In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
about
Fabricated ElastinElectrospinning covalently cross-linking biocompatible hydrogelators.Engineering on the straight and narrow: the mechanics of nanofibrous assemblies for fiber-reinforced tissue regeneration.Extracellular matrix molecules facilitating vascular biointegrationBiomaterials for vascular tissue engineeringNew directions in nanofibrous scaffolds for soft tissue engineering and regeneration.Structural and cellular characterization of electrospun recombinant human tropoelastin biomaterials.Mechanical property characterization of electrospun recombinant human tropoelastin for vascular graft biomaterials.A hybrid biomimetic nanomatrix composed of electrospun polycaprolactone and bioactive peptide amphiphiles for cardiovascular implants.Imaging and characterization of bioengineered blood vessels within a bioreactor using free-space and catheter-based OCT.Development of small diameter nanofiber tissue engineered arterial grafts.Scanning-fiber-based imaging method for tissue engineeringSingle-walled carbon nanotubes promote rat vascular adventitial fibroblasts to transform into myofibroblasts by SM22-α expressionReview: advances in vascular tissue engineering using protein-based biomaterials.Preliminary In Vivo Evaluation of a Hybrid Armored Vascular Graft Combining Electrospinning and Additive Manufacturing TechniquesThe effect of controlled release of PDGF-BB from heparin-conjugated electrospun PCL/gelatin scaffolds on cellular bioactivity and infiltrationA Facile Approach for the Mass Production of Submicro/Micro Poly (Lactic Acid) Fibrous Mats and Their Cytotoxicity Test towards Neural Stem Cells.Development of cardiovascular bypass grafts: endothelialization and applications of nanotechnology.Development and in vivo evaluation of small-diameter vascular grafts engineered by outgrowth endothelial cells and electrospun chitosan/poly(ε-caprolactone) nanofibrous scaffolds.The influence of electrospun scaffold topography on endothelial cell morphology, alignment, and adhesion in response to fluid flow.Vascular regeneration: engineering the stem cell microenvironment.Scaffolds in tissue engineering of blood vessels.Vascular tissue engineering of small-diameter blood vessels: reviewing the electrospinning approach.Therapeutic application of electrospun nanofibrous meshes.Emerging chitin and chitosan nanofibrous materials for biomedical applications.3D-printed fluidic networks as vasculature for engineered tissue.Compositions Including Synthetic and Natural Blends for Integration and Structural Integrity: Engineered for Different Vascular Graft Applications.Coaxial electrospinning of P(LLA-CL)/heparin biodegradable polymer nanofibers: potential vascular graft for substitution of femoral artery.Polymer nanofibrous structures: Fabrication, biofunctionalization, and cell interactionsNanofiber-reinforced biological conduit in cardiac surgery: preliminary report.Electrospun vascular grafts with improved compliance matching to native vessels.In vitro biocompatibility of sheath-core cellulose-acetate-based electrospun scaffolds towards endothelial cells and platelets.Vascular tissue construction on poly(ε-caprolactone) scaffolds by dynamic endothelial cell seeding: effect of pore size.Promotion of spinal cord axon regeneration by 3D nanofibrous core-sheath scaffolds.Electrospun tubular scaffolds: on the effectiveness of blending poly(ε-caprolactone) with poly(3-hydroxybutyrate-co-3-hydroxyvalerate).Effects of pulsatile bioreactor culture on vascular smooth muscle cells seeded on electrospun poly (lactide-co-ε-caprolactone) scaffold.Increased porosity of electrospun hybrid scaffolds improved bladder tissue regeneration.Bioengineered blood vessels.Bioactive polymeric scaffolds for tissue engineering.Electrospun Fibrous Scaffolds for Small-Diameter Blood Vessels: A Review.
P2860
Q28087162-8747A9D8-B205-4FFB-A46A-2774D4267A6EQ30536647-A4FD19C5-C20C-4528-B089-B6BEDE4D6824Q33634560-228F8A59-420C-4F14-AA82-24609126A580Q33649857-FFCACDCA-2824-4E97-A0E7-34DA8207F47DQ33655808-5C2B7CD8-ADB1-47A8-A87A-0FA58EDA0E4EQ33688700-9B31A3AB-DB11-4732-A603-C5EA84A0BFF6Q33903688-EDF76A2B-F16C-4615-8A99-586B61E9FA8FQ33994263-C88859EF-9ACC-463B-8B68-C5A00BC7F10BQ34259153-4F0AC402-D7EB-4856-A025-A269EBD38E05Q34760277-66D3090A-E53D-4BF2-9108-34FCA8FCDF57Q35242269-6E17CE68-1DE7-4FB7-B1A7-F28222879148Q36052071-6C92EC84-5444-43D8-8DAF-4782A823A09CQ36161017-5F412A6F-B0D7-4FDD-BD40-94671E010FC1Q36481645-4C42C9BB-25EC-43E8-9C0F-5F7069458288Q36635967-F55C7954-B01F-449B-9AC1-FF582ECAADD5Q37140138-88DE9595-80DA-47F3-861B-8AD8085A3608Q37268025-BFD810F0-008D-4744-B1B2-13A38AA90856Q37304690-32B165D5-D3CA-4554-8B54-C7813B5100C9Q37419312-D5A98EED-E79F-4B09-BE40-81D6259FB12BQ37426324-CE0F8426-724C-4D8E-91FF-3512CC69DFBEQ37479819-588F0056-6353-4245-BE3A-E0A633C187FDQ37797872-C30EC319-8788-42C8-AC77-0311BC2174A8Q38077942-D52A9FB4-4BD4-419B-AED8-903537A1F8AAQ38208616-17C06060-89E0-4F3F-95AA-497F9AD9595DQ38226941-2BDE494A-44B0-46AA-8C6E-3119984E735EQ38833108-B50F4E3F-8A85-4F46-903B-15423112F7DFQ39216764-B139DEC7-8134-40EC-A0FD-6A4EFA37D1D7Q40116259-8E45CAE4-D813-429E-B8A1-8EFC9E619F47Q41276236-614EE2DC-8B98-40E0-838D-368C6B737FD1Q41615000-A03E5F96-B06D-4400-A957-88BAEFD196F8Q41858148-F03BCB98-DCB0-475F-811A-A73C834DC0B1Q43033811-075AA00D-5316-4248-89CD-0E772606A7E6Q43599979-14CC6A7E-23A6-4C20-A1C1-83F53C4086EDQ43669361-B51D854B-DC2D-442B-B934-C2219D289399Q48411247-6D6B4D92-BF97-4397-8CC0-B2854A9E881FQ50852247-04E1AAD7-76A1-40BD-A1EF-1CC23E0A5FF9Q51794863-B72EDF41-027E-43D4-A6F6-DE58BEC472DEQ53633409-F8CD15F4-FC1F-4363-8EFD-47D044D88F62Q54578487-729DDA5E-6ADC-4141-904A-0D731397AD9BQ55005186-B1E5BDDD-D3ED-47B3-832A-8C4CCF2B28C6
P2860
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@en
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@nl
type
label
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@en
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@nl
prefLabel
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@en
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@nl
P2093
P356
P1476
In vitro evaluation of electrospun nanofiber scaffolds for vascular graft application.
@en
P2093
Grace J Lim
James J Yoo
Joel Stitzel
P304
P356
10.1002/JBM.A.31287
P577
2007-12-01T00:00:00Z