Theoretical model to determine the effects of geometrical factors on the resorption of calcium phosphate bone substitutes.
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Effect of Ceramic Scaffold Architectural Parameters on Biological ResponseSynthesis of spherical calcium phosphate particles for dental and orthopedic applicationsNanostructured platforms for the sustained and local delivery of antibiotics in the treatment of osteomyelitisRecommendations and considerations for the use of biologics in orthopedic surgery.The composite of bone marrow concentrate and PRP as an alternative to autologous bone grafting.The progress of early phase bone healing using porous granules produced from calcium phosphate cement.Small-sized granules of biphasic bone substitutes support fast implant bed vascularization.Regenerative orthopaedics: in vitro, in vivo...in silico.Computational modelling of local calcium ions release from calcium phosphate-based scaffolds.Porous hydroxyapatite and gelatin/hydroxyapatite microspheres obtained by calcium phosphate cement emulsion.Effectiveness of biphasic calcium phosphate block bone substitutes processed using a modified extrusion method in rabbit calvarial defects.Enzymatically biomineralized chitosan scaffolds for tissue-engineering applications.Bioeutectic® Ceramics for Biomedical Application Obtained by Laser Floating Zone Method. In vivo EvaluationQuantitative characterization of porous commercial and experimental bone graft substitutes with microcomputed tomography.Injectable PLGA microsphere/calcium phosphate cements: physical properties and degradation characteristics.Mixed nano/micro-sized calcium phosphate composite and EDTA root surface etching improve availability of graft material in intrabony defects: an in vivo scanning electron microscopy evaluation.Size matters: effects of PLGA-microsphere size in injectable CPC/PLGA on bone formation.A novel scaffold geometry for chondral applications: theoretical model and in vivo validation.Bulk physicochemical, interconnectivity, and mechanical properties of calcium phosphate cements-fibrin glue composites for bone substitute applications.3D Printed, PVA⁻PAA Hydrogel Loaded-Polycaprolactone Scaffold for the Delivery of Hydrophilic In-Situ Formed Sodium Indomethacin.Optimization of culture conditions for osteogenically-induced mesenchymal stem cells in β-tricalcium phosphate ceramics with large interconnected channelsRelease Kinetics and Antibacterial Efficacy of Microporousβ-TCP Coatings
P2860
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P2860
Theoretical model to determine the effects of geometrical factors on the resorption of calcium phosphate bone substitutes.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
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name
Theoretical model to determine ...... um phosphate bone substitutes.
@en
Theoretical model to determine ...... um phosphate bone substitutes.
@nl
type
label
Theoretical model to determine ...... um phosphate bone substitutes.
@en
Theoretical model to determine ...... um phosphate bone substitutes.
@nl
prefLabel
Theoretical model to determine ...... um phosphate bone substitutes.
@en
Theoretical model to determine ...... um phosphate bone substitutes.
@nl
P1433
P1476
Theoretical model to determine ...... um phosphate bone substitutes.
@en
P2093
F Baumgart
P304
P356
10.1016/J.BIOMATERIALS.2003.10.032
P50
P577
2004-08-01T00:00:00Z