Scaffolds with covalently immobilized VEGF and Angiopoietin-1 for vascularization of engineered tissues.
about
Neonatal mouse-derived engineered cardiac tissue: a novel model system for studying genetic heart diseasePerfusable branching microvessel bed for vascularization of engineered tissues.A multistep procedure to prepare pre-vascularized cardiac tissue constructs using adult stem sells, dynamic cell cultures, and porous scaffolds."Click" immobilization of a VEGF-mimetic peptide on decellularized endothelial extracellular matrix to enhance angiogenesis.Engineering vascularized bone grafts by integrating a biomimetic periosteum and β-TCP scaffold.Microfluidic techniques for development of 3D vascularized tissueControlled activation of morphogenesis to generate a functional human microvasculature in a synthetic matrix.The enhancement of VEGF-mediated angiogenesis by polycaprolactone scaffolds with surface cross-linked heparinCapillary Network-Like Organization of Endothelial Cells in PEGDA Scaffolds Encoded with Angiogenic Signals via Triple Helical Hybridization.QHREDGS enhances tube formation, metabolism and survival of endothelial cells in collagen-chitosan hydrogels.Controlled release of chitosan/heparin nanoparticle-delivered VEGF enhances regeneration of decellularized tissue-engineered scaffolds.Endothelialized biomaterials for tissue engineering applications in vivoDelivery of VEGF using collagen-coated polycaprolactone scaffolds stimulates angiogenesisEngineering growth factors for regenerative medicine applications.Cell therapies for heart function recovery: focus on myocardial tissue engineering and nanotechnologies.In Situ Crosslinkable Gelatin Hydrogels for Vasculogenic Induction and Delivery of Mesenchymal Stem Cells.Ex vivo non-invasive assessment of cell viability and proliferation in bio-engineered whole organ constructs.The induction of pro-angiogenic processes within a collagen scaffold via exogenous estradiol and endometrial epithelial cells.Control of crosslinking for tailoring collagen-based scaffolds stability and mechanics.Multimodal Imaging Reveals Improvement of Blood Supply to an Artificial Cell Transplant Site Induced by Bioluminescent Mesenchymal Stem Cells.Bioengineering vascularized tissue constructs using an injectable cell-laden enzymatically crosslinked collagen hydrogel derived from dermal extracellular matrix.Enhancing angiogenesis alleviates hypoxia and improves engraftment of enteric cells in polycaprolactone scaffoldsProtein-hydrogel interactions in tissue engineering: mechanisms and applications.Fibrous scaffolds for building hearts and heart parts.Materials science and tissue engineering: repairing the heart.A glycosaminoglycan based, modular tissue scaffold system for rapid assembly of perfusable, high cell density, engineered tissues.Characterization of a bioactive fiber scaffold with entrapped HUVECs in coaxial electrospun core-shell fiber.Biofabrication and Bone Tissue Regeneration: Cell Source, Approaches, and Challenges.Strategies for organ level tissue engineering.Engineered cardiac tissues.Vascular endothelial growth factor-delivery systems for cardiac repair: an overview.Generation of tissue constructs for cardiovascular regenerative medicine: from cell procurement to scaffold design.Controlled delivery of thymosin β4 for tissue engineering and cardiac regenerative medicine.Vascularization in 3D tissue using cell sheet technology.Biomimetic materials and scaffolds for myocardial tissue regeneration.Endothelialization of implanted cardiovascular biomaterial surfaces: the development from in vitro to in vivo.Cardiac tissue engineering: renewing the arsenal for the battle against heart disease.Growth factor conjugation: strategies and applications.Cardiac Tissue Vascularization: From Angiogenesis to Microfluidic Blood Vessels.Biomaterials in myocardial tissue engineering.
