about
Blood flow to long bones indicates activity metabolism in mammals, reptiles and dinosaursExpression of TGF-beta1 and beta3 but not apoptosis factors relates to flow-induced aortic enlargement.Biomechanics of vascular mechanosensation and remodelingRho kinase as a target for cerebral vascular disordersHemodynamics.Ensuring congruency in multiscale modeling: towards linking agent based and continuum biomechanical models of arterial adaptationCharacterization of the vessel geometry, flow mechanics and wall shear stress in the great arteries of wildtype prenatal mouse.Cardiac and vascular pathophysiology in hypertension.MyD88-dependent, superoxide-initiated inflammation is necessary for flow-mediated inward remodeling of conduit arteries.Alterations of pulse pressure stimulate arterial wall matrix remodeling.Hemodynamic influences on abdominal aortic aneurysm disease: Application of biomechanics to aneurysm pathophysiologyThe importance of elastin to aortic development in mice.CXCR3-dependent accumulation and activation of perivascular macrophages is necessary for homeostatic arterial remodeling to hemodynamic stressesCardiac and vascular changes in elderly atherosclerotic mice: the influence of genderA biomechanical model of artery bucklingDifferential progressive remodeling of coronary and cerebral arteries and arterioles in an aortic coarctation model of hypertensionTime course of carotid artery growth and remodeling in response to altered pulsatilityAbrupt increase in rat carotid blood flow induces rapid alteration of artery mechanical properties.The shunt problem: control of functional shunting in normal and tumour vasculature.Vascular remodeling is governed by a VEGFR3-dependent fluid shear stress set point.Molecular mechanism of endothelial growth arrest by laminar shear stress.Mononuclear cell therapy attenuates atherosclerosis in apoE KO miceGrowth and hemodynamics after early embryonic aortic arch occlusionLocal versus systemic influences on uterine vascular reactivity during pregnancy in the single-horn gravid rat.Twisted blood vessels: symptoms, etiology and biomechanical mechanismsConstrained Mixture Models as Tools for Testing Competing Hypotheses in Arterial Biomechanics: A Brief Survey.Comparative regional morphometric changes in human uterine artery before and during pregnancy.Developmental adaptation of the mouse cardiovascular system to elastin haploinsufficiencyComputational simulations of hemodynamic changes within thoracic, coronary, and cerebral arteries following early wall remodeling in response to distal aortic coarctation.Time courses of growth and remodeling of porcine aortic media during hypertension: a quantitative immunohistochemical examinationHypertension and Estrogen Deficiency Augment Aneurysmal Remodeling in the Rabbit Circle of Willis in Response to Carotid Ligation.Artery buckling: new phenotypes, models, and applications.Role of the cytoskeleton in flow (shear stress)-induced dilation and remodeling in resistance arteries.Endothelial Bmp4 is induced during arterial remodeling: effects on smooth muscle cell migration and proliferation.Intracranial and abdominal aortic aneurysms: similarities, differences, and need for a new class of computational modelsRight coronary artery becomes stiffer with increase in elastin and collagen in right ventricular hypertrophy.Fundamental role of axial stress in compensatory adaptations by arteries.Maternal uterine vascular remodeling during pregnancyA Computational Framework for Fluid-Solid-Growth Modeling in Cardiovascular SimulationsA microstructurally motivated model of arterial wall mechanics with mechanobiological implications.
P2860
Q24630274-A5BC6707-5754-44FC-905C-F2BAEABCE3CDQ24799106-312D8158-70C2-41D2-AE5D-1AC1A670E38CQ28067208-4A159C21-8E89-4403-88D8-C604E376BCB7Q28081507-40943BA9-5863-4645-93CA-0F4BD8084C95Q30361084-D9A78617-AD62-4E76-A86B-BDE2935958ECQ30424168-23DC1BD5-A96C-4E61-9229-F467D226E7F1Q30443955-90576F98-5816-40C2-9EAC-AAB35FF94D3EQ30478752-CE05C735-8740-4373-8963-AA984384F907Q30485100-F78AD017-F3E5-4E94-8BC5-C0BBFBD37455Q33802590-AA2ABBB4-8BD0-4375-A56A-63306E914FCCQ33891795-B07AA280-58A6-4BF0-A447-984D888AD37EQ34092808-1ED8679F-DACA-4B28-85B0-8560EC68F06FQ34096557-C525BD83-EDD9-40D3-9C05-27AB2FE05A0FQ34114338-C2C12752-D597-4E6B-8A28-1C9DBAA4A746Q34258630-2AD503E4-3E21-4B51-9973-C41C17C553E0Q34312551-F3AC06D8-618F-4691-9155-FE1C28BE0ABEQ34426162-C4368513-400F-4881-94EA-A5EC592542B1Q34682719-538A2B72-008F-4FE6-9F9F-47E795914DF5Q35029814-37F656A2-956C-4879-9767-04778716A0E2Q35111511-F6A0AE65-CFCD-4F5A-BA09-7F4E5DF4D7B6Q35205740-60B7B10D-2116-4A10-8FC2-300B35656510Q35231300-CECF0B45-F9AB-41BA-91BC-026B8031EB84Q35443922-EAC68ED4-B466-481A-BCC1-3BFA53AD8E76Q35930945-8789F986-6E88-4B15-BF93-FA492D5F4BD1Q36013921-27F2EF61-FB6B-4DE9-BBE6-AE336BD1EE11Q36033766-9B4EE51B-D31B-4B82-813C-92980A692219Q36479998-82DD679A-ED44-4E15-B831-4939E7374C50Q36524613-B22BCBB5-4705-45C7-819F-92F44C74D34AQ36532552-1442A202-7A66-41E5-91ED-5DCF47B1830DQ36574287-ADDB4441-838C-461E-8E1B-A6273A70CE0AQ36647049-765FF0EE-DE12-44C0-9854-9FD0C91170A8Q36745562-B05F0943-E90D-4F47-9B16-52F3A4C4427FQ36935093-DF9236C0-28B7-475A-9F5A-37D094DA7C01Q36961302-765773C2-7760-44EF-A31D-8DAA1F6CBA3AQ37223811-7C4EE1A8-0C04-4F8E-92B5-E30377BFE121Q37233123-F741E752-986D-4068-A210-AF367DFB7CCFQ37345577-C009DD16-E733-4DAE-B19A-67126667E6C5Q37383975-FD15B001-F84B-48E0-AD50-DC5AD84835A0Q37406635-1DC03042-D53C-4945-B7BE-B238924CF4BFQ37619316-023DE700-5A35-493B-AF2E-F2E0B660F6BB
P2860
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh
1996年學術文章
@zh-hant
name
Arterial remodeling: relation to hemodynamics.
@en
type
label
Arterial remodeling: relation to hemodynamics.
@en
prefLabel
Arterial remodeling: relation to hemodynamics.
@en
P356
P1476
Arterial remodeling: relation to hemodynamics.
@en
P2093
Langille BL
P304
P356
10.1139/CJPP-74-7-834
P577
1996-07-01T00:00:00Z