Review of injectable cartilage engineering using fibrin gel in mice and swine models.
about
Cell-controlled and spatially arrayed gene delivery from fibrin hydrogelsThree-dimensional cell and tissue patterning in a strained fibrin gel system.A nanofibrous cell-seeded hydrogel promotes integration in a cartilage gap modelMR signal characteristics of viable and apoptotic human mesenchymal stem cells in matrix-associated stem cell implants for treatment of osteoarthritisEngineering fibrin-binding TGF-β1 for sustained signaling and contractile function of MSC based vascular constructsGenipin-crosslinked fibrin hydrogels as a potential adhesive to augment intervertebral disc annulus repairSupporting Biomaterials for Articular Cartilage Repair.Facile coupling of synthetic peptides and peptide-polymer conjugates to cartilage via transglutaminase enzymeMajor biological obstacles for persistent cell-based regeneration of articular cartilage.Evaluation of articular cartilage repair using biodegradable nanofibrous scaffolds in a swine model: a pilot study.Semi-degradable scaffold for articular cartilage replacementFibrin hydrogels for non-viral vector delivery in vitroProgressive Muscle Cell Delivery as a Solution for Volumetric Muscle Defect Repair.Enhanced chondrocyte culture and growth on biologically inspired nanofibrous cell culture dishes.A bioactive hybrid three-dimensional tissue-engineering construct for cartilage repair.Incorporation of exudates of human platelet-rich fibrin gel in biodegradable fibrin scaffolds for tissue engineering of cartilage.Biomechanical and biochemical characterization of porcine tracheal cartilage.Hydrogel design for supporting neurite outgrowth and promoting gene delivery to maximize neurite extension.Balancing cell migration with matrix degradation enhances gene delivery to cells cultured three-dimensionally within hydrogels.Characterization of a cartilage-like engineered biomass using a self-aggregating suspension culture model: molecular composition using FT-IRIS.Enhanced cardioprotective effects mediated by plasmid containing the short-hairpin RNA of angiotensin converting enzyme with a biodegradable hydrogel after myocardial infarction.Injectable tissue-engineered cartilage using commercially available fibrin glue.Cell bricks-enriched platelet-rich plasma gel for injectable cartilage engineering - an in vivo experiment in nude mice.Theoretically proposed optimal frequency for ultrasound induced cartilage restoration.Non-invasive in vivo tracking of fibrin degradation by fluorescence imaging.Magnetic resonance imaging and histology of ovine hip joint cartilage in two age populations: a sheep model with assumed healthy cartilage.Mesenchymal stem cell implantation in osteoarthritic knees: is fibrin glue effective as a scaffold?Utilizing tissue-engineered cartilage or BMNC-PLGA composites to fill empty spaces during autologous osteochondral mosaicplasty in porcine knees.Repair of osteochondral defects in the minipig model by OPF hydrogel loaded with adipose-derived mesenchymal stem cellsCrack buckling in soft gels under compressionFibrin gel as an injectable biodegradable scaffold and cell carrier for tissue engineering
P2860
Q24649486-BC12DD08-AF5F-49F0-BA2F-419C550CD3FCQ33306696-F60DEAFF-F80C-4751-9D9F-0565D651CD92Q33621854-879853F8-B935-4FD5-B24D-E5BB23C57B8FQ34146129-BD9800F0-9B2A-4AD9-9591-74C6E2E6E1DFQ35223959-B2B1557C-1733-4993-95D1-E8B4267DFE1AQ35547496-35F6C44B-566C-48E1-B14E-9873E7BF6729Q35662167-68BE3AE1-1A39-4A56-99C7-D97E6A8C4063Q36168211-4D27C26E-C574-4897-94A9-A2F389CEA6A7Q36392311-52340A40-4320-452F-B4E6-D339364AC370Q36975848-96E256F9-8BE9-4EDC-ADA4-040CB30B3B53Q37248631-4CB2275B-384F-48C7-8003-517C4E71206EQ37363295-09724E71-244F-43AB-AF72-30FCF87BC21DQ37479577-8A0BF2EB-A314-4C24-A339-F6F9FC8ACDDFQ38388279-B895ED11-3213-4F48-AB2E-DE0432BEB54EQ38837740-5CF97A3A-97DE-4ECB-B17A-1B66855927BCQ39406005-2F22A1ED-A7C4-4935-AF96-AED7E53F5E5CQ40042459-63497781-1FC6-4E4A-B033-A6B18B5865B9Q40513263-5D59CDC5-7C19-4FB2-96FC-68C516AEB066Q42285059-6D917D61-5908-44E8-80EE-2710E6156CAFQ42597056-A09D9157-BCA4-4740-A870-2EBAF1FB26A3Q43415032-57E9F5C9-86A9-4090-8C9E-108765B0DA5FQ45357939-44405EE3-5C7B-492B-B57D-F54D43A44A83Q46032598-44498BA1-6BD3-4384-8C57-EF379FE88A33Q47132465-5A77F951-0BB3-44CF-8B0F-E19FD7218924Q48289381-52D5160F-109E-4E13-8C7A-184F866F514CQ49024985-6D7F0513-9551-478A-AD02-38F8614F8137Q53082461-D13EAC95-67AA-4768-B1AA-78224A2D2DBAQ53601601-24B183A8-BA67-4195-8636-98751F5DF66DQ57997407-BA00AB16-9F0E-430E-A61F-7A23EBE92334Q58745055-16B7D604-0BFA-403C-9FA1-B725A9706B5BQ59121305-3523C18F-94E3-4C08-B2E5-DFF54AFADA17
P2860
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@ast
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@en
type
label
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@ast
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@en
prefLabel
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@ast
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@en
P2093
P356
P1433
P1476
Review of injectable cartilage engineering using fibrin gel in mice and swine models.
@en
P2093
Carl Hendrick Kirchhoff
Jian-Wei Xu
Lawrence J Bonassar
Mark A Randolph
Michael J Yaremchuk
P304
P356
10.1089/TEN.2006.12.1151
P577
2006-05-01T00:00:00Z