Intimal hyperplasia and hemodynamic factors in arterial bypass and arteriovenous grafts: a review.
about
Coronary artery bypass grafting hemodynamics and anastomosis design: a biomedical engineering reviewNovel paradigms for dialysis vascular access: upstream hemodynamics and vascular remodeling in dialysis access stenosisThe Tissue-Engineered Vascular Graft-Past, Present, and Future.Analysis of peripheral artery velocity tracing in a porcine model.Vascular accesses for haemodialysis in the upper arm cause greater reduction in the carotid-brachial stiffness than those in the forearm: study of gender differences.Neointimal hyperplasia associated with synthetic hemodialysis grafts.Expression of versican isoform V3 in the absence of ascorbate improves elastogenesis in engineered vascular constructs.High expression of ubiquitin-specific peptidase 39 is associated with the development of vascular remodeling.Hypoxia-induced phenotypic switch of fibroblasts to myofibroblasts through a matrix metalloproteinase 2/tissue inhibitor of metalloproteinase-mediated pathway: implications for venous neointimal hyperplasia in hemodialysis accessMolecular regulation of contractile smooth muscle cell phenotype: implications for vascular tissue engineering.Crosslinked urethane doped polyester biphasic scaffolds: Potential for in vivo vascular tissue engineeringCharacterization of regional deformation and material properties of the intact explanted vein by microCT and computational analysis.Mild anastomotic stenosis in patient-specific CABG model may enhance graft patency: a new hypothesis.Mouse vein graft hemodynamic manipulations to enhance experimental utilityContrasting biofunctionalization strategies for the enhanced endothelialization of biodegradable vascular grafts.In vivo performance of a phospholipid-coated bioerodable elastomeric graft for small-diameter vascular applications.Fluid-dynamic optimal design of helical vascular graft for stenotic disturbed flowPhysiologically Modeled Pulse Dynamics to Improve Function in In Vitro-Endothelialized Small-Diameter Vascular Grafts.Heart rate variability during hemodialysis is an indicator for long-term vascular access survival in uremic patients.Patient-specific multiscale modeling of blood flow for coronary artery bypass graft surgery.Development of a tissue-engineered bypass graft seeded with stem cells.Effect of fibroin sponge coating on in vivo performance of knitted silk small diameter vascular grafts.Mechanocompatible Polymer-Extracellular-Matrix Composites for Vascular Tissue EngineeringThe influence of the aortic valve angle on the hemodynamic features of the thoracic aorta.Mechanobiology in Cardiovascular Disease Management: Potential Strategies and Current Needs.The effects of heparin releasing hydrogels on vascular smooth muscle cell phenotype.Development and in vivo evaluation of small-diameter vascular grafts engineered by outgrowth endothelial cells and electrospun chitosan/poly(ε-caprolactone) nanofibrous scaffolds.Development and assessment of a biodegradable solvent cast polyester fabric small-diameter vascular graft.ECM-based materials in cardiovascular applications: Inherent healing potential and augmentation of native regenerative processes.Tissue engineering by self-assembly and bio-printing of living cells.The use of antithrombotic therapies in reducing synthetic small-diameter vascular graft thrombosis.Polymer-based scaffold designs for in situ vascular tissue engineering: controlling recruitment and differentiation behavior of endothelial colony forming cells.Hemodynamic Shear Stress and Endothelial Dysfunction in Hemodialysis Access.An early study on the mechanisms that allow tissue-engineered vascular grafts to resist intimal hyperplasia.Biomaterial-Based Approaches to Address Vein Graft and Hemodialysis Access Failures.Dual biofunctional polymer modifications to address endothelialization and smooth muscle cell integration of ePTFE vascular grafts.Compositions Including Synthetic and Natural Blends for Integration and Structural Integrity: Engineered for Different Vascular Graft Applications.Electrospinning collagen/chitosan/poly(L-lactic acid-co-ε-caprolactone) to form a vascular graft: mechanical and biological characterization.A Review of the Hemodynamic Factors Believed to Contribute to Vascular Access Dysfunction.Exploring cell compatibility of a fibronectin-functionalized physically crosslinked poly(vinyl alcohol) hydrogel.
