Titanium nanostructures for biomedical applications
Mukta Kulkarni,Anca Mazare,Ekaterina Gongadze,Šárka Perutková,Veronika Kralj-Iglič,Ingrid Milošev,Patrik Schmuki,Aleš Iglič,Miran Mozetič +8 more
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TLDR
Perhaps the most spectacular and surprising one-dimensional structures and their unique biomedical applications for increased osseointegration, protein interaction and antibacterial properties are focused on.Abstract:
Titanium and titanium alloys exhibit a unique combination of strength and biocompatibility, which enables their use in medical applications and accounts for their extensive use as implant materials in the last 50 years. Currently, a large amount of research is being carried out in order to determine the optimal surface topography for use in bioapplications, and thus the emphasis is on nanotechnology for biomedical applications. It was recently shown that titanium implants with rough surface topography and free energy increase osteoblast adhesion, maturation and subsequent bone formation. Furthermore, the adhesion of different cell lines to the surface of titanium implants is influenced by the surface characteristics of titanium; namely topography, charge distribution and chemistry. The present review article focuses on the specific nanotopography of titanium, i.e. titanium dioxide (TiO2) nanotubes, using a simple electrochemical anodisation method of the metallic substrate and other processes such as the hydrothermal or sol-gel template. One key advantage of using TiO2 nanotubes in cell interactions is based on the fact that TiO2 nanotube morphology is correlated with cell adhesion, spreading, growth and differentiation of mesenchymal stem cells, which were shown to be maximally induced on smaller diameter nanotubes (15 nm), but hindered on larger diameter (100 nm) tubes, leading to cell death and apoptosis. Research has supported the significance of nanotopography (TiO2 nanotube diameter) in cell adhesion and cell growth, and suggests that the mechanics of focal adhesion formation are similar among different cell types. As such, the present review will focus on perhaps the most spectacular and surprising one-dimensional structures and their unique biomedical applications for increased osseointegration, protein interaction and antibacterial properties.read more
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Journal ArticleDOI
Transparent titanium dioxide nanotubes: Processing, characterization, and application in establishing cellular response mechanisms.
TL;DR: This work identifies fabrication conditions for the successful production of transparent TiO2 nanotube arrays with tailorable diameters, as well as their functionality with pre-osteoblast mouse cells transfected with fluorescent focal adhesion protein vinculin and cytoskeletal filament actin.
Journal ArticleDOI
Adhesion and Proliferation of Human Adipose-Derived Stem Cells on Titania Nanotube Surfaces
TL;DR: By more fully understanding the effect of nanostructure size on adhesion and proliferation of stem cells, implants could be specifically designed to achieve the optimal stem cell response from the tissue in which they are implanted.
Journal ArticleDOI
Bio-Performance of Hydrothermally and Plasma-Treated Titanium: The New Generation of Vascular Stents.
TL;DR: In this paper, a combination of hydrothermal treatment (HT) and treatment with highly reactive oxygen plasma (P) allowed for the formation of an oxygen-rich nanostructured surface.
Journal ArticleDOI
Titanium dioxide nanotube membranes for solar energy conversion: effect of deep and shallow dopants
Yuchen Ding,Prashant Nagpal +1 more
TL;DR: The effect of deep and shallow metal dopants on the kinetics of photogenerated charged carriers in TiO2 and the resulting effect on photocatalytic and photoelectrochemical processes using these nanotube membranes is shown.
Dissertation
Préparation et caractérisation de surfaces poreuses ordonnées en polymères en vue d'applications médicales.
TL;DR: In this paper, a modification topographique par creation of pores permettrait de limiter l'adhesion des bacteries and de former des reservoirs for a liberation in situ de substances antiinfectieuses.
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