07; 28(3):302-8. PubMed ID: 10784094
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