Biofunctionalization of biomaterials for accelerated in situ endothelialization: a review.
about
Matrix production and organization by endothelial colony forming cells in mechanically strained engineered tissue constructsDynamic, nondestructive imaging of a bioengineered vascular graft endotheliumSurface modification of biomaterials: a quest for blood compatibilityPhotoreactive elastin-like proteins for use as versatile bioactive materials and surface coatingsCustomized Interface Biofunctionalization of Decellularized Extracellular Matrix: Toward Enhanced Endothelialization.Extracellular matrix molecules facilitating vascular biointegrationSynthetic phage for tissue regenerationElectrospun small-diameter polyurethane vascular grafts: ingrowth and differentiation of vascular-specific host cells.Bioactive modification of poly(ethylene glycol) hydrogels for tissue engineering.Laser microstructuring of photomodified fluorinated ethylene propylene surface for confined growth of Chinese hamster ovary cells and single cell isolation.Dynamic adhesion of umbilical cord blood endothelial progenitor cells under laminar shear stress.Biological effects of anti-CD34-coated ePTFE vascular grafts. Early in vivo experimental resultsThe in vivo blood compatibility of bio-inspired small diameter vascular graft: effect of submicron longitudinally aligned topography.Contrasting biofunctionalization strategies for the enhanced endothelialization of biodegradable vascular grafts.ENDOXY - Development of a Biomimetic Oxygenator-Test-Device.Hydrogel surfaces to promote attachment and spreading of endothelial progenitor cells.In Vitro Endothelialization Test of Biomaterials Using Immortalized Endothelial CellsFunctional Modification of Fibrous PCL Scaffolds with Fusion Protein VEGF-HGFI Enhanced Cellularization and Vascularization.bFGF-containing electrospun gelatin scaffolds with controlled nano-architectural features for directed angiogenesis.Strategies and techniques to enhance the in situ endothelialization of small-diameter biodegradable polymeric vascular graftsDynamic control over cell adhesive properties using molecular-based surface engineering strategies.ECM-based materials in cardiovascular applications: Inherent healing potential and augmentation of native regenerative processes.Click chemistry plays a dual role in biodegradable polymer design.Differentiation of stem cells: strategies for modifying surface biomaterials.In situ endothelialization of intravascular stents from progenitor stem cells coated with nanocomposite and functionalized biomolecules.Cardiovascular application of polyhedral oligomeric silsesquioxane nanomaterials: a glimpse into prospective horizons.Biomaterials to prevascularize engineered tissues.Application of plasma surface modification techniques to improve hemocompatibility of vascular grafts: A review.Synthetic matrices to serve as niches for muscle cell transplantationOrchestrating cell/material interactions for tissue engineering of surgical implants.Amniotic fluid-derived stem cells for cardiovascular tissue engineering applications.Vascular tissue engineering of small-diameter blood vessels: reviewing the electrospinning approach.Arterial tissue regeneration for pediatric applications: inspiration from up-to-date tissue-engineered vascular bypass grafts.Strategies affording prevascularized cell-based constructs for myocardial tissue engineering.Mussel-inspired cell-adhesion peptide modification for enhanced endothelialization of decellularized blood vessels.Surface modification and endothelialization of biomaterials as potential scaffolds for vascular tissue engineering applications.In situ Endothelialization: Bioengineering Considerations to Translation.Polymeric nanobiocomposites for biomedical applications.Nylon-3 polymers that enable selective culture of endothelial cellsLabel-free segmentation of Co-cultured cells on a nanotopographical gradient.
