The effect of hydrofluoric acid treatment of titanium surface on nanostructural and chemical changes and the growth of MC3T3-E1 cells.
about
Nanometer scale titanium surface texturing are detected by signaling pathways involving transient FAK and Src activationsEffect of heat treatment on H2O2/HCl etched pure titanium dental implant: an in vitro study.Reality of dental implant surface modification: a short literature review.Micro-topography and reactivity of implant surfaces: an in vitro study in simulated body fluid (SBF).Implant surface characteristics and their effect on osseointegration.The relationship of surface roughness and cell response of chemical surface modification of titaniumOn the influence of various physicochemical properties of the CNTs based implantable devices on the fibroblasts' reaction in vitroEffect of Hydrofluoric Acid Etching Time on Titanium Topography, Chemistry, Wettability, and Cell Adhesion.Synthesis and characterisation of large chlorapatite single-crystals with controlled morphology and surface roughnessOsteogenic activity of titanium surfaces with hierarchical micro-/nano-structures obtained by hydrofluoric acid treatmentSuperior Pre-Osteoblast Cell Response of Etched Ultrafine-Grained Titanium with a Controlled Crystallographic OrientationModified Titanium Surface-Mediated Effects on Human Bone Marrow Stromal Cell Response.Osteogenic activity of titanium surfaces with nanonetwork structuresTitania nanotubes for orchestrating osteogenesis at the bone-implant interface.Cholecalciferol synthesized after UV-activation of 7-dehydrocholesterol onto titanium implants inhibits osteoclastogenesis in vitro.Increased reactivity and in vitro cell response of titanium based implant surfaces after anodic oxidation.Hierarchical titanium surface textures affect osteoblastic functions.Differential attraction and repulsion of Staphylococcus aureus and Pseudomonas aeruginosa on molecularly smooth titanium films.In vitro osteogenic properties of two dental implant surfaces.Effect of etched microgrooves on hydrophilicity of titanium and osteoblast responses: A pilot study.Cathodic Polarization Coats Titanium Based Implant Materials with Enamel Matrix Derivate (EMD).Coating of metal implant materials with strontium.Effect of chemical and mechanical debridement techniques on bacterial re-growth on rough titanium surfaces: an in vitro study.Construction of microenvironment onto titanium substrates to regulate the osteoblastic differentiation of bone marrow stromal cells in vitro and osteogenesis in vivo.Influence of the nanostructure of F-doped TiO2 films on osteoblast growth and function.Review: the potential impact of surface crystalline states of titanium for biomedical applications.Effects of fluoride-modified titanium surfaces with the similar roughness on RUNX2 gene expression of osteoblast-like MG63 cells.Improved human gingival fibroblast response to titanium implants coated with ultraviolet-irradiated vitamin D precursor and vitamin E.Pore geometry regulates early stage human bone marrow cell tissue formation and organisation.Bone tissue response to implant surfaces functionalized with phosphate-containing polymers.Effects of microrough and hierarchical hybrid micro/nanorough surface implants on osseointegration in ovariectomized rats: A longitudinal in vivo microcomputed tomography evaluation.Effects of the micro-nano surface topography of titanium alloy on the biological responses of osteoblast.The effect of hydrofluoric acid treatment of titanium and titanium dioxide surface on primary human osteoblasts.Molybdenum Disulfide Surface Modification of Ultrafine-Grained Titanium for Enhanced Cellular Growth and Antibacterial Effect.Gene expression in Ca or Mg implanted titanium surfacesIn vitro assessment of Staphylococcus epidermidis and Staphylococcus aureus adhesion on TiO2 nanotubes on Ti-6Al-4V alloyThe Promotion of Antibacterial Effects of Ti6Al4V Alloy Modified with TiO2Nanotubes Using a Superoxidized Solution
P2860
Q28540420-EF85B5C3-F6F0-4627-B6E6-DC8DFC9B6522Q34319278-DDBCD0A8-9305-4B25-824A-199DB882CA13Q34508120-C5920435-6AB8-4764-AD10-EF063272AB9BQ35558720-0132073B-D3AB-48E6-9314-EECA23AA8538Q35576261-2BD910DE-21EB-4DC0-8D94-8417762C30C0Q36011200-B8CF0E60-E4A3-45E9-A8A8-8ED885E1B1A8Q36158871-EF9F240F-2EDB-4051-BF99-2B6BDA6CEF39Q36185584-090C2E52-3CE8-4DB9-993E-2BC28371A1C4Q36802484-A7D56A88-DCEA-44FA-9187-C7DE06C676DFQ37652869-B87CEEE2-6C63-4C49-889A-71C370881A4FQ37683886-84BE5FF5-CB57-41D3-8EB4-1C24592335A6Q38548020-9762C8EA-9B69-4B93-9F6F-761C9E1AB6F3Q38700067-A3527DF0-E7E9-4EC8-BBD6-1A16F4BB9288Q38889533-C1D7A226-8DFD-4E44-ABA7-01CF99B98EBBQ38942902-B6CEF20F-051A-4848-94E3-89DDC957C79DQ39372986-A9264CE5-00AE-4E96-81B8-E34296EA4D16Q39463129-56693BB8-22D6-4AA4-A9F9-AE61DEA7A7BDQ39872301-2033ACD5-7E70-49B5-B438-5DC3DD2C8899Q41861765-199690F5-F99E-416F-B655-58903C4B9D34Q41890819-6A4B04B8-848B-4966-8ED0-D754899E7CC3Q42231699-9787052F-FEB7-4B05-969B-B1384F52103AQ42815997-53E37ED8-0D2E-4799-BA29-5BFAAD1B3C10Q43865137-FB1BEEA3-35FD-483E-8677-451A5F35CB06Q45241000-BB573704-F21A-4B6A-A166-06EA6BF466F9Q46283473-3F4BEC12-1DD6-4F41-922D-7EB57582741FQ47703657-E20793D1-B324-4207-9CD5-088BBCCEEECCQ47899079-20FA19CF-9F2F-42EC-B9FE-6890C7B80AC0Q47914369-18007E0C-7F7C-4060-8BE6-8D4904DF23B7Q51259342-9E3F6C6F-C2BB-4A44-BC1E-2FE07C0E9ECBQ51305754-6415A1DB-E78E-43E9-9C1A-8F2531175093Q51338312-161AE846-F496-4574-B482-48605097795FQ53005276-EF9DFC73-41E7-4A51-948B-684517CF6BF7Q54265484-656EA519-2CB9-44B1-8EA5-00192AEAAA70Q55517587-877B2A31-C9AB-4604-BBD9-2C1B1821AAF5Q58229573-7D29B103-1F61-4B1A-93A6-8B3707C201F9Q58841040-BD003DBA-AC07-4820-8CE6-AA1FDF2F6C1BQ59113701-9BF83894-5EB4-4A6A-AF2D-9F28E2B55203
P2860
The effect of hydrofluoric acid treatment of titanium surface on nanostructural and chemical changes and the growth of MC3T3-E1 cells.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@en
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@nl
type
label
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@en
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@nl
prefLabel
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@en
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@nl
P2093
P50
P1433
P1476
The effect of hydrofluoric aci ...... the growth of MC3T3-E1 cells.
@en
P2093
Marina Rubert
Ståle P Lyngstadaas
Sébastien F Lamolle
P304
P356
10.1016/J.BIOMATERIALS.2008.10.052
P577
2008-11-20T00:00:00Z