Biomedical interfaces: titanium surface technology for implants and cell carriers.
about
Osteogenic stem cell selection for repair and regenerationCovalent Immobilization of Collagen on Titanium through Polydopamine Coating to Improve Cellular Performances of MC3T3-E1 CellsEnhanced cell integration to titanium alloy by surface treatment with microarc oxidation: a pilot studyLaser surface modification of titanium substrate for pulsed laser deposition of highly adherent hydroxyapatite.Promotion of minTBP-1-PRGDN on the attachment, proliferation and collagen I synthesis of human keratocyte on titaniumTuning the surface microstructure of titanate coatings on titanium implants for enhancing bioactivity of implants.Nanosurfaces and nanostructures for artificial orthopedic implants.Dynamic control over cell adhesive properties using molecular-based surface engineering strategies.Micro-nanopatterning as tool to study the role of physicochemical properties on cell-surface interactions.Preparation of a small intestinal submucosa modified polypropylene hybrid mesh via a mussel-inspired polydopamine coating for pelvic reconstruction.In Vitro and In Vivo Evaluation of Tetracycline Loaded Chitosan-Gelatin Nanosphere Coatings for Titanium Surface Functionalization.Surface immobilization and bioactivity of TGF-β1 inhibitor peptides for bone implant applications.Osteoblast response to titanium surfaces functionalized with extracellular matrix peptide biomimetics.Genotoxicity and cytotoxicity of zinc oxide and titanium dioxide in HEp-2 cells.The Otto Aufranc Award: enhanced biocompatibility of stainless steel implants by titanium coating and microarc oxidation.Fibrochondrocyte Growth and Functionality on TiO₂ Nanothin FilmsImmobilization of vitronectin-binding heparan sulfates onto surfaces to support human pluripotent stem cells.Bone response to a Ca- and P-enriched titanium surface obtained by anodization.Preparation of laminin/nidogen adsorbed urinary bladder decellularized materials via a mussel-inspired polydopamine coating for pelvic reconstruction.Analysis of osteoblastic gene expression in the early human mesenchymal cell response to a chemically modified implant surface: an in vitro study.Immobilization of a carbon nanomaterial-based localized drug-release system using a bispecific material-binding peptide.Surface Modification of Porous Titanium with Microarc Oxidation and Its Effects on Osteogenesis ActivityIn VitroComparison of Fibroblast and Osteoblast Response to Cultivation on Titanium Implants with Different Grain SizesAttenuating Immune Response of Macrophage by Enhancing Hydrophilicity of Ti Surface
P2860
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P2860
Biomedical interfaces: titanium surface technology for implants and cell carriers.
description
2006 nî lūn-bûn
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2006年の論文
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2006年論文
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2006年論文
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2006年論文
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2006年論文
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2006年論文
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2006年论文
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2006年论文
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name
Biomedical interfaces: titanium surface technology for implants and cell carriers.
@en
type
label
Biomedical interfaces: titanium surface technology for implants and cell carriers.
@en
prefLabel
Biomedical interfaces: titanium surface technology for implants and cell carriers.
@en
P2093
P2860
P356
P1433
P1476
Biomedical interfaces: titanium surface technology for implants and cell carriers.
@en
P2093
Diana Trentin
Marcus Textor
Martin Schuler
Samuele G P Tosatti
P2860
P304
P356
10.2217/17435889.1.4.449
P577
2006-12-01T00:00:00Z