Controlled remineralization of enamel in the presence of amelogenin and fluoride.
about
Protein-mediated enamel mineralizationMethods for biomimetic remineralization of human dentine: a systematic reviewA novel self-assembled oligopeptide amphiphile for biomimetic mineralization of enamel.How amelogenin orchestrates the organization of hierarchical elongated microstructures of apatiteFunctional biomimetic analogs help remineralize apatite-depleted demineralized resin-infiltrated dentin via a bottom-up approach.The REGENERATION of TOOTH ENAMELRemineralization of artificial dentinal caries lesions by biomimetically modified mineral trioxide aggregate.A rapid, efficient, and facile solution for dental hypersensitivity: The tannin-iron complexCementomimetics-constructing a cementum-like biomineralized microlayer via amelogenin-derived peptidesAmelogenin processing by MMP-20 prevents protein occlusion inside calcite crystals.Oriented and Ordered Biomimetic Remineralization of the Surface of Demineralized Dental Enamel Using HAP@ACP Nanoparticles Guided by Glycine.Nanotechnology and its role in caries therapy.Amelogenin and Enamel Biomimetics.Biomineralization: From Material Tactics to Biological Strategy.From molecules to macrostructures: recent development of bioinspired hard tissue repair.Tissue engineering approaches for regenerative dentistry.Current practicality of nanotechnology in dentistry. Part 1: Focus on nanocomposite restoratives and biomimetics.Assembly of Layered Monetite-Chitosan Nanocomposite and Its Transition to Organized Hydroxyapatite.Amelogenin-assisted ex vivo remineralization of human enamel: Effects of supersaturation degree and fluoride concentration.An amelogenin-chitosan matrix promotes assembly of an enamel-like layer with a dense interface.On the R-curve behavior of human tooth enamel.Development of amelogenin-chitosan hydrogel for in vitro enamel regrowth with a dense interface.A Direct Electric Field-Aided Biomimetic Mineralization System for Inducing the Remineralization of Dentin Collagen Matrix.Effect of fluoride on the morphology of calcium phosphate crystals grown on acid-etched human enamel.Biomimetic Enamel Regeneration Mediated by Leucine-Rich Amelogenin Peptide.Leucine-rich amelogenin peptide (LRAP) as a surface primer for biomimetic remineralization of superficial enamel defects: An in vitro study.Multilevel hierarchically ordered artificial biomineral.Remineralization of partially demineralized dentine substrate based on a biomimetic strategy.Biomimetic deposition of calcium phosphate minerals on the surface of partially demineralized dentine modified with phosphorylated chitosan.Hen egg yolk phosvitin stimulates osteoblast differentiation in the absence of ascorbic acid.Methods for Biomimetic Mineralisation of Human Enamel: A Systematic Review.Tunicate-Inspired Gallic Acid/Metal Ion Complex for Instant and Efficient Treatment of Dentin Hypersensitivity.Control of hydroxyapatite coating by self-assembled monolayers on titanium and improvement of osteoblast adhesion.Peptide-Based Bioinspired Approach to Regrowing Multilayered Aprismatic Enamel.Remineralization Efficacy of an Amelogenin-Based Synthetic Peptide on Carious Lesions.Oral tissue engineering progress and challengesFormation and stability kinetics of calcium phosphate–fetuin-A colloidal particles probed by time-resolved dynamic light scatteringApplications of Dendrimers in Drug Delivery Agents, Diagnosis, Therapy, and DetectionRemineralization of Demineralized Dentin Induced by Amine-Terminated PAMAM Dendrimer
P2860
Q24600888-78DD5481-2190-4942-B319-266035071E16Q26829430-BEAAE7E4-E924-4418-A300-34D1DB7C3A47Q30578030-9D4063F1-D754-4BCC-A769-740C70A48A92Q33763703-BDE0B20D-E358-453B-A6F9-E35CD497A220Q33867176-A38766D2-D0B5-4D01-A935-8A3DBD8F8EB4Q34011611-3E7F84E7-D284-4579-999D-5D6D1500CFCCQ35661280-59087F04-AF82-4D87-BE3D-EF5D68B13FBCQ35679132-05EDA843-35B5-4FDC-BFA9-E4218C8E3A25Q36143209-348BC342-D33E-4B53-AC0D-A61C7EA50D3BQ36443908-2E5FE255-90FE-45EA-AD61-74D06D52196CQ37581592-BA574B56-5AE1-4B2D-860D-51C8ECA7F107Q38035249-FAAB34C9-6D54-4617-AA66-9CD5F28A10FAQ38562323-1A400A37-C996-4FC1-A126-DF749C86BA60Q39147553-159B2E17-DFCF-4B8E-A739-D8C15643A8DCQ39440740-06BB9DF8-6DB5-4861-AE60-B3DDA7B568FFQ39803044-BD9279FE-F07D-4C0E-BD44-F43D3A439C55Q40648425-87425D6C-9C7C-450E-921E-2A007313D042Q41356214-035C1E1D-6C22-49B5-8831-93BFEE377DBFQ41768750-B3C1E387-D260-42B1-9881-C1B091631AD5Q41813808-9282D414-D644-4737-BF82-96631F95007CQ41956008-84E3F49A-5D6A-4161-871E-9F05AA9E7CC9Q42088077-3841CCCF-4FB1-4BB1-A62C-196D8F32B577Q42222070-2FD858B2-64B3-441A-959E-A4F6192696CCQ42926691-F832DAA9-6A78-4B15-A935-9776C816C09AQ46275864-7B20D5E9-0EC7-4455-A1A2-978EE09AE8C6Q46281937-5B3CCDB7-7C4E-4F65-950E-72D324966A8FQ46287584-58AB7B8D-5F57-49F9-A312-478457C17D1DQ46291736-F78E7A66-86F6-4DA4-B212-B9F8EDD0E2D7Q46293980-2B411B6E-F3E7-4EAD-BE49-4CF0A81FF9E3Q48089368-EA7B8F25-6167-4A3A-8ADF-31D1C7427003Q49470689-6E241220-80A9-4BF5-BBF1-1BE3031AF77FQ51528659-6FF7CE01-513E-42EA-B50D-518E02CA2D62Q51700663-F71E83F5-496D-42E7-8474-581A94DA909DQ55553950-E430D397-63D2-4B01-AC38-F86B8C4684BFQ55724476-BD13F93D-C6E6-47F6-BD4C-FBCF3DF0E046Q56916540-3EF99FA0-2BF0-4521-B854-EB1B18FF84B0Q56999705-FA92CFE2-0F4C-4868-ABF1-6AB47C827BB3Q57380327-90FB0453-75A1-4730-A954-C206E893CBEEQ59204663-082829D4-BFBC-4AD5-98B5-9EBF05F41C3D
P2860
Controlled remineralization of enamel in the presence of amelogenin and fluoride.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Controlled remineralization of enamel in the presence of amelogenin and fluoride.
@en
type
label
Controlled remineralization of enamel in the presence of amelogenin and fluoride.
@en
prefLabel
Controlled remineralization of enamel in the presence of amelogenin and fluoride.
@en
P2093
P2860
P1433
P1476
Controlled remineralization of enamel in the presence of amelogenin and fluoride.
@en
P2093
Janet Moradian-Oldak
P2860
P304
P356
10.1016/J.BIOMATERIALS.2008.10.019
P577
2008-11-08T00:00:00Z