Oral Biofilm Formation on Different Materials for Dental Implants

Dental implants and their prosthetic components are prone to bacterial colonization and biofilm formation. The use of materials that provides low microbial adhesion may reduce the prevalence and progression of peri-implant diseases. In view of the oral environment complexity and oral biofilm heterog...

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Veröffentlicht in:	Journal of Visualized Experiments 2018-06 (136)
Hauptverfasser:	Silva, Thalisson S. O., Freitas, Alice R., Pinheiro, Marília L. L., do Nascimento, Cássio, Watanabe, Evandro, Albuquerque, Rubens F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Biofilms Dental Implants - microbiology Dental Materials - chemistry Humans Medicine Microscopy, Electron, Scanning - methods Surface Properties Titanium - chemistry Zirconium - chemistry
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container_issue	136
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container_title	Journal of Visualized Experiments
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creator	Silva, Thalisson S. O. Freitas, Alice R. Pinheiro, Marília L. L. do Nascimento, Cássio Watanabe, Evandro Albuquerque, Rubens F.
description	Dental implants and their prosthetic components are prone to bacterial colonization and biofilm formation. The use of materials that provides low microbial adhesion may reduce the prevalence and progression of peri-implant diseases. In view of the oral environment complexity and oral biofilm heterogeneity, microscopy techniques are needed that can enable a biofilm analysis of the surfaces of teeth and dental materials. This article describes a series of protocols implemented for comparing oral biofilm formation on titanium and ceramic materials for prosthetic abutments, as well as the methods involved in oral biofilms analyses at the morphological and cellular levels. The in situ model to evaluate oral biofilm formation on titanium and zirconia materials for dental prosthesis abutments as described in this study provides a satisfactory preservation of the 48 h biofilm, thereby demonstrating methodological adequacy. Multiphoton microscopy allows the analysis of an area representative of the biofilm formed on the test materials. In addition, the use of fluorophores and the processing of the images using multiphoton microscopy allows the analysis of the bacterial viability in a very heterogeneous population of microorganisms. The preparation of biological specimens for electron microscopy promotes the structural preservation of biofilm, images with good resolution, and no artifacts.
doi_str_mv	10.3791/57756
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O. ; Freitas, Alice R. ; Pinheiro, Marília L. L. ; do Nascimento, Cássio ; Watanabe, Evandro ; Albuquerque, Rubens F.</creator><creatorcontrib>Silva, Thalisson S. O. ; Freitas, Alice R. ; Pinheiro, Marília L. L. ; do Nascimento, Cássio ; Watanabe, Evandro ; Albuquerque, Rubens F.</creatorcontrib><description>Dental implants and their prosthetic components are prone to bacterial colonization and biofilm formation. The use of materials that provides low microbial adhesion may reduce the prevalence and progression of peri-implant diseases. In view of the oral environment complexity and oral biofilm heterogeneity, microscopy techniques are needed that can enable a biofilm analysis of the surfaces of teeth and dental materials. This article describes a series of protocols implemented for comparing oral biofilm formation on titanium and ceramic materials for prosthetic abutments, as well as the methods involved in oral biofilms analyses at the morphological and cellular levels. The in situ model to evaluate oral biofilm formation on titanium and zirconia materials for dental prosthesis abutments as described in this study provides a satisfactory preservation of the 48 h biofilm, thereby demonstrating methodological adequacy. Multiphoton microscopy allows the analysis of an area representative of the biofilm formed on the test materials. In addition, the use of fluorophores and the processing of the images using multiphoton microscopy allows the analysis of the bacterial viability in a very heterogeneous population of microorganisms. 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This article describes a series of protocols implemented for comparing oral biofilm formation on titanium and ceramic materials for prosthetic abutments, as well as the methods involved in oral biofilms analyses at the morphological and cellular levels. The in situ model to evaluate oral biofilm formation on titanium and zirconia materials for dental prosthesis abutments as described in this study provides a satisfactory preservation of the 48 h biofilm, thereby demonstrating methodological adequacy. Multiphoton microscopy allows the analysis of an area representative of the biofilm formed on the test materials. In addition, the use of fluorophores and the processing of the images using multiphoton microscopy allows the analysis of the bacterial viability in a very heterogeneous population of microorganisms. 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This article describes a series of protocols implemented for comparing oral biofilm formation on titanium and ceramic materials for prosthetic abutments, as well as the methods involved in oral biofilms analyses at the morphological and cellular levels. The in situ model to evaluate oral biofilm formation on titanium and zirconia materials for dental prosthesis abutments as described in this study provides a satisfactory preservation of the 48 h biofilm, thereby demonstrating methodological adequacy. Multiphoton microscopy allows the analysis of an area representative of the biofilm formed on the test materials. In addition, the use of fluorophores and the processing of the images using multiphoton microscopy allows the analysis of the bacterial viability in a very heterogeneous population of microorganisms. 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subjects	Biofilms Dental Implants - microbiology Dental Materials - chemistry Humans Medicine Microscopy, Electron, Scanning - methods Surface Properties Titanium - chemistry Zirconium - chemistry
title	Oral Biofilm Formation on Different Materials for Dental Implants
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