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Nucleus pulposus tissue engineering: a brief reviewBiomaterials in cardiovascular research: applications and clinical implications.A Biomimetic Heparinized Composite Silk-Based Vascular Scaffold with sustained Antithrombogenicity.Gelation of Covalently Cross-Linked PEG-Heparin Hydrogels.Synthesis of Aminooxy End-functionalized pNIPAAm by RAFT Polymerization for Protein and Polysaccharide Conjugation.Cell-mediated Delivery and Targeted Erosion of Vascular Endothelial Growth Factor-Crosslinked HydrogelsHeparin and related polysaccharides: synthesis using recombinant enzymes and metabolic engineering.Surface modification of a polyethylene film for anticoagulant and anti-microbial catheter.Enzymatic synthesis of glycosaminoglycan heparinMechanocompatible Polymer-Extracellular-Matrix Composites for Vascular Tissue EngineeringProduction of heparin-containing hydrogels for modulating cell responses.Hemocompatibility of Chitosan/poly(acrylic acid) Grafted Polyurethane Tubing.Immobilization of actively thromboresistant assemblies on sterile blood-contacting surfaces.A nitric oxide-releasing heparin conjugate for delivery of a combined antiplatelet/anticoagulant agent.Nucleus pulposus replacement and regeneration/repair technologies: present status and future prospects.Tissue engineering advances in spine surgery.Plasma functionalization of polycarbonaturethane to improve endothelialization--Effect of shear stress as a critical factor for biocompatibility control.Surface modification and endothelialization of polyurethane for vascular tissue engineering applications: a review.Simultaneous immobilization of heparin and gentamicin on polypropylene textiles: a dual therapeutic activity.Heparinization of a biomimetic bone matrix: integration of heparin during matrix synthesis versus adsorptive post surface modification.Sodium alginate/heparin composites on PVC surfaces inhibit the thrombosis and platelet adhesion: applications in cardiac surgeryCovalent Binding of Heparin to Functionalized PET Materials for Improved Haemocompatibility.Click-coated, heparinized, decellularized vascular graftsHeparin assisted photochemical synthesis of gold nanoparticles and their performance as SERS substrates.Heparin modification of a biomimetic bone matrix for controlled release of VEGF.Targeting Heparin to Collagen within Extracellular Matrix Significantly Reduces Thrombogenicity and Improves Endothelialization of Decellularized Tissues.Engineering the mechanical and biological properties of nanofibrous vascular grafts for in situ vascular tissue engineering.End-point immobilization of heparin on plasma-treated surface of electrospun polycarbonate-urethane vascular graft.Glycosaminoglycan and Proteoglycan-Based Biomaterials: Current Trends and Future Perspectives.Heparin-functionalized polymer graft surface eluting MK2 inhibitory peptide to improve hemocompatibility and anti-neointimal activity.Development of functionalized polyetherimide/polyvinylpyrrolidone membranes for application in hemodialysis.Immobilization of heparin on chitosan-grafted polyurethane films to enhance anti-adhesive and antibacterial propertiesHaemostatic Response of Polyethylene Terephthalate Treated by Oxygen and Nitrogen Plasma Afterglows
P2860
Q30434295-89597A9F-8C97-452C-9A73-B63FFA159EECQ33660457-F30EDD99-8800-4E10-A4FA-3F74EC203B1DQ33861024-7C7EE6DC-53CC-493F-89CC-C3FCD343AF02Q34781730-23E45AA8-59E0-4391-83C0-6D072154A9C3Q34897666-2FCF4185-E28E-4101-B7F2-754439AB4A38Q35026967-F23D89B3-336E-4B77-AC1E-C83AB6B32523Q35987516-FD64E790-73FD-4625-9A08-A7673E4C2E39Q36591619-FDD8DFA6-54E3-4164-910F-ACD58B008449Q36880811-C5ADD890-6B0B-4FB6-8547-31664099FCB8Q37163283-15853EE3-9829-4D2C-BA16-AB315628F6F0Q37352245-8553A431-D7B1-4688-83C2-FABBE9FE5784Q37384143-CB59F8B3-7539-47A5-B5D5-22A3BFCF81BFQ37640471-AF4BE575-7A49-4CEA-B6C9-226E27AF5057Q37714247-6416E1A7-A522-4CDB-9EBE-E221AD8F67C9Q38008302-35CEDDFA-E73C-425A-83FF-1FADB8C7A347Q38733647-A462AD3F-D7E9-4B9E-9E15-643E75628F74Q38804119-C8B64F81-D68C-4196-9140-346184482A89Q39036041-3F62053D-35A9-4D9C-8282-64C9A2C8B14AQ39044541-C52256A6-8785-4E4C-879B-59551C2EF364Q39061119-9299F0FC-1697-4EA5-9DF6-2B497E061D5AQ39974619-EC381120-8086-4627-A803-287F4E5B6ECAQ40993030-8A39D27C-51C5-40F2-B104-03812548511FQ41865639-7A3BF72F-E89D-4B55-AAB4-841F200CAE7CQ42058233-F5E714E7-6F30-4D4E-8AD5-D7DD1BF09C3EQ44866799-EECB1CC2-A2E7-487C-A40D-EA49137677A4Q45740855-B7A1EDF4-7D1E-4F38-97B9-3AF5236681E2Q45973293-3B083870-1D9C-4BBF-BB21-96960EAB99E9Q46895002-2435309F-65A8-4763-862A-78B7E5242BD9Q47279130-EE907D48-FED2-460D-BCB6-DA2DD2D54B6EQ47592103-5E953AD2-FA84-4179-A4CF-B356FDED3DEBQ47879923-B4E84586-5E9F-4894-A7DC-372246FD3A27Q57380911-1DC7A544-ACFB-4242-94E7-F4FF14DBEB20Q59124840-AC6E1940-684C-4B92-9B19-247A58783C5E
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Immobilization of heparin: approaches and applications.
@en
Immobilization of heparin: approaches and applications.
@nl
type
label
Immobilization of heparin: approaches and applications.
@en
Immobilization of heparin: approaches and applications.
@nl
prefLabel
Immobilization of heparin: approaches and applications.
@en
Immobilization of heparin: approaches and applications.
@nl
P2860
P1476
Immobilization of heparin: approaches and applications.
@en
P2093
Saravanababu Murugesan
P2860
P304
P356
10.2174/156802608783378891
P577
2008-01-01T00:00:00Z