P2860
Q24605124-23CD3C4C-8CFA-47AF-BED9-80AA71B7A7F7Q30530486-2764EC69-2937-418D-B37E-F4A8627FCD07Q33701439-6A7E2359-2827-4C50-B52B-F280682D269AQ33761789-9F9B5542-F8B4-4B59-9AF2-677BD25F99ECQ33824725-394E3777-8463-487B-8AE9-6BC2C8357DB6Q33987560-D648CE11-E4D3-4A4D-B6F1-A5E8BF5FF943Q34180962-532ADE16-95E7-4720-9969-3DA119D89B13Q34536183-904C79D2-4750-41E5-8865-9AB84AC043DAQ34756553-7574FE93-1961-4FE8-ABC3-31A60A5C7EC3Q34980989-AA59AF42-7846-4874-91AF-77AF85AC61FFQ35071607-157A9871-A612-49E0-A6F5-233B23E1545DQ35118846-0D86323C-6E08-4671-B791-18F5AF394734Q35696715-5E87E1BE-F0FD-46FF-BFAD-CFF7A44AD141Q35837394-F419502F-1F2B-4B36-9F44-E6F827CE7317Q35942474-78EC90AB-0D0D-47B2-A448-CB83FF2CA0DBQ36001000-39A3EC8D-0ED7-4E05-85A7-16CF45C67881Q36055327-29A0DA31-34C8-4DBC-BC0A-8B7539EA5998Q36061701-2322073A-3218-4B6E-99E1-49C793FBA29EQ36062668-902BB4B0-7F9F-467F-81D6-442DAD83DB01Q36087561-D2395FD4-30EF-4900-B437-A596D98AE13EQ36219716-28DB9959-9EDB-440A-B300-A799E8E9B6D5Q36617138-9CFA82FC-0141-4378-83D6-15129137545BQ36668673-5AAC94DA-9D6C-46BC-ABFD-5A8F6E5B2B94Q36728608-9B42439B-8C94-4C84-9D5B-6268E59F3A7FQ37206811-0761F1A5-8BC8-457F-8B63-92DB5877B704Q37495735-5A21AA51-E9E3-4ACF-92B4-9D1D5D074085Q37687001-B54422B5-1FDB-46E7-86DC-A9B1C6675EE0Q37716810-AD487AA1-625B-47FE-9855-F8E01618AF67Q37825413-1114B3EE-C4AD-4A38-AAEE-FD4799BEE6A9Q37870320-303B34BC-BDE0-443B-B65F-8CAB597124D9Q38022017-3059B86C-80D4-4CC5-94E2-12E65F5D80CCQ38041035-355C29D4-914C-40E4-82E1-B6EE40D5D6E9Q38050451-E6FEA2B5-6A3D-4C79-ADED-D4B3FEF5ADBDQ38102772-F14BB61A-E5EC-44CC-9326-8408A4D9182DQ38120233-8C06754A-1B5E-49AC-A1A4-1DC790C6C04AQ38163509-9C338C9E-1EB0-415B-ACFE-5D7599FFCDC0Q38172390-00721898-9AC0-42FA-8B37-BCCD0E2F5EABQ38204731-5961BD76-3087-407C-84A8-2A3EBC883114Q38206983-75E914DA-4258-4BD6-9F97-C72922A668EEQ38234469-B1F8AB48-C4A7-40C5-B5BF-72BCC0AF6A25
P2860
Scaffolds with covalently immobilized VEGF and Angiopoietin-1 for vascularization of engineered tissues.
description
2009 nî lūn-bûn
@nan
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
2009年论文
@zh
2009年论文
@zh-cn
name
Scaffolds with covalently immo ...... ization of engineered tissues.
@en
Scaffolds with covalently immo ...... ization of engineered tissues.
@nl
type
label
Scaffolds with covalently immo ...... ization of engineered tissues.
@en
Scaffolds with covalently immo ...... ization of engineered tissues.
@nl
prefLabel
Scaffolds with covalently immo ...... ization of engineered tissues.
@en
Scaffolds with covalently immo ...... ization of engineered tissues.
@nl
P1433
P1476
Scaffolds with covalently immo ...... ization of engineered tissues.
@en
P2093
Loraine L Y Chiu
Milica Radisic
P304
P356
10.1016/J.BIOMATERIALS.2009.09.039
P577
2009-10-02T00:00:00Z