P2860
Q27308049-4E51F568-9A0F-4DA1-9B37-C6AB00A2DD4CQ27325395-97033ACF-C445-4F72-B7E8-60AA297A2B8FQ28728811-DB9F25DE-D818-4101-9A30-C1B595CEEC0FQ30570916-EF02DB92-FB31-4607-B006-30D6D5FA10A0Q30758518-D20F1044-89D5-4CEB-936C-2949B3AA3797Q33649857-CEAD2397-F15D-40B7-9035-91AFA719D273Q33758770-46D6843A-B5A1-49EE-8159-0C4424D4F25FQ33995034-3A17B3E4-3869-4300-BE82-6BFDCFFECCECQ34011019-88703B62-1272-4131-B392-8D777023863EQ34030916-28CD3408-E851-4A25-BC1F-3D6BFED19055Q34388631-72EC6C5D-C69A-44DB-860F-EE28E866D09BQ34821264-11E96EFF-AC70-4B2E-9640-7591450CC581Q35003789-2B1D0B0C-FD46-48C8-BF3A-FDA6BD3C2D1CQ35076384-1F38A6EA-4079-48BB-A00F-85ABC5F279E4Q35872971-AA899C74-43BD-49DD-857A-A156BF5B8A7CQ35888570-1E5515B6-8839-47DE-B48A-4164DD64F77EQ36062465-9CBF1FDB-13C5-4D62-ACE5-54AE83D00234Q36071471-23D3612B-E218-4DDA-93F9-6E51CB72EECEQ36205824-3D17912A-A15C-4957-A44C-C567B0BEE9A9Q36948086-5AA7C6C7-847E-4B2B-AF8B-DBF71C8A86F9Q37660002-77221F4D-3664-4251-AC4D-C9F2B8391C3BQ37670671-B3F26560-F883-4D1E-9CFE-2011326FF139Q37672282-5C21D55D-A091-4E0A-B064-1D17FC2A91B6Q37807529-72026DD4-48D2-472A-9F0D-3F5BBA9493B0Q37859059-62A96C7F-4ED9-47F0-8E96-CC8A1CDAE414Q37876739-FD50988B-7BD8-49AA-9173-7F38DB001D3AQ37926556-AF97ED0A-4D09-49C8-88C6-33A0EA21E743Q37945292-05F44795-BC10-4091-8F48-E291D312A1BEQ37946665-7E43B82D-03F6-4116-A381-E46F8468AF55Q38025039-647CB8B1-FBF2-4AA5-8D3D-EC23647E82ABQ38076751-F0CB0296-7209-44EF-90E9-BF0B5720F506Q38077942-879DAF76-696F-40AB-9176-097DAA0F3894Q38095588-9EE21188-715D-46C6-8013-98E22295EFABQ38186710-547068EF-F1DC-496D-A302-D331D6A16F9AQ38438200-0C96B42F-E7C3-4811-889B-6AFD0A48E6BFQ38507265-AFF2A9BC-87F3-4169-856B-3D706ABC9008Q38605831-3AE04033-2C3B-4326-8FD0-DE36722848C6Q38748582-02919DB3-C98C-439F-9F6A-FB14F387A177Q38911376-C587BB54-C2DC-4D8A-B1EC-39DF51E3FEF9Q40011725-083B7B7C-451C-4637-8C80-A3FDAD7025D0
P2860
Biofunctionalization of biomaterials for accelerated in situ endothelialization: a review.
description
2008 nî lūn-bûn
@nan
2008 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Biofunctionalization of biomat ...... endothelialization: a review.
@ast
Biofunctionalization of biomat ...... endothelialization: a review.
@en
Biofunctionalization of biomat ...... endothelialization: a review.
@nl
type
label
Biofunctionalization of biomat ...... endothelialization: a review.
@ast
Biofunctionalization of biomat ...... endothelialization: a review.
@en
Biofunctionalization of biomat ...... endothelialization: a review.
@nl
prefLabel
Biofunctionalization of biomat ...... endothelialization: a review.
@ast
Biofunctionalization of biomat ...... endothelialization: a review.
@en
Biofunctionalization of biomat ...... endothelialization: a review.
@nl
P2093
P356
P1433
P1476
Biofunctionalization of biomat ...... endothelialization: a review.
@en
P2093
Achala de Mel
Alexander M Seifalian
Gavin Jell
Molly M Stevens
P304
P356
10.1021/BM800681K
P577
2008-10-03T00:00:00Z