The role of fluid mechanics in the localization and detection of atherosclerosis.
about
DANCE, a novel secreted RGD protein expressed in developing, atherosclerotic, and balloon-injured arteriesLocal maximal stress hypothesis and computational plaque vulnerability index for atherosclerotic plaque assessmentOn the shape of the common carotid artery with implications for blood velocity profilesBenefit-Risk Assessment of Fish Oil in Preventing Cardiovascular DiseaseComputational fluid dynamics simulations of blood flow regularized by 3D phase contrast MRIApplication of full field optical studies for pulsatile flow in a carotid artery phantom.In vitro and preliminary in vivo validation of echo particle image velocimetry in carotid vascular imaging.Modeling and phantom studies of ultrasonic wall shear rate measurements using coded pulse excitation.Role of ultrasonic shear rate estimation errors in assessing inflammatory response and vascular risk.In vitro and in vivo investigations on the effects of low-density lipoprotein concentration polarization and haemodynamics on atherosclerotic localization in rabbit and zebrafish.Image-based modeling for better understanding and assessment of atherosclerotic plaque progression and vulnerability: data, modeling, validation, uncertainty and predictions.Comparison of the effects of antihypertensive treatment with angiotensin II blockade and beta-blockade on carotid wall structure and haemodynamics: protocol and baseline demographics.Cardiovascular diseases and vulnerable plaques: data, modeling, predictions and clinical applicationsMeshless Generalized Finite Difference Method and Human Carotid Atherosclerotic Plaque Progression Simulation Using Multi-Year MRI Patient-Tracking DataOxidative risk for atherothrombotic cardiovascular disease.Advanced human carotid plaque progression correlates positively with flow shear stress using follow-up scan data: an in vivo MRI multi-patient 3D FSI study.Three-Dimensional Carotid Plaque Progression Simulation Using Meshless Generalized Finite Difference Method Based on Multi-Year MRI Patient-Tracking Data.Cholesterol in the retina: the best is yet to come.Distinct roles for the small GTPases Cdc42 and Rho in endothelial responses to shear stressEnhanced atherosclerosis and kidney dysfunction in eNOS(-/-)Apoe(-/-) mice are ameliorated by enalapril treatment.Patient-Specific Carotid Plaque Progression Simulation Using 3D Meshless Generalized Finite Difference Models with Fluid-Structure Interactions Based on Serial In Vivo MRI DataThe Gordon Wilson lecture. Understanding vascular endothelium: a pilgrim's progress. Endothelial dysfunction, biomechanical forces and the pathobiology of atherosclerosis.Genetic modifiers of atherosclerosis in miceEffects of disturbed flow on vascular endothelium: pathophysiological basis and clinical perspectivesPhysiological mechanisms of vascular response induced by shear stress and effect of exercise in systemic and placental circulationCalcifications of the thoracic aorta on extended non-contrast-enhanced cardiac CTTransitional Flow in a Cylindrical Flow Chamber for Studies at the Cellular Level.Impact of flow rates in a cardiac cycle on correlations between advanced human carotid plaque progression and mechanical flow shear stress and plaque wall stressRole of shear stress on nitrite and NOS protein content in different size conduit arteries of swine.Mechanosensing at the vascular interface.Lipid deposition in rat aortas with intraluminal hemispherical plug stenosis. A morphological and biophysical study.Selective adapter recruitment and