Mina Mohseni, Nastaran Mehboudi, Masood Abdollahi, Amir Shamlooand Reza Naghdabadi
View Full Paper
[1] Rosamond, W., et al., Heart disease and strokestatistics-2007 update: a report from the American HeartAssociation Statistics Committee and Stroke StatisticsSubcommittee. Circulation, 115(5), 2007, e69. [2] Heiland, V.M., et al., Identification of carotid plaquetissue properties using an experimental–numericalapproach. Journal of the mechanical behavior ofbiomedical materials, 27, 2013, 226-238. [3] Malek, A.M., S.L. Alper, and S. Izumo,Hemodynamic shear stress and its role in atherosclerosis.Jama, 282(21), 1999, 2035-2042. [4] Bluestein, D., et al., Influence of microcalcificationson vulnerable plaque mechanics using FSI modeling.Journal of biomechanics, 41(5), 2008, 1111-1118. [5] Vengrenyuk, Y., et al., A hypothesis for vulnerableplaque rupture due to stress-induced debonding aroundcellular microcalcifications in thin fibrous caps.Proceedings of the National Academy of Sciences,103(40), 2006, 14678-14683. [6] Kock, S.A., et al., Mechanical stresses in carotidplaques using MRI-based fluid–structure interactionmodels. Journal of biomechanics, 41(8), 2008, 1651-1658. [7] Huang, X., et al., Quantifying effect of intraplaquehemorrhage on critical plaque wall stress in humanatherosclerotic plaques using three-dimensional fluid-structureinteraction models. Journal of biomechanical engineering,134(12), 2012, 121004. [8] Huang, X., et al., Higher critical plaque wall stress inpatients who died of coronary artery disease compared withthose who died of other causes: A 3D FSI study based on exvivo MRI of coronary plaques. Journal of biomechanics, 2013. [9] . Teng, Z., et al., 3D critical plaque wall stress is a betterpredictor of carotid plaque rupture sites than flow shear stress:an in vivo MRI-based 3D FSI study. Journal of biomechanicalengineering, 132(3), 2010, 031007. [10]Tang, D., et al., Effect of a lipid pool on stress/straindistributions in stenotic arteries: 3-D fluid-structure interactions(FSI) models. Journal of Biomechanical Engineering, 126(3),2004, 363-370. [11]Tang, D., et al., Quantifying effects of plaque structure andmaterial properties on stress distributions in humanatherosclerotic plaques using 3D FSI models. Journal ofbiomechanical engineering, 127(7), 2005, 1185-1194. [12]Krejza, J., et al., Carotid artery diameter in men and womenand the relation to body and neck size. Stroke, 37(4), 2006,1103-1105. [13]Yang, C., et al., Advanced human carotid plaqueprogression correlates positively with flow shear stress usingfollow-up scan data: An in vivo MRI multi-patient 3D FSIstudy. Journal of biomechanics, 43(13), 2010, 2530-2538. [14]. Gasser, T.C., R.W. Ogden, and G.A. Holzapfel,Hyperelastic modelling of arterial layers with distributedcollagen fibre orientations. Journal of the royal societyinterface, 3(6), 2006, 15-35. [15]. Berg Ravn, H. and E. Falk, Histopathology of plaquerupture. Cardiology clinics, 17(2), 1999, 263-270. [16]1Gao, H., et al., Carotid arterial plaque stress analysis usingfluid–structure interactive simulation based on in-vivo magneticresonance images of four patients. Journal of biomechanics,42(10), 2009, 1416-1423.
Important Links:
Go Back
