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ZnO nanoparticle incorporated nanostructured metallic titanium for increased mesenchymal stem cell response and antibacterial activity

Publication Type : Journal Article

Thematic Areas : Nanosciences and Molecular Medicine

Publisher : Nanotechnology

Source : Nanotechnology, Volume 25, Number 11 (2014)

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Keywords : Anti-Bacterial Agents, antiinfective agent, article, Bacterial Adhesion, bacterium adherence, cell adhesion, Cell Line, chemistry, dose response, Dose-Response Relationship, drug, drug effect, human, Humans, mesenchymal stroma cell, Mesenchymal Stromal Cells, metal nanoparticle, Metal Nanoparticles, microbiology, nanomaterial, Nanostructures, nanotube, Nanotubes, Staphylococcus aureus, Titanium, Tumor, tumor cell line, Zinc oxide

Campus : Kochi

School : Center for Nanosciences

Center : Amrita Center for Nanosciences and Molecular Medicine Move, Nanosciences

Department : Nanosciences and Molecular Medicine

Year : 2014

Abstract : Recent trends in titanium implants are towards the development of nanoscale topographies that mimic the nanoscale properties of bone tissue. Although the nanosurface promotes the integration of osteoblast cells, infection related problems can also occur, leading to implant failure. Therefore it is imperative to reduce bacterial adhesion on an implant surface, either with or without the use of drugs/antibacterial agents. Herein, we have investigated two different aspects of Ti surfaces in inhibiting bacterial adhesion and concurrently promoting mammalian cell adhesion. These include (i) the type of nanoscale topography (Titania nanotube (TNT) and Titania nanoleaf (TNL)) and (ii) the presence of an antibacterial agent like zinc oxide nanoparticles (ZnOnp) on Ti nanosurfaces. To address this, periodically arranged TNT (80-120 nm) and non-periodically arranged TNL surfaces were generated by the anodization and hydrothermal techniques respectively, and incorporated with ZnOnp of different concentrations (375 μM, 750 μM, 1.125 mM and 1.5 mM). Interestingly, TNL surfaces decreased the adherence of staphylococcus aureus while increasing the adhesion and viability of human osteosarcoma MG63 cell line and human mesenchymal stem cells, even in the absence of ZnOnp. In contrast, TNT surfaces exhibited an increased bacterial and mammalian cell adhesion. The influence of ZnOnp on these surfaces in altering the bacterial and cell adhesion was found to be concentration dependent, with an optimal range of 375-750 μM. Above 750 μM, although bacterial adhesion was reduced, cellular viability was considerably affected. Thus our study helps us to infer that nanoscale topography by itself or its combination with an optimal concentration of antibacterial ZnOnp would provide a differential cell behavior and thereby a desirable biological response, facilitating the long term success of an implant.

Cite this Research Publication : E. Elizabeth, Baranwal, G., Krishnan, A. G., Menon, D., and Dr. Manitha B. Nair, “ZnO nanoparticle incorporated nanostructured metallic titanium for increased mesenchymal stem cell response and antibacterial activity”, Nanotechnology, vol. 25, 2014.

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