differential signaling networks by VEGF vs. shear stressFlow and wall shear stress in end-to-side and side-to-side anastomosis of venous coronary artery bypass grafts.Effects of Fluid Shear Stress on a Distinct Population of Vascular Smooth Muscle Cells.Association of coronary wall shear stress with atherosclerotic plaque burden, composition, and distribution in patients with coronary artery disease.A negative correlation between human carotid atherosclerotic plaque progression and plaque wall stress: in vivo MRI-based 2D/3D FSI modelsA Computational Model for Biomechanical Effects of Arterial Compliance Mismatch.Endothelial cells and cathepsins: Biochemical and biomechanical regulation.Cyclic strain-mediated matrix metalloproteinase regulation within the vascular endothelium: a force to be reckoned with.Endothelial Cell Dysfunction and the Pathobiology of Atherosclerosis
P2860
Q22010449-31DD77A4-CFC1-42ED-9062-4CAF51311650Q24546365-7E020B52-72F9-4A10-B9B1-ACCAA7FEF0F7Q24615060-A5FB8FA3-E971-40BE-B8FB-FECF4AAD576EQ26740486-B5D9A60B-25EC-4F1D-8E91-FAD530A63D90Q28607029-20D28F5C-A68E-4AE2-A374-B4A351484A48Q30400499-097D4CD3-59C7-45EA-93F3-85C50949A37AQ30463445-D7597925-5AD8-438A-9E77-57BE1728526BQ30487973-47EC87CA-0934-4553-80D6-D16F48F6A1CFQ30489419-3252664C-2C75-45A1-B9F1-CE89D036059CQ30538889-2ABFFA15-1410-4756-944C-2266C718414AQ30746208-4A7F5097-ACAE-429E-87C1-BC3ACBE775D1Q30847889-371116F4-0DDE-4A2A-968A-BE7EF5018E3CQ30885188-F13826B3-08D3-48F8-8F12-3A00F260CE1EQ33506103-B4E34ACE-5281-4BF2-BD9B-523E01BCD238Q33554184-7F00B2F0-8C76-4A7B-95D5-F763D1FF4271Q33613242-0490AFBC-FB37-400D-B952-B92BAD2674B0Q33668625-26D77C84-36FD-458C-9CDD-05DEBC4C243BQ33758267-5FB71D4E-149B-4CE7-B597-94D78E11149CQ33849349-8BF804BC-BC4F-4F14-A7AB-CACCB7F7BC4BQ33938891-1EDE6EB6-B53E-40E7-99E7-E942A63C43C9Q34021813-4E26E01A-CA32-4BB3-8D63-0E9C1FD1533EQ34048522-66015FA4-67BF-407A-B41F-5BCB5EE23CB7Q34080318-E8AA9A34-0228-42E2-8D67-C43FFEA2334AQ34159834-659A245F-4B1F-40A2-AB41-F797EEB34B80Q34193079-C557CF61-708A-4009-9C3C-2409BAF28A03Q34323421-FF4B9B56-3C26-4954-A578-88CE54D83BE7Q34498147-9AF74CD2-A6BE-4655-9F50-AAD3C6C077C9Q35172069-2997B09F-3345-4A9E-8592-372092DDB9D2Q35628032-38D254DE-04DD-4843-8DC3-80E1A8973FEAQ35670148-771B48BC-F3C6-470D-82B5-1FF438E6DD30Q35787219-8F547C7B-D564-4927-BB2A-96DC2526D9C8Q35829083-8865A52A-04A1-41DD-949E-E90619CEAAE6Q36162445-B79A3ABD-3B0E-4ED5-8408-EB9268A95921Q36183002-65032431-0E9D-4828-84BE-A0ADADDA0B75Q36366271-D3054919-7A8A-4697-98A8-6444D3ABBC02Q36536877-12DC7A8E-6D43-4061-A44E-7A3B722A6A26Q36556573-E55386CB-DBBA-40AF-9D20-E87CB4C86E1FQ36563605-200AF9B1-4F93-4DAC-A49E-40CC53B9D2D7Q36584877-D8D71FDA-894C-48A2-9710-677A46EA5A86Q36602763-24319ECD-463D-45FE-AA37-6654AF0857C2
P2860
The role of fluid mechanics in the localization and detection of atherosclerosis.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
1993年论文
@zh
1993年论文
@zh-cn
name
The role of fluid mechanics in the localization and detection of atherosclerosis.
@ast
The role of fluid mechanics in the localization and detection of atherosclerosis.
@en
type
label
The role of fluid mechanics in the localization and detection of atherosclerosis.
@ast
The role of fluid mechanics in the localization and detection of atherosclerosis.
@en
prefLabel
The role of fluid mechanics in the localization and detection of atherosclerosis.
@ast
The role of fluid mechanics in the localization and detection of atherosclerosis.
@en
P2093
P356
P1476
The role of fluid mechanics in the localization and detection of atherosclerosis.
@en
P2093
P304
P356
10.1115/1.2895545
P577
1993-11-01T00:00:00Z