BACKGROUND: Little is known about the mechanisms of bacterial interaction with implant materials in the oral cavity. A correlation between plaque accumulation and progressive bone loss around implants has been reported. Bacterial adhesion shows a direct positive correlation with surface roughness. Other surface characteristics also seem to be extremely important with regard to plaque formation. Different adhesion affinities of bacteria have been reported for different materials. The aim of this study was to characterize the percentage of surface covered by bacteria on commercially pure titanium and zirconium oxide disks. METHODS: Ten patients participated in this study. A removable acrylic device was adapted to the molar-premolar region, and commercially pure titanium (control) and zirconium oxide (test) disks were glued to the buccal aspect of each device. The surface roughness of titanium and test specimens was similar. After 24 hours, all disks were removed and processed for scanning electron microscopy, for the evaluation of the portion of surface covered by bacteria. RESULTS: In control specimens, the area covered by bacteria was 19.3% +/- 2.9; in test specimens, the area was 12.1% +/- 1.96. The disk surface covered by bacteria on test specimens was significantly lower than that of control specimens (P = 0.0001). CONCLUSION: Our results demonstrate that zirconium oxide may be a suitable material for manufacturing implant abutments with a low colonization potential.
BACKGROUND: Little is known about the mechanisms of bacterial interaction with implant materials in the oral cavity. A correlation between plaque accumulation and progressive bone loss around implants has been reported. Bacterial adhesion shows a direct positive correlation with surface roughness. Other surface characteristics also seem to be extremely important with regard to plaque formation. Different adhesion affinities of bacteria have been reported for different materials. The aim of this study was to characterize the percentage of surface covered by bacteria on commercially pure titanium and zirconium oxide disks. METHODS: Ten patients participated in this study. A removable acrylic device was adapted to the molar-premolar region, and commercially pure titanium (control) and zirconium oxide (test) disks were glued to the buccal aspect of each device. The surface roughness of titanium and test specimens was similar. After 24 hours, all disks were removed and processed for scanning electron microscopy, for the evaluation of the portion of surface covered by bacteria. RESULTS: In control specimens, the area covered by bacteria was 19.3% +/- 2.9; in test specimens, the area was 12.1% +/- 1.96. The disk surface covered by bacteria on test specimens was significantly lower than that of control specimens (P = 0.0001). CONCLUSION: Our results demonstrate that zirconium oxide may be a suitable material for manufacturing implant abutments with a low colonization potential.
Authors: Rebecca M Hoerth; María R Katunar; Andrea Gomez Sanchez; Juan C Orellano; Silvia M Ceré; Wolfgang Wagermaier; Josefina Ballarre Journal: J Mater Sci Mater Med Date: 2013-10-30 Impact factor: 3.896
Authors: Fernanda H Schünemann; María E Galárraga-Vinueza; Ricardo Magini; Márcio Fredel; Filipe Silva; Júlio C M Souza; Yu Zhang; Bruno Henriques Journal: Mater Sci Eng C Mater Biol Appl Date: 2019-01-16 Impact factor: 7.328
Authors: Thalisson S O Silva; Alice R Freitas; Marília L L Pinheiro; Cássio do Nascimento; Evandro Watanabe; Rubens F Albuquerque Journal: J Vis Exp Date: 2018-06-24 Impact factor: 1.355