In vitro evaluation of a multispecies oral biofilm over antibacterial coated titanium surfaces |
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| Authors: | Javi Vilarrasa " target="_blank">Luis M Delgado Marta Galofré Gerard Àlvarez Deborah Violant José María Manero Vanessa Blanc F Javier Gil José Nart |
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| Affiliation: | 1.Department of Periodontology Faculty of Dentistry,Universitat Internacional de Catalunya,Barcelona,Spain;2.Bioengineering Institute of Technology,Universitat Internacional de Catalunya,Barcelona,Spain;3.Department of Microbiology,Dentaid Research Center,Barcelona,Spain;4.Faculty of Dentistry,Universitat Internacional de Cataluny,Barcelona,Spain;5.Biomaterials, Biomechanics and Tissue Engineering Group (BBT),Department of Materials Science and Metallurgical Engineering Technical University of Catalonia (UPC),Barcelona,Spain |
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| Abstract: | Peri-implantitis is an infectious disease that affects the supporting soft and hard tissues around dental implants and its prevalence is increasing considerably. The development of antibacterial strategies, such as titanium antibacterial-coated surfaces, may be a promising strategy to prevent the onset and progression of peri-implantitis. The aim of this study was to quantify the biofilm adhesion and bacterial cell viability over titanium disc with or without antibacterial surface treatment. Five bacterial strains were used to develop a multispecies oral biofilm. The selected species represent initial (Streptococcus oralis and Actinomyces viscosus), early (Veillonella parvula), secondary (Fusobacterium nucleatum) and late (Porphyromonas gingivalis) colonizers. Bacteria were sequentially inoculated over seven different types of titanium surfaces, combining different roughness level and antibacterial coatings: silver nanoparticles and TESPSA silanization. Biofilm formation, cellular viability and bacterial quantification over each surface were analyzed using scanning electron microscopy, confocal microscopy and real time PCR. Biofilm formation over titanium surfaces with different bacterial morphologies could be observed. TESPSA was able to significantly reduce the cellular viability when compared to all the surfaces (p?<?0.05). Silver deposition on titanium surface did not show improved results in terms of biofilm adhesion and cellular viability when compared to its corresponding non-coated surface. The total amount of bacterial biofilm did not significantly differ between groups (p?>?0.05). TESPSA was able to reduce biofilm adhesion and cellular viability. However, silver deposition on titanium surface seemed not to confer these antibacterial properties. | |
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