Nome |
# |
On the impact of modeling assumptions in subject-specific hemodynamic simulations of low-density lipoproteins transport in aorta, file e384c42f-780e-d4b2-e053-9f05fe0a1d67
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148
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Influence of idealized versus measured velocity profiles on mass transfer in CFD models of thoracic aorta, file e384c42f-8b64-d4b2-e053-9f05fe0a1d67
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142
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Impact of Patient-Specific Inflow Boundary Conditions and Concentration Initialization on Hemodynamics and Low-Density Lipoproteins Transport in the Thoracic Aorta, file e384c430-1e92-d4b2-e053-9f05fe0a1d67
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79
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On the association between helical flow and plaque progression in coronary arteries, file e384c431-37dd-d4b2-e053-9f05fe0a1d67
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79
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PC-MRI derived inlet boundary conditions in CFD models of human aorta: uncertainty propagation, file e384c42f-8c1f-d4b2-e053-9f05fe0a1d67
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71
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Exploring novel arterio-venous graft designs to reduce vascular access failure risk, file e384c431-68ef-d4b2-e053-9f05fe0a1d67
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56
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ON THE ASSOCIATION BETWEEN HELICAL BLOOD FLOW AND ATHEROSCLEROTIC PLAQUE GROWTH IN CORONARY ARTERIES, file e384c430-e575-d4b2-e053-9f05fe0a1d67
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36
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Wall shear stress topological skeleton analysis in cardiovascular flows: Methods and applications, file e384c433-b4f0-d4b2-e053-9f05fe0a1d67
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34
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Linking wall shear stress topological skeleton to near-wall transport in aortic flow, file e384c434-342b-d4b2-e053-9f05fe0a1d67
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30
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A Eulerian method to analyze wall shear stress fixed points and manifolds in cardiovascular flows, file e384c431-7c83-d4b2-e053-9f05fe0a1d67
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29
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The Atheroprotective Nature of Helical Flow in Coronary Arteries, file e384c430-6a31-d4b2-e053-9f05fe0a1d67
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28
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Association between helical blood flow and atherosclerotic plaque progression in coronary arteries: an animal-specific study., file e384c431-0bef-d4b2-e053-9f05fe0a1d67
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27
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Hemodialysis arterio-venous graft design reducing the hemodynamic risk of vascular access dysfunction, file e384c431-7d22-d4b2-e053-9f05fe0a1d67
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21
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Comparison of Swine and Human Computational Hemodynamics Models for the Study of Coronary Atherosclerosis, file e384c434-52df-d4b2-e053-9f05fe0a1d67
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21
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Exploring wall shear stress spatiotemporal heterogeneity in coronary arteries combining correlation-based analysis and complex networks with computational hemodynamics, file e384c432-a522-d4b2-e053-9f05fe0a1d67
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20
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Finite Element Modeling Application in Forensic Practice: A Periprosthetic Femoral Fracture Case Study, file e384c432-aace-d4b2-e053-9f05fe0a1d67
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20
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EXPLORING THE LINK BETWEEN WALL SHEAR STRESS TOPOLOGICAL SKELETON AND NEAR-WALL MASS TRANSPORT IN CARDIOVASCULAR FLOWS USING A EULERIAN-BASED METHOD, file e384c434-3426-d4b2-e053-9f05fe0a1d67
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19
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EULERIAN-BASED WALL SHEAR STRESS TOPOLOGICAL SKELETON AS A TEMPLATE OF NEAR-WALL MASS TRANSPORT IN ARTERIES, file e384c434-1b54-d4b2-e053-9f05fe0a1d67
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18
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Deciphering ascending thoracic aortic aneurysm hemodynamics in relation to biomechanical properties, file e384c432-2ff4-d4b2-e053-9f05fe0a1d67