P2860
Q26853077-802DB020-D99E-4A44-AF3B-BA57B7B7760EQ26864915-4D717072-6544-45E7-AF79-EB188CC7F5F9Q30385854-03A38797-988F-4850-8038-2C260999FCACQ30464436-823B9130-9DC1-42BC-BD32-4AE73FF4626FQ30467809-67BCA19E-D517-4D11-B6DF-85E40B6EF4C0Q30492883-EC029516-6663-46FE-BF82-FD02DC88353FQ33617665-CE5AE06E-C6B7-4406-B2EA-B41FF2F77B80Q33673175-EF5810F3-9A23-40A2-A017-11B42969C494Q34061727-D5DE2E5C-863F-46D5-AFF1-9B2DDAF9B321Q34146262-DBCADCA2-6CE4-4807-9335-21DC623840A2Q34148284-312623DD-E393-4EE5-9CD5-8F21801FCBF3Q34755005-02D74EFE-BEEB-4514-8660-7B38978794DEQ34994408-0D632D9C-8795-4C71-8DEA-D755EF12235DQ35071270-326BBF97-42AB-4A83-A1D2-C7813F640C50Q35076384-74B6072C-1BE3-4BD8-8689-8557EB33208FQ35227304-B7E1EE1B-B612-4C96-8232-61FAB209F6DBQ35381844-7C498C08-B79B-4E6C-BFE5-8C505FE8067BQ36263595-650DD26D-88DC-4316-8804-5BF84728EBD7Q36294102-A636FEE6-EF36-4C36-AD32-9811640F01D8Q36603897-2BF1AC23-C5F6-40CE-89B8-670BB1041A0BQ36675618-27729B11-A24C-4476-B1C1-EC7F241F2A09Q36934801-467068ED-EA5F-4BF4-B6E9-01C9B9825149Q37163283-937080A6-C812-49C8-A50C-F82E981D842EQ37208908-EF31E9CA-ED5E-42E9-AEAC-CCADD067E7D9Q37323329-6FA17B46-88A2-4ACD-8547-8DD13843EDD4Q37411237-631E751A-C57B-4622-A388-D818AD3B965CQ37419312-68A3BF15-0FFD-4C10-BA88-D8597256F271Q37510318-0E3A33E1-1BFC-424F-8B7F-01AB239188C9Q37670671-081F53AD-B567-45AE-825C-C5DB79F8390AQ37784654-0FCBFC20-89C2-4FA6-83ED-10D6D7EBED08Q37981652-E7D1E052-771F-4EAF-8166-065D44F5A300Q38008288-20BFC0F6-0936-4C12-9935-E42C8EB5CD0CQ38259575-9DF114CC-DED8-4D2D-B1E2-97001AB90105Q38491646-52EE6F39-5FC4-4852-9ED0-EA4F605BCD5FQ38817264-81D2757E-83FA-4882-8F2C-3EF1A18E3FD4Q38852725-8AC360AE-EA36-4807-B892-3653EC9A82A6Q39216764-D08C5544-3F1D-4CC8-87F6-B72131131128Q39259284-4895D461-0BFB-4766-A5DA-DCF62F3ED59FQ39319362-E87E85D6-EB20-420C-8E62-3923AD25E102Q39458356-81C76093-3381-427E-A027-0E7272798D2E
P2860
Intimal hyperplasia and hemodynamic factors in arterial bypass and arteriovenous grafts: a review.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
2003年论文
@zh
2003年论文
@zh-cn
name
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@ast
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@en
type
label
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@ast
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@en
prefLabel
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@ast
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@en
P1433
P1476
Intimal hyperplasia and hemody ...... rteriovenous grafts: a review.
@en
P2093
Hiroaki Haruguchi
Satoshi Teraoka
P2888
P304
P356
10.1007/S10047-003-0232-X
P577
2003-01-01T00:00:00Z