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271 related items for PubMed ID: 22443493

  • 1. Impact of plaques in the left coronary artery on wall shear stress and pressure gradient in coronary side branches.
    Chaichana T, Sun Z, Jewkes J.
    Comput Methods Biomech Biomed Engin; 2014; 17(2):108-18. PubMed ID: 22443493
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  • 2. Investigation of the haemodynamic environment of bifurcation plaques within the left coronary artery in realistic patient models based on CT images.
    Chaichana T, Sun Z, Jewkes J.
    Australas Phys Eng Sci Med; 2012 Jun; 35(2):231-6. PubMed ID: 22528858
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  • 3. Computational fluid dynamics analysis of the effect of plaques in the left coronary artery.
    Chaichana T, Sun Z, Jewkes J.
    Comput Math Methods Med; 2012 Jun; 2012():504367. PubMed ID: 22400051
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  • 4. Haemodynamic analysis of the effect of different types of plaques in the left coronary artery.
    Chaichana T, Sun Z, Jewkes J.
    Comput Med Imaging Graph; 2013 Apr; 37(3):197-206. PubMed ID: 23557588
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  • 6. Computational fluid dynamic measures of wall shear stress are related to coronary lesion characteristics.
    Park JB, Choi G, Chun EJ, Kim HJ, Park J, Jung JH, Lee MH, Otake H, Doh JH, Nam CW, Shin ES, De Bruyne B, Taylor CA, Koo BK.
    Heart; 2016 Oct 15; 102(20):1655-61. PubMed ID: 27302987
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  • 9. A numerical study on hemodynamics in the left coronary bifurcation with normal and hypertension conditions.
    Bahrami S, Norouzi M.
    Biomech Model Mechanobiol; 2018 Dec 15; 17(6):1785-1796. PubMed ID: 30027356
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  • 12. Coronary arteries hemodynamics: effect of arterial geometry on hemodynamic parameters causing atherosclerosis.
    Wong KKL, Wu J, Liu G, Huang W, Ghista DN.
    Med Biol Eng Comput; 2020 Aug 15; 58(8):1831-1843. PubMed ID: 32519006
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  • 13. The impact of scaled boundary conditions on wall shear stress computations in atherosclerotic human coronary bifurcations.
    Schrauwen JT, Schwarz JC, Wentzel JJ, van der Steen AF, Siebes M, Gijsen FJ.
    Am J Physiol Heart Circ Physiol; 2016 May 15; 310(10):H1304-12. PubMed ID: 26945083
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  • 14. Lipid-rich Plaques Detected by Near-infrared Spectroscopy Are More Frequently Exposed to High Shear Stress.
    Hartman EMJ, De Nisco G, Kok AM, Hoogendoorn A, Coenen A, Mastik F, Korteland SA, Nieman K, Gijsen FJH, van der Steen AFW, Daemen J, Wentzel JJ.
    J Cardiovasc Transl Res; 2021 Jun 15; 14(3):416-425. PubMed ID: 33034862
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  • 15. Wall shear stress in normal left coronary artery tree.
    Soulis JV, Farmakis TM, Giannoglou GD, Louridas GE.
    J Biomech; 2006 Jun 15; 39(4):742-9. PubMed ID: 16439244
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  • 17. Multidirectional wall shear stress promotes advanced coronary plaque development: comparing five shear stress metrics.
    Hoogendoorn A, Kok AM, Hartman EMJ, de Nisco G, Casadonte L, Chiastra C, Coenen A, Korteland SA, Van der Heiden K, Gijsen FJH, Duncker DJ, van der Steen AFW, Wentzel JJ.
    Cardiovasc Res; 2020 May 01; 116(6):1136-1146. PubMed ID: 31504238
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  • 19. Discordance of the areas of peak wall shear stress and tissue stress in coronary artery plaques as revealed by fluid-structure interaction finite element analysis: a case study.
    Asanuma T, Higashikuni Y, Yamashita H, Nagai R, Hisada T, Sugiura S.
    Int Heart J; 2013 May 01; 54(1):54-8. PubMed ID: 23428927
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