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15
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Wall shear stress topological skeleton independently predicts long-term restenosis after carotid bifurcation endarterectomy, file e384c432-cc21-d4b2-e053-9f05fe0a1d67
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14
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Does the inflow velocity profile influence physiologically relevant flow patterns in computational hemodynamic models of left anterior descending coronary artery?, file e384c432-4b77-d4b2-e053-9f05fe0a1d67
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13
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Multidirectional wall shear stress promotes advanced coronary plaque development: comparing five shear stress metrics, file e384c431-dfb0-d4b2-e053-9f05fe0a1d67
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12
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Lipid-rich Plaques Detected by Near-infrared Spectroscopy Are More Frequently Exposed to High Shear Stress, file e384c433-c242-d4b2-e053-9f05fe0a1d67
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12
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Wall shear stress topological skeleton variability predicts plaque growth in human coronary arteries, file 5b33f249-2631-42d4-a911-5b601d71374b
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11
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WALL SHEAR STRESS TOPOLOGICAL SKELETON VARIABILITY PREDICTS ATHEROSCLEROTIC PLAQUE GROWTH IN HUMAN CORONARY ARTERIES, file a6318021-dc9f-482e-9367-ae35c2b7692a
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11
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Wall shear stress topological skeleton independently predicts long-term restenosis after carotid bifurcation endarterectomy, file e384c432-dfc0-d4b2-e053-9f05fe0a1d67
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10
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The variability of wall shear stress topological skeleton predicts plaque growth in human coronary arteries, file d13946ff-2bf4-41d9-ab54-fadf41011edc
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9
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Modeling methodology for defining a priori the hydrodynamics of a dynamic suspension bioreactor. Application to human induced pluripotent stem cell culture, file e384c431-5557-d4b2-e053-9f05fe0a1d67
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9
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THE SYNERGISTIC EFFECT OF NIRS-DETECTED LIPID-RICH PLAQUE AND WALL SHEAR STRESS ON HUMAN CORONARY PLAQUE GROWTH, file e384c432-0fe9-d4b2-e053-9f05fe0a1d67
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9
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The impact of helical flow on coronary atherosclerotic plaque development, file e384c432-2237-d4b2-e053-9f05fe0a1d67
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9
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Early Atherosclerotic Changes in Coronary Arteries are Associated with Endothelium Shear Stress Contraction/Expansion Variability, file e384c434-1146-d4b2-e053-9f05fe0a1d67
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8
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Modelling aortic flows: impact of wall displacements on large-scale hemodynamic coherence in ascending aorta, file d790f6d1-8b45-426f-9c85-71c7e024f24f
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7
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A reduced-order model-based study on the effect of intermittent pneumatic compression of limbs on the cardiovascular system, file e384c42e-c827-d4b2-e053-9f05fe0a1d67
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7
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Coronary Artery Stenting Affects Wall Shear Stress Topological Skeleton, file e384c434-6fd0-d4b2-e053-9f05fe0a1d67
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7
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Wall shear stress topological skeleton variability predicts plaque growth in human coronary arteries, file 44b1f2de-4d81-4cf2-ad7b-fb3fb7265fd2
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6
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Current and Future Applications of Computational Fluid Dynamics in Coronary Artery Disease, file 565b6292-a24f-4f60-9a65-aece64cc1fca
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6
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Unveiling wall shear stress spatiotemporal heterogeneity in coronary arteries, file 6989927e-98ec-4afc-a7cc-7543fab2278e
