Sepideh Minagar scite author profile

Titanium and titanium alloy implants that have been demonstrated to be more biocompatible than other metallic implant materials, such as Co-Cr alloys and stainless steels, must also be accepted by bone cells, bonding with and growing on them to prevent loosening. Highly ordered nanoporous arrays of titanium dioxide that form on titanium surface by anodic oxidation are receiving increasing research interest due to their effectiveness in promoting osseointegration. The response of bone cells to implant materials depends on the topography, physicochemistry, mechanics, and electronics of the implant surface and this influences cell behavior, such as adhesion, proliferation, shape, migration, survival, and differentiation; for example the existing anions on the surface of a titanium implant make it negative and this affects the interaction with negative fibronectin (FN). Although optimal nanosize of reproducible titania nanotubes has not been reported due to different protocols used in studies, cell response was more sensitive to titania nanotubes with nanometer diameter and interspace. By annealing, amorphous TiO2 nanotubes change to a crystalline form and become more hydrophilic, resulting in an encouraging effect on cell behavior. The crystalline size and thickness of the bone-like apatite that forms on the titania nanotubes after implantation are also affected by the diameter and shape. This review describes how changes in nanotube morphologies, such as the tube diameter, the thickness of the nanotube layer, and the crystalline structure, influence the response of cells.

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Fabrication and Characterization of Nanoporous Niobia, and Nanotubular Tantala, Titania and Zirconia via Anodization

Minagar

Berndt

Wen

2015

JFB

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Valve metals such as titanium (Ti), zirconium (Zr), niobium (Nb) and tantalum (Ta) that confer a stable oxide layer on their surfaces are commonly used as implant materials or alloying elements for titanium-based implants, due to their exceptional high corrosion resistance and excellent biocompatibility. The aim of this study was to investigate the bioactivity of the nanostructures of tantala (Ta2O5), niobia (Nb2O5), zirconia (ZrO2) and titania (TiO2) in accordance to their roughness and wettability. Therefore, four kinds of metal oxide nanoporous and nanotubular Ta2O5, Nb2O5, ZrO2 and TiO2 were fabricated via anodization. The nanosize distribution, morphology and the physical and chemical properties of the nanolayers and their surface energies and bioactivities were investigated using SEM-EDS, X-ray diffraction (XRD) analysis and 3D profilometer. It was found that the nanoporous Ta2O5 exhibited an irregular porous structure, high roughness and high surface energy as compared to bare tantalum metal; and exhibited the most superior bioactivity after annealing among the four kinds of nanoporous structures. The nanoporous Nb2O5 showed a uniform porous structure and low roughness, but no bioactivity before annealing. Overall, the nanoporous and nanotubular layers of Ta2O5, Nb2O5, ZrO2 and TiO2 demonstrated promising potential for enhanced bioactivity to improve their biomedical application alone or to improve the usage in other biocompatible metal implants.

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The influence of titania–zirconia–zirconium titanate nanotube characteristics on osteoblast cell adhesion

Minagar

Berndt

et al. 2015

Acta Biomaterialia

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Fabrication and characterization of TiO₂–ZrO₂–ZrTiO₄nanotubes on TiZr alloy manufactured via anodization

et al. 2014

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Sepideh Minagar

A review of the application of anodization for the fabrication of nanotubes on metal implant surfaces

Cell response of anodized nanotubes on titanium and titanium alloys

Fabrication and Characterization of Nanoporous Niobia, and Nanotubular Tantala, Titania and Zirconia via Anodization

The influence of titania–zirconia–zirconium titanate nanotube characteristics on osteoblast cell adhesion

Fabrication and characterization of TiO₂–ZrO₂–ZrTiO₄nanotubes on TiZr alloy manufactured via anodization

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Sepideh Minagar

A review of the application of anodization for the fabrication of nanotubes on metal implant surfaces

Cell response of anodized nanotubes on titanium and titanium alloys

Fabrication and Characterization of Nanoporous Niobia, and Nanotubular Tantala, Titania and Zirconia via Anodization

The influence of titania–zirconia–zirconium titanate nanotube characteristics on osteoblast cell adhesion

Fabrication and characterization of TiO2–ZrO2–ZrTiO4nanotubes on TiZr alloy manufactured via anodization

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Resources

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Fabrication and characterization of TiO₂–ZrO₂–ZrTiO₄nanotubes on TiZr alloy manufactured via anodization