Quantifying effects of plaque structure and material properties on stress distributions in human atherosclerotic plaques using 3D FSI models
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Carotid plaque hemodynamicsIn vivo IVUS-based 3-D fluid-structure interaction models with cyclic bending and anisotropic vessel properties for human atherosclerotic coronary plaque mechanical analysis.3D critical plaque wall stress is a better predictor of carotid plaque rupture sites than flow shear stress: An in vivo MRI-based 3D FSI study.Effect of calcification on the mechanical stability of plaque based on a three-dimensional carotid bifurcation model.A numerical study of the effect of varied blood pressure on the stability of carotid atherosclerotic plaque.Advanced techniques for MRI of atherosclerotic plaque.Artery buckling affects the mechanical stress in atherosclerotic plaques.Calculation of arterial wall temperature in atherosclerotic arteries: effect of pulsatile flow, arterial geometry, and plaque structure.Planar biaxial characterization of diseased human coronary and carotid arteries for computational modeling.Using in vivo Cine and 3D multi-contrast MRI to determine human atherosclerotic carotid artery material properties and circumferential shrinkage rate and their impact on stress/strain predictions.A negative correlation between human carotid atherosclerotic plaque progression and plaque wall stress: in vivo MRI-based 2D/3D FSI modelsVulnerable atherosclerotic plaque elasticity reconstruction based on a segmentation-driven optimization procedure using strain measurements: theoretical frameworkNecrotic core thickness and positive arterial remodeling index: emergent biomechanical factors for evaluating the risk of plaque rupture.An experimental study on the ultimate strength of the adventitia and media of human atherosclerotic carotid arteries in circumferential and axial directionsThree-dimensional imaging and computational modelling for estimation of wall stresses in arteries.Biomechanical structural stresses of atherosclerotic plaques.Stiffness Properties of Adventitia, Media and Full Thickness Human Atherosclerotic Carotid Arteries in the Axial and Circumferential Directions.MRI-based patient-specific human carotid atherosclerotic vessel material property variations in patients, vessel location and long-term follow up.Cap inflammation leads to higher plaque cap strain and lower cap stress: An MRI-PET/CT-based FSI modeling approach.An efficient two-stage approach for image-based FSI analysis of atherosclerotic arteries.Flow interactions with cells and tissues: cardiovascular flows and fluid-structure interactions. Sixth International Bio-Fluid Mechanics Symposium and Workshop, March 28-30, 2008, Pasadena, California.Pulsatile arterial wall-blood flow interaction with wall pre-stress computed using an inverse algorithm.Carotid atheroma rupture observed in vivo and FSI-predicted stress distribution based on pre-rupture imaging.In Vivo/Ex Vivo MRI-Based 3D Non-Newtonian FSI Models for Human Atherosclerotic Plaques Compared with Fluid/Wall-Only Models.3D MRI-based anisotropic FSI models with cyclic bending for human coronary atherosclerotic plaque mechanical analysis.Intraplaque hemorrhage is associated with higher structural stresses in human atherosclerotic plaques: an in vivo MRI-based 3D fluid-structure interaction study.MRI-based biomechanical imaging: initial study on early plaque progression and vessel remodeling.A methodology to analyze changes in lipid core and calcification onto fibrous cap vulnerability: the human atherosclerotic carotid bifurcation as an illustratory example.Does microcalcification increase the risk of rupture?Numerical modeling of stress in stenotic arteries with microcalcifications: a micromechanical approximation.Numerical modeling of stress in stenotic arteries with microcalcifications: a parameter sensitivity study.Strain distribution over plaques in human coronary arteries relates to shear stress.Wall stress and flow dynamics in abdominal aortic aneurysms: finite element analysis vs. fluid-structure interaction.Hemodynamics in diabetic human aorta using computational fluid dynamicsA Computational Model to Assess Poststenting Wall Stresses Dependence on Plaque Structure and Stenosis Severity in Coronary Artery
P2860
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P2860
Quantifying effects of plaque structure and material properties on stress distributions in human atherosclerotic plaques using 3D FSI models
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@en
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@nl
type
label
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@en
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@nl
prefLabel
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@en
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@nl
P2093
P2860
P356
P1476
Quantifying effects of plaque ...... ic plaques using 3D FSI models
@en
P2093
Dalin Tang
Gregorio A Sicard
Jeffrey E Saffitz
Pamela K Woodard
Thomas K Pilgram
P2860
P304
P356
10.1115/1.2073668
P577
2005-12-01T00:00:00Z