Effect of carbonate and biological macromolecules on formation and properties of hydroxyapatite.
about
Inhibition of growth of nonbasal planes in ice by fish antifreezesHuman histidine-rich glycoprotein expressed in SF9 insect cells inhibits apatite formationHierarchical role of fetuin-A and acidic serum proteins in the formation and stabilization of calcium phosphate particlesStructural analysis of reactionary dentin formed in response to polymicrobial invasion.Novel infrared spectroscopic method for the determination of crystallinity of hydroxyapatite mineralsInfrared assessment of bone quality: a reviewControllable mineral coatings on PCL scaffolds as carriers for growth factor releaseBone reconstruction: from bioceramics to tissue engineering.The plastic nature of the human bone-periodontal ligament-tooth fibrous jointBone mineralization: from tissue to crystal in normal and pathological contexts.Protein-free formation of bone-like apatite: New insights into the key role of carbonation.Mineral coatings modulate β-TCP stability and enable growth factor binding and releaseAmorphous calcium phosphate: the contention of bone.Importance of phosphorylation for osteopontin regulation of biomineralization.Cloning and targeted deletion of the mouse fetuin gene.Comparitive study of the formation of hydroxyapatite in simulated body fluid under static and flowing systems.Formation and stability kinetics of calcium phosphate–fetuin-A colloidal particles probed by time-resolved dynamic light scatteringBiomimetic apatite-based biomaterials: on the critical impact of synthesis and post-synthesis parametersApatite Glass-Ceramics: A Review
P2860
Q24626752-053D4BBA-923E-4286-AFFD-6BEEA1A4BE06Q28247616-4EBF04BB-7DAB-493C-B958-E0DDB993B289Q28273858-41A54873-479B-4310-AF04-EE78BE9077EDQ30536334-C291B26E-9578-475B-84C4-B90518671A3FQ34087980-4514F7FE-B512-4D2D-98AF-68189510295EQ35078785-890A9BAD-B176-4554-AD2C-85131C950622Q35534325-54ED518A-6CBD-46D3-882A-76B4E29B2FACQ36314989-B6831381-D487-4D9A-9727-B1DB0EF66AD7Q37610752-CFCE4496-5327-494C-9659-E64FE0FFDB40Q38066387-DEF8F123-D22F-464E-92C4-333D66D2EB9FQ38916527-51461092-B801-4A25-A959-B6DF97190359Q39431113-284E0539-0ACB-408B-9EB1-499075C8EE66Q41548093-367CF8D8-E23B-4B17-AD21-0C24B8D843CBQ41862328-CC0E4BC9-FB29-4B8A-8115-C4A9519EEDDCQ46292099-4E5F1684-DBCF-448A-93F7-A80185B78578Q53878744-F43F55C5-7153-443A-A201-27E318736A26Q56999705-D7B9692E-4B6B-4C1A-A6CC-C5763D1AE6C1Q57880035-080A8143-F197-4E08-BDBB-132112D2FCD5Q57901448-AF7FF73A-A133-4694-91F3-CE8CE8D416E8
P2860
Effect of carbonate and biological macromolecules on formation and properties of hydroxyapatite.
description
1975 nî lūn-bûn
@nan
1975年の論文
@ja
1975年論文
@yue
1975年論文
@zh-hant
1975年論文
@zh-hk
1975年論文
@zh-mo
1975年論文
@zh-tw
1975年论文
@wuu
1975年论文
@zh
1975年论文
@zh-cn
name
Effect of carbonate and biolog ...... properties of hydroxyapatite.
@en
type
label
Effect of carbonate and biolog ...... properties of hydroxyapatite.
@en
prefLabel
Effect of carbonate and biolog ...... properties of hydroxyapatite.
@en
P2093
P356
P1476
Effect of carbonate and biolog ...... properties of hydroxyapatite.
@en
P2093
A S Posner
N C Blumenthal
P356
10.1007/BF02546228
P577
1975-07-01T00:00:00Z