Bone reconstruction: from bioceramics to tissue engineering.
about
Research Advances in Tissue Engineering Materials for Sustained Release of Growth FactorsNanomedicine applications in orthopedic medicine: state of the artStructure and functionalization of mesoporous bioceramics for bone tissue regeneration and local drug deliveryBone tissue engineering: recent advances and challengesAn overview of recent advances in designing orthopedic and craniofacial implantsBiomimetic approaches with smart interfaces for bone regenerationCalcium orthophosphates as bioceramics: state of the artElectrospinning of calcium phosphate-poly (d,l-lactic acid) nanofibers for sustained release of water-soluble drug and fast mineralizationModeling vascularized bone regeneration within a porous biodegradable CaP scaffold loaded with growth factorsBone Tissue Engineering: Past-Present-Future.Formulation, Delivery and Stability of Bone Morphogenetic Proteins for Effective Bone Regeneration.Biomimetic strategies for bone repair and regeneration.Mesenchymal stem cells and tissue engineering.Ceramic identity contributes to mechanical properties and osteoblast behavior on macroporous composite scaffolds.Engineering vascularized bone grafts by integrating a biomimetic periosteum and β-TCP scaffold.Degradation, bioactivity, and osteogenic potential of composites made of PLGA and two different sol-gel bioactive glasses.In vitro cytocompatibility evaluation of MGF-Ct24E chemically grafted and physically blended with maleic anhydride modified poly(D, L-lactic acid).Injectable biocomposites for bone healing in rabbit femoral condyle defectsOrder versus Disorder: in vivo bone formation within osteoconductive scaffolds.Bone healing after low-level laser application in extraction sockets grafted with allograft material and covered with a resorbable collagen dressing: a pilot histological evaluation.Phosphate: known and potential roles during development and regeneration of teeth and supporting structures.Characterization of human periodontal ligament cells cultured on three-dimensional biphasic calcium phosphate scaffolds in the presence and absence of L-ascorbic acid, dexamethasone and β-glycerophosphate in vitroStudies of bone morphogenetic protein-based surgical repair.Effect of Diode Laser on Healing of Tooth Extraction Socket: An Experimental Study in RabbitsVascularized bone tissue engineering: approaches for potential improvementCranioplasty of Hemispherical Defects Using Calcium Phosphate Cements Along with Titanium Mesh: Our Experience.Experimental characterization and computational modelling of two-dimensional cell spreading for skeletal regeneration.Influence of pentavalent dopant addition to polarization and bioactivity of hydroxyapatite.Soybean-based biomaterials: preparation, properties and tissue regeneration potential.Biomaterials in orthopaedicsMicropore-induced capillarity enhances bone distribution in vivo in biphasic calcium phosphate scaffoldsElastomeric high-mineral content hydrogel-hydroxyapatite composites for orthopedic applications.Porous hydroxyapatite and biphasic calcium phosphate ceramics promote ectopic osteoblast differentiation from mesenchymal stem cells.Biomimetic polymer scaffolds to promote stem cell-mediated osteogenesis.Basic concepts regarding fracture healing and the current options and future directions in managing bone fractures.Bioactive and biodegradable nanocomposites and hybrid biomaterials for bone regeneration.Selection of animal models for pre-clinical strategies in evaluating the fracture healing, bone graft substitutes and bone tissue regeneration and engineering.Fabrication of 3D porous SF/β-TCP hybrid scaffolds for bone tissue reconstruction.Calcium Orthophosphate-Based Bioceramics.Tissue engineering scaffold for sequential release of vancomycin and rhBMP2 to treat bone infections.
