Biomedical Engineering Reference
In-Depth Information
Dong J, Wong KK, Tu J (2013a) Hemodynamics analysis of patient-specific carotid bifurcation: a
CFD model of downstream peripheral vascular impedance. Int J Numer Method Biomed Eng
29:476-491
Dong JL, Inthavong K, Tu JY (2013b) Image-based computational hemodynamics evaluation of
atherosclerotic carotid bifurcation models. Comput Biol Med 43:1353-1362
Duraiswamy N, Schoephoerster RT, Moore JE (2009) Comparison of near-wall hemodynamic
parameters in stented artery models. ASME J Biomech Eng 131:061006
Ecabert O, Peters J, Schramm H, Lorenz C, von Berg J, Walker MJ, Vembar M, Olszewski ME,
Subramanyan K, Lavi G, Weese J (2008) Automatic model-based segmentation of the heart in
CT images. IEEE Trans Med Imaging 27:1189-1201
Elkins CJ, Markl M, Iyengar A, Wicker R, Eaton J (2004) Full field velocity and temperature
measurements using magnetic resonance imaging in turbulent complex internal flows. Int J
Heat Fluid Flow 25:702-710
Fan Y, Jiang W, Zou Y, Li J, Chen J, Deng X (2009) Numerical simulation of pulsatile non-New-
tonian flow in the carotid artery bifurcation. Acta Mech Sin 25:249-255
Farmakis TM, Soulis JV, Giannoglou GD, Zioupos GJ, Louridas GE (2004) Wall shear stress
gradient topography in the normal left coronary arterial tree: possible implications for athero-
genesis. Curr Med Res Opin 20:587-596
Fayad ZA, Fuster V (2001) Clinical imaging of the high-risk or vulnerable atherosclerotic plaque.
Circ Res 89:305-316
Fontaine V, Jacob MP, Houard X, Rossignol P, Plissonnier D, Angles-Cano E (2002) Involvement
of the mural thrombus as a site of protease release and activation in human aortic aneurysms.
Am J Pathol 161:1701-1710
Freund JB (2014) Numerical simulation of flowing blood cells. Annu Rev Fluid Mech 46:67-95
Friedman MH, Brinkman AM, Qin JJ, Seed WA (1993) Relation between coronary artery geom-
etry and the distribution of early sudanophilic lesions. Atherosclerosis 98:193-199
Fry DL (1969) Certain histological and chemical responses of the vascular interface to acutely
induced mechanical stress in the aorta of the dog. Circ Res 24:93-108
Fuessl RT, Kranenberg E, Kiausch U, Baer FM, Sechtem U, Höpp HW (2001) Vascular remodel-
ing in atherosclerotic coronary arteries is affected by plaque composition. Coron Artery Dis
12:91-97
Fung YC (1993) Biomechanics: mechanical properties of living tissues, 2nd edn. Springer, New
York. ISBN: 9780387979472, p 568
Gerstenberger A, Wall WA (2008) An eXtended finite element method/Lagrange multiplier based
approach for fluid-structure interaction. Comput Methods Appl Mech Eng 197:1699-1714
Gertz SD, Roberts WC (1990) Hemodynamic shear force in rupture of coronary arterial athero-
sclerotic plaques. Am J Cardiol 66:1368-1372
Gertz SD, Uretzky G, Wajnberg RS, Navot N, Gotsman MS (1981) Endothelial cell damage and
thrombus formation after partial arterial constriction: relevance to the role of coronary artery
spasm in the pathogenesis of myocardial infarction. Circulation 63:476-486
Ghalichi F, Deng XY (2003) Turbulence detection in a stenosed artery bifurcation by numerical
simulation of pulsatile blood flow using the low-Reynolds number turbulence model. Biorhe-
ology 40:637-654
Giannoglou GD, Soulis JV, Farmakis TM, Giannakoulas GA, Parchardidis GE, Louridas GE
(2005) Wall pressure gradient in normal left coronary artery tree. Med Eng Phys 27:455-464
Gibbs P, Buckley DL, Blackband SJ, Horsman A (1996) Tumour volume determination from MR
images by morphological segmentation. Phys Med Biol 41:2437-2446
Gijsen FJH, van de Vosse FN, Janssen JD (1999a) The Influence of the non-Newtonian properties
of blood on the flow in large arteries: steady flow in a carotid bifurcation model. J Biomech
32:601-608
Gijsen FJH, van de Vosse FN, Janssen JD (1999b) The Influence of the non-Newtonian proper-
ties of blood on the flow in large arteries: unsteady flow in a 90° curved tube. J Biomech
32:705-713
Search WWH ::
Custom Search