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| Naji, M. |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Petrov, R. H. | Madrid |
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| Azam, Siraj |
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| Azevedo, Nuno Monteiro |
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Silva, Fs
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Publications (7/7 displayed)
- 2023Bio-Piezoelectric Ceramic Composites for Electroactive Implants-Biological Performancecitations
- 2021Laser surface treatment on Yttria-stabilized zirconia dental implants: Influence on cell behaviorcitations
- 2020Gingival fibroblasts behavior on bioactive zirconia and titanium dental implant surfaces produced by a functionally graded techniquecitations
- 2017Effect of sintering pressure on microstructure and mechanical properties of hot-pressed Ti6Al4V-ZrO2 materialscitations
- 2011Comparative study of tarnishing resistance of several coloured gold based alloys
- 2009Study of a purple gold-based alloy resistance to tarnishing in a sulphuric solutioncitations
- 2009Tarnish and corrosion evaluation of a blue gold-based alloycitations
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article
Bio-Piezoelectric Ceramic Composites for Electroactive Implants-Biological Performance
Abstract
Barium titanate (BaTiO3) piezoelectric ceramic may be a potential alternative for promoting osseointegration due to its piezoelectric properties similar to bone electric potentials generated in loading function. In this sense, the aim of this in vitro study was to evaluate the cellular response of human osteoblasts and gingival fibroblasts as well as the impact on S. oralis when in contact with BaTiO3 functionalized zirconia implant surfaces with piezoelectric properties. Zirconia discs with BaTiO3 were produced and contact poling (piezo activation) was performed. Osteoblasts (hFOB 1.19), fibroblasts (HGF hTERT) and S. oralis were culture on discs. Cell viability and morphology, cell differentiation markers, bacterial adhesion and growth were evaluated. The present study suggests that zirconia composite surfaces with the addition of piezoelectric BaTiO3 are not cytotoxic to peri-implant cells. Also, they seem to promote a faster initial osteoblast differentiation. Moreover, these surfaces may inhibit the growth of S. oralis by acting as a bacteriostatic agent over time. Although the piezoelectric properties do not affect the cellular inflammatory profile, they appear to enable the initial adhesion of bacteria, however this is not significant over the entire testing period. Furthermore, the addition of non-poled BaTiO3 to zirconia may have a potential reduction effect on IL-6 mediated-inflammatory activity in fibroblasts.