P2860
Q26782690-ED6C8376-EF52-4219-99DC-FBBBC876D7D3Q26785640-7E42E82D-5528-495D-BD31-554C1DF7CB57Q26992108-85CB419D-A0CD-4AD3-9C64-3D81AD6B0FEEQ27007788-CEB31E8C-1E32-44B6-A2B5-914C6A7416F7Q27008300-A8432D77-3BDA-4AAA-A37F-1FAB5380A1EDQ28068084-E1ACF656-E0D9-4DC4-AAFB-7BA7DD28845EQ28659433-E9C3E174-22F1-49EB-8DCA-0463BCF2487AQ28822047-A1918416-D2DA-4EED-8F45-4D1534F3E7BBQ30544601-EFF4ECF1-BAE7-47D9-B6FE-A0A802B994D0Q33363234-3332FE2F-3CF7-4A53-B9AF-54BA8DC92AC9Q33639409-413A2498-8D40-4ECF-B1ED-B70022FABEFDQ33649833-B9C12B2B-1AB8-4115-99D9-986B0461EFBDQ33668967-8EF6325D-6870-4734-81AD-DD7FFE98121FQ33720426-41A72ADE-06FB-4DED-A4F0-05D846C6CD3BQ33824725-AD4C79FE-442C-46A7-A3D7-4C9233662EA4Q33871094-0475C0BE-22BB-4805-95B5-35DFBB7D3399Q34675232-AAB724C7-2CBD-43D8-9F1F-51D65B254AF4Q35022454-D318B4EE-1916-4553-99A6-5604A59728E2Q35761813-2BB8C73F-C872-45D6-AFFA-A3FB58CC71E8Q35825100-0909D230-A345-47CC-885B-9A3054F989AFQ35920063-A9511D37-4F39-474B-A26D-5B6ED504BB3BQ36081336-AEA85499-38D2-46AD-8AAC-D20A8A7FBCA2Q36106613-03519885-4686-42E1-9253-9FCDE773C770Q36165647-176AA118-3CB0-4774-8D1B-1A5A4531582DQ36280875-D2274686-F957-4ECF-9623-50E4C1376D29Q36289411-65998925-FE74-414C-8146-E64F0B6BB5AFQ36675868-33FD4A70-7315-4CA9-9DEA-8ED7DB249D10Q36961165-0CF6C844-5B62-4EDA-A129-DD891A0F6040Q37152843-5B65FCEE-3EA2-499B-B6FB-D8B539B80878Q37230690-462EF7F8-E8B8-4F8F-942E-E1A34B02C54CQ37302821-D2695F2F-9277-4172-905A-2E1CF823DE08Q37350110-F5506CCF-7974-4879-8AD4-D8D0B69C706CQ37386538-8F85A1A5-9B65-44DA-8B64-C43299CAE6CFQ38175403-D3364D3B-65FD-4F5D-BA20-63501A7CF2F1Q38195147-3E68F99E-31A2-46B6-9467-A94ECD332843Q38222458-B0921F3F-6FC3-4C05-B83E-361114005D9AQ38389027-56849F8B-58CC-48B2-9BA3-555340232EB5Q38416073-11016465-6FD7-46B0-A345-E4A24E689F82Q38634288-8DA7C612-DF57-45CA-925B-D8867B3C1FBEQ39032548-A6ACCF56-7DFD-4EE6-B677-4EA95B977154
P2860
Bone reconstruction: from bioceramics to tissue engineering.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh
2005年學術文章
@zh-hant
name
Bone reconstruction: from bioceramics to tissue engineering.
@ast
Bone reconstruction: from bioceramics to tissue engineering.
@en
type
label
Bone reconstruction: from bioceramics to tissue engineering.
@ast
Bone reconstruction: from bioceramics to tissue engineering.
@en
prefLabel
Bone reconstruction: from bioceramics to tissue engineering.
@ast
Bone reconstruction: from bioceramics to tissue engineering.
@en
P2860
P356
P1476
Bone reconstruction: from bioceramics to tissue engineering.
@en
P2093
Ahmed El-Ghannam
P2860
P304
P356
10.1586/17434440.2.1.87
P577
2005-01-01T00:00:00Z