References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [5]
author: Torsten Wassmann, Stefan Kreis, Michael Behr, Ralf Buergers | publisher: drg. Andreas Tjandra, Sp. Perio, FISID
Drake DR, Paul J, Keller JC. Primary bacterial adhesion of implant surfaces. Int J Oral Maxillofac Implants. 1999;14:226–32.
Lim YJ, Oshida Y. Initial contact angle measurements on variously treated dental/medical titanium materials. Biomed Mater Eng. 2001;11:325–41.
Steinberg D, Sela MN, Klinger A, Kohavi D. Adhesion of periodontal bacteria to titanium and titanium alloy powders. Clin Oral Implants Res. 1998;9:67–72.
Bakker DP, Postmus BR, Busscher HJ, van der Mei HC. Bacterial strains isolated from different niches can exhibit different patterns of adhesion to substrata. Appl Environ Microbiol. 2004;70:3758–60.
Carlen A, Rudiger SG, Loggner I, Olsson J. Bacteria-binding plasma proteins in pellicles formed on hydroxyapatite in vitro and on teeth in vivo. Oral Microbiol Immunol. 2003;18:203–7.
Edgerton M, Lo SE, Scannapieco FA. Experimental salivary pellicles formed on titanium surfaces mediate adhesion of streptococci. Int J Oral Maxillofac Implants. 1996;11:443–9.
Grossner-Schreiber B, Griepentrog M, Haustein I, Muller WD, Lange KP, Briedigkeit H, et al. Plaque formation on surface modified dental implants. An in vitro study. Clin Oral Implants Res. 2001;12:543–51.
Dewhirst FE, Chen T, Izard J, Paster BJ, Tanner AC, Yu WH, et al. The human oral microbiome. J Bacteriol. 2010;192:5002–17.
Kolenbrander PE, Ganeshkumar N, Cassels FJ, Hughes CV. Coaggregation: specific adherence among human oral plaque bacteria. FASEB J. 1993;7:406–13.
Del Curto B, Brunella MF, Giordano C, Pedeferri MP, Valtulina V, Visai L, et al. Decreased bacterial adhesion to surface-treated titanium. Int J Artif Organs. 2005;28:718–30.
Freedman AM, Jackson IT. Infections in breast implants. Infect Dis Clin North Am. 1989;3:275–87.
Serial posts:
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Abstract : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Background : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
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Background : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
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Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
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Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
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Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
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Results : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
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Results : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
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Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
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Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
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Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
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Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [4]
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Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [5]
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Conclusions : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
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References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
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References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [4]
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References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [5]
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Acknowledgements : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Author information : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Ethics declarations : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Rights and permissions : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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About this article : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Table 1 Arithmetic average of surface roughness Ra (means and standard deviations [μm]) and wettability (means and standard deviations [°]) of the ten tested material : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
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Fig. 1. AFM images for 30 μm × 30 μm (a–d) and 3 μm × 3 μm scan areas (e–h) of rough ceramic (a, e), smooth ceramic (b, f), rough titanium (c, g), and smooth titanium (d, h) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
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Fig. 2. Comparison of AFM surface profiles of rough ceramic (CeROUGH), smooth ceramic (CeSMOOTH), rough titanium (TiROUGH), and smooth titanium (TiSMOOTH); scan sizes are 30 μm in a and 1 μm in b : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
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Fig. 3. Relative fluorescence intensities (rfi) of S. epidermidis (a) and S. sanguinis (b) on titanium and ceramic implant surfaces with different grades of roughness (means and standard deviations) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
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Fig. 4. Relative fluorescence intensities (rfi) of S. epidermidis (a) and S. sanguinis (b) on titanium and ceramic implant surfaces with different grades of roughness and hydrophobicity (means and standard deviations) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
Drake DR, Paul J, Keller JC. Primary bacterial adhesion of implant surfaces. Int J Oral Maxillofac Implants. 1999;14:226–32.
Lim YJ, Oshida Y. Initial contact angle measurements on variously treated dental/medical titanium materials. Biomed Mater Eng. 2001;11:325–41.
Steinberg D, Sela MN, Klinger A, Kohavi D. Adhesion of periodontal bacteria to titanium and titanium alloy powders. Clin Oral Implants Res. 1998;9:67–72.
Bakker DP, Postmus BR, Busscher HJ, van der Mei HC. Bacterial strains isolated from different niches can exhibit different patterns of adhesion to substrata. Appl Environ Microbiol. 2004;70:3758–60.
Carlen A, Rudiger SG, Loggner I, Olsson J. Bacteria-binding plasma proteins in pellicles formed on hydroxyapatite in vitro and on teeth in vivo. Oral Microbiol Immunol. 2003;18:203–7.
Edgerton M, Lo SE, Scannapieco FA. Experimental salivary pellicles formed on titanium surfaces mediate adhesion of streptococci. Int J Oral Maxillofac Implants. 1996;11:443–9.
Grossner-Schreiber B, Griepentrog M, Haustein I, Muller WD, Lange KP, Briedigkeit H, et al. Plaque formation on surface modified dental implants. An in vitro study. Clin Oral Implants Res. 2001;12:543–51.
Dewhirst FE, Chen T, Izard J, Paster BJ, Tanner AC, Yu WH, et al. The human oral microbiome. J Bacteriol. 2010;192:5002–17.
Kolenbrander PE, Ganeshkumar N, Cassels FJ, Hughes CV. Coaggregation: specific adherence among human oral plaque bacteria. FASEB J. 1993;7:406–13.
Del Curto B, Brunella MF, Giordano C, Pedeferri MP, Valtulina V, Visai L, et al. Decreased bacterial adhesion to surface-treated titanium. Int J Artif Organs. 2005;28:718–30.
Freedman AM, Jackson IT. Infections in breast implants. Infect Dis Clin North Am. 1989;3:275–87.
- Abstract : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Background : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
- Background : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
- Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
- Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
- Methods : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
- Results : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
- Results : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
- Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [1]
- Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
- Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
- Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [4]
- Discussion : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [5]
- Conclusions : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [2]
- References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [3]
- References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [4]
- References : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants [5]
- Acknowledgements : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Author information : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Ethics declarations : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Rights and permissions : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- About this article : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Table 1 Arithmetic average of surface roughness Ra (means and standard deviations [μm]) and wettability (means and standard deviations [°]) of the ten tested material : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implants
- Fig. 1. AFM images for 30 μm × 30 μm (a–d) and 3 μm × 3 μm scan areas (e–h) of rough ceramic (a, e), smooth ceramic (b, f), rough titanium (c, g), and smooth titanium (d, h) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
- Fig. 2. Comparison of AFM surface profiles of rough ceramic (CeROUGH), smooth ceramic (CeSMOOTH), rough titanium (TiROUGH), and smooth titanium (TiSMOOTH); scan sizes are 30 μm in a and 1 μm in b : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
- Fig. 3. Relative fluorescence intensities (rfi) of S. epidermidis (a) and S. sanguinis (b) on titanium and ceramic implant surfaces with different grades of roughness (means and standard deviations) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant
- Fig. 4. Relative fluorescence intensities (rfi) of S. epidermidis (a) and S. sanguinis (b) on titanium and ceramic implant surfaces with different grades of roughness and hydrophobicity (means and standard deviations) : The influence of surface texture and wettability on initial bacterial adhesion on titanium and zirconium oxide dental implant