Adaptive changes in autogenous vein grafts for arterial reconstruction: clinical implications
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Antithrombotic agents for preventing thrombosis after infrainguinal arterial bypass surgeryApolipoprotein(a) acts as a chemorepellent to human vascular smooth muscle cells via integrin αVβ3 and RhoA/ROCK-mediated mechanismsAdventitial vessel growth and progenitor cells activation in an ex vivo culture system mimicking human saphenous vein wall strain after coronary artery bypass graftingA single nucleotide polymorphism in the p27(Kip1) gene is associated with primary patency of lower extremity vein bypass grafts.Low levels of a natural IgM antibody are associated with vein graft stenosis and failure.Patient-Specific, Multi-Scale Modeling of Neointimal Hyperplasia in Vein GraftsElevated expression levels of miR-143/5 in saphenous vein smooth muscle cells from patients with Type 2 diabetes drive persistent changes in phenotype and function.Rationale and practical techniques for mouse models of early vein graft adaptations.Oversized vein grafts develop advanced atherosclerosis in hypercholesterolemic minipigs.Lack of interleukin-1 signaling results in perturbed early vein graft wall adaptations.Plaque rupture complications in murine atherosclerotic vein grafts can be prevented by TIMP-1 overexpression.Decellularized tissue-engineered blood vessel as an arterial conduitThe Nogo-B-PirB axis controls macrophage-mediated vascular remodeling.Circulatory contributors to the phenotype in hereditary hemorrhagic telangiectasiaA longitudinal study of remodeling in a revised peripheral artery bypass graft using 3D ultrasound imaging and computational hemodynamics.Increased Inlet Blood Flow Velocity Predicts Low Wall Shear Stress in the Cephalic Arch of Patients with Brachiocephalic Fistula AccessHemodynamic conditions in a failing peripheral artery bypass graft.Intimal thickness associated with endothelial dysfunction in human vein grafts.Reduced adult endothelial cell EphB4 function promotes venous remodeling.Diet-induced obesity drives negative mouse vein graft wall remodeling.Vein graft adaptation and fistula maturation in the arterial environment.External support in preventing vein graft failure.Vascular Smooth Muscle as a Target for Novel Therapeutics.Future research directions to improve fistula maturation and reduce access failure.Vein graft failure: from pathophysiology to clinical outcomes.Full Mimicking of Coronary Hemodynamics for Ex-Vivo Stimulation of Human Saphenous Veins.A Review of the Hemodynamic Factors Believed to Contribute to Vascular Access Dysfunction.A Multiscale Computational Framework to Understand Vascular Adaptation.Immobilized contrast-enhanced MRI: Gadolinium-based long-term MR contrast enhancement of the vein graft vessel wall.Immobilization of iron oxide magnetic nanoparticles for enhancement of vessel wall magnetic resonance imaging--an ex vivo feasibility study.Characteristics of the actions by which 5-hydroxytryptamine affects electrical and mechanical activities in rabbit jugular vein graft.The cAMP-producing agonist beraprost inhibits human vascular smooth muscle cell migration via exchange protein directly activated by cAMP.Improving arteriovenous fistula patency: Transdermal delivery of diclofenac reduces cannulation-dependent neointimal hyperplasia via AMPK activation.MicroRNA-26a targets MAPK6 to inhibit smooth muscle cell proliferation and vein graft neointimal hyperplasia.Improving the Outcome of Vein Grafts: Should Vascular Surgeons Turn Veins into Arteries?Saphenous Vein Graft Disease Is Associated with a Low Serum Erythropoietin Level.A compact and automated ex vivo vessel culture system for the pulsatile pressure conditioning of human saphenous veins.Linking gene dynamics to vascular hyperplasia - Toward a predictive model of vein graft adaptation.Eph-B4 regulates adaptive venous remodeling to improve arteriovenous fistula patency.Vascular Adaptation: Pattern Formation and Cross Validation between an Agent Based Model and a Dynamical System.
P2860
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P2860
Adaptive changes in autogenous vein grafts for arterial reconstruction: clinical implications
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Adaptive changes in autogenous ...... ruction: clinical implications
@ast
Adaptive changes in autogenous ...... ruction: clinical implications
@en
type
label
Adaptive changes in autogenous ...... ruction: clinical implications
@ast
Adaptive changes in autogenous ...... ruction: clinical implications
@en
prefLabel
Adaptive changes in autogenous ...... ruction: clinical implications
@ast
Adaptive changes in autogenous ...... ruction: clinical implications
@en
P2860
P1476
Adaptive changes in autogenous ...... ruction: clinical implications
@en
P2093
Christopher D Owens
P2860
P304
P356
10.1016/J.JVS.2009.07.102
P577
2009-10-17T00:00:00Z