|
6
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Modeling methodology for defining a priori the hydrodynamics of a dynamic suspension bioreactor. Application to human induced pluripotent stem cell culture, file e384c430-d2ef-d4b2-e053-9f05fe0a1d67
|
6
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Hemodialysis arterio-venous graft design reducing the hemodynamic risk of vascular access dysfunction, file e384c431-9615-d4b2-e053-9f05fe0a1d67
|
6
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A model-based study of the effect of intermittent pneumatic compression of limbs on the cardiovascular system, file e384c42f-6a8c-d4b2-e053-9f05fe0a1d67
|
5
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Impact of idealized versus measured velocity profiles in computational models of mass transport in the human aorta, file e384c42f-7909-d4b2-e053-9f05fe0a1d67
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5
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Design of innovative self-expandable femoral stents using inverse
homogenization topology optimization, file 24f78b44-3c1e-4e0f-9d09-9bf19095c504
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4
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Investigating the impact of wall distensibility on aortic flow using a network-based approach, file 0e0464ba-cc0c-4fd2-8fe4-e3d78d987531
|
3
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Impact of wall displacements on the large-scale flow coherence in ascending aorta, file 9a5a450f-52f1-4602-959f-367699525614
|
3
|
What is needed to make low-density lipoprotein transport in human aorta computational models suitable to explore links to atherosclerosis? Impact of initial and inflow boundary conditions, file e384c430-13cf-d4b2-e053-9f05fe0a1d67
|
3
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In-stent graft helical flow intensity reduces the risk of migration after endovascular aortic repair, file e384c431-6adf-d4b2-e053-9f05fe0a1d67
|
3
|
A Eulerian method to analyze wall shear stress fixed points and manifolds in cardiovascular flows, file e384c432-42d0-d4b2-e053-9f05fe0a1d67
|
3
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Divergence of the normalized wall shear stress as an effective computational template of low-density lipoprotein polarization at the arterial blood-vessel wall interface, file ebef1ee7-87a9-43ff-98f1-b2eb8edebda9
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3
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Divergence of the normalized wall shear stress as an effective computational template of low-density lipoprotein polarization at the arterial blood-vessel wall interface, file 65615ad6-dd77-4d62-9702-3987b886b837
|
2
|
Computational investigation of the role of low-density lipoprotein and oxygen transport in atherosclerotic arteries, file caeee484-fe3f-4d18-8ba6-22c30cf9fd85
|
2
|
Multidirectional wall shear stress promotes advanced coronary plaque development: comparing five shear stress metrics, file e384c431-dfb1-d4b2-e053-9f05fe0a1d67
|
2
|
Deciphering ascending thoracic aortic aneurysm hemodynamics in relation to biomechanical properties, file e384c432-3385-d4b2-e053-9f05fe0a1d67
|
2
|
The definition of low wall shear stress and its effect on plaque progression estimation in human coronary arteries, file e384c434-1a1a-d4b2-e053-9f05fe0a1d67
|
2
|
Coronary Artery Stenting Affects Wall Shear Stress Topological Skeleton, file e384c434-8285-d4b2-e053-9f05fe0a1d67
|
2
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Computational investigation of the role of low-density lipoprotein and oxygen transport in atherosclerotic arteries, file 740cc608-7fd9-4dfa-b921-4d5812337c66
|
1
|
Wall shear stress-related plaque growth of lipid-rich plaques in human coronary arteries: an near-infrared spectroscopy and optical coherence tomography study, file 8db46b10-4894-45f0-a9d6-bf4f2caa8123
|
1
|
Modelling blood flow in coronary arteries: Newtonian or shear-thinning non-Newtonian rheology?, file b91f3b0c-38ee-4edc-a48e-3c65133d13f7
|
1
|
The impact of helical flow on coronary atherosclerotic plaque development, file e384c431-d5f5-d4b2-e053-9f05fe0a1d67
|
1
|
Multidirectional wall shear stress promotes advanced coronary plaque development: comparing five shear stress metrics, file e384c431-e45e-d4b2-e053-9f05fe0a1d67
|
1
|
Does the inflow velocity profile influence physiologically relevant flow patterns in computational hemodynamic models of left anterior descending coronary artery?, file e384c432-68c4-d4b2-e053-9f05fe0a1d67
|
1
|
The Atheroprotective Nature of Helical Flow in Coronary Arteries, file e384c433-66a9-d4b2-e053-9f05fe0a1d67
|
1
|
Totale |
1.122 |