Bone morphogenetic proteins in tissue engineering: the road from laboratory to clinic, part II (BMP delivery).
about
Changing Paradigms in Cranio-Facial Regeneration: Current and New Strategies for the Activation of Endogenous Stem CellsSmall-molecule based musculoskeletal regenerative engineeringRecent developments of functional scaffolds for craniomaxillofacial bone tissue engineering applicationsDelivery of small molecules for bone regenerative engineering: preclinical studies and potential clinical applicationsThe Possible Roles of Biological Bone Constructed with Peripheral Blood Derived EPCs and BMSCs in Osteogenesis and AngiogenesisClinical translation of controlled protein delivery systems for tissue engineeringNanostructured platforms for the sustained and local delivery of antibiotics in the treatment of osteomyelitisNanotemplated polyelectrolyte films as porous biomolecular delivery systems. Application to the growth factor BMP-2.Delivery of bone morphogenetic protein-2 and substance P using graphene oxide for bone regenerationFormulation, Delivery and Stability of Bone Morphogenetic Proteins for Effective Bone Regeneration.Active multilayered capsules for in vivo bone formation.Signaling pathways in cartilage repair.Modulating hydrogel crosslink density and degradation to control bone morphogenetic protein delivery and in vivo bone formation.Stereolithographic bone scaffold design parameters: osteogenic differentiation and signal expression.Response of human embryonic stem cell-derived mesenchymal stem cells to osteogenic factors and architectures of materials during in vitro osteogenesis.Evaluating the feasibility of utilizing the small molecule phenamil as a novel biofactor for bone regenerative engineering.The role of small molecules in musculoskeletal regeneration.BMP2 genetically engineered MSCs and EPCs promote vascularized bone regeneration in rat critical-sized calvarial bone defects.Effect of recombinant human bone morphogenetic protein-2 on bisphosphonate-treated osteoblasts.The small molecule PKA-specific cyclic AMP analogue as an inducer of osteoblast-like cells differentiation and mineralizationTissue engineering bone using autologous progenitor cells in the peritoneum.Tissue engineering a surrogate niche for metastatic cancer cellsEffects of designed PLLA and 50:50 PLGA scaffold architectures on bone formation in vivo.Randomized clinical trial on the efficacy of Escherichia coli-derived rhBMP-2 with β-TCP/HA in extraction socket.Nanostructured gellan and xanthan hydrogel depot integrated within a baghdadite scaffold augments bone regeneration.Inhibition of T-Type Voltage Sensitive Calcium Channel Reduces Load-Induced OA in Mice and Suppresses the Catabolic Effect of Bone Mechanical Stress on ChondrocytesDeletion of RBPJK in Mesenchymal Stem Cells Enhances Osteogenic Activity by Up-Regulation of BMP SignalingChemical genetics and regeneration.Small molecule delivery through nanofibrous scaffolds for musculoskeletal regenerative engineeringStem cell-mediated osteogenesis: therapeutic potential for bone tissue engineeringComparison between heparin-conjugated fibrin and collagen sponge as bone morphogenetic protein-2 carriers for bone regeneration.Synergistic Effects of SDF-1α and BMP-2 Delivery from Proteolytically Degradable Hyaluronic Acid Hydrogels for Bone RepairHuman mesenchymal stem cell position within scaffolds influences cell fate during dynamic culture.Studies of bone morphogenetic protein-based surgical repair.Effects of rhBMP-2 on Sandblasted and Acid Etched Titanium Implant Surfaces on Bone Regeneration and Osseointegration: Spilt-Mouth Designed Pilot StudyRecent advances in bone tissue engineering scaffolds.Recreating the tumor microenvironment in a bilayer, hyaluronic acid hydrogel construct for the growth of prostate cancer spheroidsIGF-loaded silicon and zinc doped brushite cement: physico-mechanical characterization and in vivo osteogenesis evaluationFabrication and clinical application of easy-to-operate pre-cured CPC/rhBMP-2 micro-scaffolds for bone regeneration.Enhanced bone regeneration in rat calvarial defects implanted with surface-modified and BMP-loaded bioactive glass (13-93) scaffolds.
