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Current Medical Research and Opinion Volume 20, 2004 - Issue 5
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Research Article

Wall shear stress gradient topography in the normal left coronary arterial tree: possible implications for atherogenesis

Thomas M. Farmakis AHEPA General Hospital, Cardiology Department, Aristotle University of Thessalonica, GreeceCorrespondence[email protected]
,
Johannes V. Soulis Fluid Mechanics, Demokrition University of Thrace, Xanthi, Greece
,
George D. Giannoglou AHEPA General Hospital, Cardiology Department, Aristotle University of Thessalonica, Greece
,
George J. Zioupos Fluid Mechanics, Demokrition University of Thrace, Xanthi, Greece
&
George E. Louridas AHEPA General Hospital, Cardiology Department, Aristotle University of Thessalonica, Greece
Pages 587-596 | Accepted 30 Jan 2004, Published online: 06 Mar 2004

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Thanapong Chaichana, Zhonghua Sun & James Jewkes. (2014) Impact of plaques in the left coronary artery on wall shear stress and pressure gradient in coronary side branches. Computer Methods in Biomechanics and Biomedical Engineering 17:2, pages 108-118.
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Pauline Assemat & Kerry Hourigan. (2013) Evolution and rupture of vulnerable plaques: a review of mechanical effects. ChronoPhysiology and Therapy 3, pages 23-40.
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Jaroslav Mackerle. (2005) Finite element modelling and simulations in cardiovascular mechanics and cardiology: A bibliography 1993–2004. Computer Methods in Biomechanics and Biomedical Engineering 8:2, pages 59-81.
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Xiangrong Xie, Feng Wang, Linlin Zhu, Hongfeng Yang, Daorong Pan, Yan Liu, Xinliang Qu, Yue Gu, Xiaobo Li & Shaoliang Chen. (2020) Low shear stress induces endothelial cell apoptosis and monocyte adhesion by upregulating PECAM‑1 expression. Molecular Medicine Reports.
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Ghassan S. KassabGhassan S. Kassab. 2019. Coronary Circulation. Coronary Circulation 521 564 .
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Stevin van Wyk, Lisa Prahl Wittberg & Laszlo Fuchs. (2014) Atherosclerotic indicators for blood-like fluids in 90-degree arterial-like bifurcations. Computers in Biology and Medicine 50, pages 56-69.
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Naoya Sakamoto. 2014. Visualization and Simulation of Complex Flows in Biomedical Engineering. Visualization and Simulation of Complex Flows in Biomedical Engineering 165 180 .
Stevin van Wyk, Lisa Prahl Wittberg & Laszlo Fuchs. (2013) Wall shear stress variations and unsteadiness of pulsatile blood-like flows in 90-degree bifurcations. Computers in Biology and Medicine 43:8, pages 1025-1036.
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Brian S Ko, James D Cameron, Ian T Meredith & Sujith K Seneviratne. (2012) Deciphering the role of cardiac computed tomography in interventional cardiology: 2012 and beyond. Interventional Cardiology 4:4, pages 481-494.
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A.G. Kanaris, A.D. Anastasiou & S.V. Paras. (2012) Modeling the effect of blood viscosity on hemodynamic factors in a small bifurcated artery. Chemical Engineering Science 71, pages 202-211.
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Johannes V. Soulis, Olga P. Lampri, Dimitrios K. Fytanidis & George D. Giannoglou. (2011) Relative residence time and oscillatory shear index of non-Newtonian flow models in aorta. Relative residence time and oscillatory shear index of non-Newtonian flow models in aorta.
Amir RezvanChih-Wen NiNoah Alberts-GrillHanjoong Jo. (2011) Animal, In Vitro , and Ex Vivo Models of Flow-Dependent Atherosclerosis: Role of Oxidative Stress . Antioxidants & Redox Signaling 15:5, pages 1433-1448.
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Thanapong Chaichana, Zhonghua Sun & James Jewkes. (2011) Computation of hemodynamics in the left coronary artery with variable angulations. Journal of Biomechanics 44:10, pages 1869-1878.
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Sherman C. P. Cheung, Kelvin K. L. Wong, Guan Heng Yeoh, William Yang, Jiyuan Tu, Richard Beare & Thanh Phan. (2011) Experimental and numerical study on the hemodynamics of stenosed carotid bifurcation. Australasian Physical & Engineering Sciences in Medicine 33:4, pages 319-328.
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Johannes V. Soulis, George D. Giannoglou, Yiannis S. Chatzizisis, Kypriani V. Seralidou, George E. Parcharidis & George E. Louridas. (2008) Non-Newtonian models for molecular viscosity and wall shear stress in a 3D reconstructed human left coronary artery. Medical Engineering & Physics 30:1, pages 9-19.
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Yunlong Huo, Thomas Wischgoll & Ghassan S. Kassab. (2007) Flow patterns in three-dimensional porcine epicardial coronary arterial tree. American Journal of Physiology-Heart and Circulatory Physiology 293:5, pages H2959-H2970.
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Johannes V. Soulis, George D. Giannoglou, George E. Parcharidis & George E. Louridas. (2007) Flow parameters in normal left coronary artery tree. Implication to atherogenesis. Computers in Biology and Medicine 37:5, pages 628-636.
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Jusztina Bencze, Robert Gabor Kiss, Emese Toth-Zsamboki, Katarina Vargova, Gabor Kerecsen, Andras Korda, Ferenc Molnar & Istvan Preda. (2006) Inverse correlation between coronary blood flow velocity and sICAM-1 level observed in ischemic heart disease patients. Atherosclerosis 188:1, pages 142-149.
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Johannes V. Soulis, George D. Giannoglou, Yiannis S. Chatzizisis, Thomas M. Farmakis, George A. Giannakoulas, George E. Parcharidis & George E. Louridas. (2006) Spatial and phasic oscillation of non-Newtonian wall shear stress in human left coronary artery bifurcation: an insight to atherogenesis. Coronary Artery Disease 17:4, pages 351-358.
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Johannes V. Soulis, Thomas M. Farmakis, George D. GiannoglouIoannis S. Hatzizisis, George A. Giannakoulas, George E. Parcharidis & George E. Louridas. (2016) Molecular Viscosity in the Normal Left Coronary Arterial Tree. Is It Related to Atherosclerosis?. Angiology 57:1, pages 33-40.
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