P2860
Q26768579-F981EE7F-18A4-403F-8B3B-3D8E4B50984FQ26821892-2C3D7B11-9B6E-4E8C-BC78-4505F09A4A2EQ26827234-11FBDA46-6A67-45A4-9509-7DC176164048Q27012561-4E1C1C23-DA4A-4991-BE06-B4126C901ECFQ27349456-D47D6847-E994-4C0D-B7B7-82B6D8DD5CBCQ28084738-D9DE19AA-8AD9-4487-A427-DAE7F3ED132AQ28086953-F6F4A6BB-D2BE-4E99-B149-ECA88D527621Q30414105-911E3283-2951-47BA-8F03-3143D2A72F87Q33627678-F194C279-8EE8-4ED9-B56C-BD718637A330Q33639409-BC8950F6-6DD8-4723-9AA4-FD9B450F8BADQ33734361-A0196856-73FF-4A74-B5B3-E9C5A60C60D0Q33755839-B164C00D-01D4-4E66-AA77-BBFAD4D0DC3FQ34145493-143712D7-5102-4FDC-91BF-F216675A76A6Q34234152-ABF8F334-DC63-4737-A51C-FD7CA2B299EFQ34246484-78F32783-C8C9-42A2-8CB5-AE6E88DB5AC3Q34344443-3447C847-8EF0-4A84-90F1-A950135AF352Q34346326-87C90F72-C5E1-4D2A-A777-6DD024587209Q34658484-ED5B15D1-B63C-4DAD-B9C2-DEA72F2FD81CQ34788989-404194FE-B74A-4379-BC2F-E0B3FC55E779Q35098055-46B12EBD-7DD4-4253-B5C6-F21EB40774E8Q35134893-69981563-A7AD-45A2-9B64-EAFE6FEDE0F0Q35200116-3AF9BBE7-2035-4923-A0B7-D74769440BD3Q35200795-9F3D146A-B675-408D-844C-F9EF631913CFQ35480619-6149F5AD-FE7D-40FC-B08C-6973FA3D7653Q35595681-21CF5901-1D3F-4589-A8C2-8AB8C59C162CQ35642202-6A91CD2C-913C-4FE7-90C2-86B31CBD7939Q35748909-6916AA97-CD60-41CD-8DB7-3F2989B2FDFBQ35825358-B87A7EB2-C101-4459-9001-5B9D034683C7Q35836180-B4949292-85AB-41A8-A563-C953E4F68391Q35884661-F0485005-CF56-4A4E-B6E4-0FA6AD5E4E0CQ36005075-3EA8F104-DAB7-4B46-A26C-D57218491B97Q36021854-E8774847-86E1-4C0F-9581-0A79C1428CE4Q36060560-49AA8843-3CF2-47F3-B7B1-3981B821A0B8Q36106613-2A515873-071A-4B72-B25F-3DED06EC68D1Q36172895-A767FC7A-3CB3-4ED9-8281-2AF6F80E5AFFQ36252678-96270588-834A-4197-80A8-4B195C3BB1BDQ36303680-94DF13DF-F846-42B8-88A5-351D00A221C7Q36539382-B3AF52AE-B5AF-41A0-AD06-7AFB7C650162Q36878554-88F9B428-5BDC-4454-A69B-EDB2E283067AQ36893294-7682023D-2123-4D48-B70D-B9BC13A78039
P2860
Bone morphogenetic proteins in tissue engineering: the road from laboratory to clinic, part II (BMP delivery).
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@en
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@nl
type
label
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@en
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@nl
prefLabel
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@en
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@nl
P2860
P356
P1476
Bone morphogenetic proteins in ...... linic, part II (BMP delivery).
@en
P2093
P2860
P356
10.1002/TERM.74
P577
2008-03-01T00:00:00Z