Effect of prolonged erosive pH cycling on different restorative materials

Effect of prolonged erosive pH cycling on different restorative materials

Summary  This in vitro study evaluated the effect of a prolonged erosive pH cycling on the superficial microhardness change (SMHC) and the erosive wear of different restorative materials. Eighty enamel specimens with prepared cavities of 1·5 × 1·5 mm were randomly divided into eight groups according...

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Bibliographic Details
Published in:Journal of oral rehabilitation Vol. 35; no. 12; pp. 947 - 953
Main Authors: HONÓRIO, H. M., RIOS, D., FRANCISCONI, L. F., MAGALHÃES, A. C., MACHADO, M. A. A. M., BUZALAF, M. A. R.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-12-2008
Subjects:
Animals
Cattle
Dental Amalgam - chemistry
Dental Enamel - drug effects
Dental Enamel - ultrastructure
Dental Restoration Wear
Hardness
Hydrogen-Ion Concentration
microhardness
Microscopy, Electron, Scanning
pH cycling
restorative materials
Saliva, Artificial - adverse effects
Saliva, Artificial - chemistry
tooth erosion
Tooth Erosion - chemically induced
wear
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Summary:Summary  This in vitro study evaluated the effect of a prolonged erosive pH cycling on the superficial microhardness change (SMHC) and the erosive wear of different restorative materials. Eighty enamel specimens with prepared cavities of 1·5 × 1·5 mm were randomly divided into eight groups according to the restorative materials used for the fillings (RMGI – resin‐modified glass–ionomer, CGI – conventional glass–ionomer, CR– composite resin, A – amalgam) and immersion media used (ERO – erosive medium or SAL – artificial saliva). During 35 days, half of the specimens were immersed in a cola drink (ERO), for 5 min, three times a day, and they remained in SAL between the erosive cycles. The other half of the specimens was immersed in SAL only, for the entire experimental period (control). Data were tested for significant differences by anova and Tukey’s tests (P < 0·05). Scanning electron microscopy images were made to illustrate the enamel erosive wear and restorative materials alterations. The mean SMHC (%) and mean erosive wear (μm) of the materials were: RMGI‐ERO (30/0·5); CGI‐ERO (37/0·5); CR‐ERO (−0·3/0·3); A‐ERO (−4/0·3); RMGI‐SAL (4/0·4); CGI‐SAL (−6/0·4); CR‐SAL (−3/0·2) and A‐SAL (2/0·4). Scanning electron microscopy images showed pronounced enamel erosive wear on groups submitted to erosive pH cycling when compared with groups maintained in saliva. In conclusion, the prolonged pH cycling promoted significantly higher alterations (SMHC and erosive wear) on the glass–ionomer cements than the CR and amalgam.
Bibliography:ark:/67375/WNG-RFKCW2HM-N
ArticleID:JOOR1856
istex:DFBC06EB82D7681DDFBFD1CB4A0CC2D783706A22
ISSN:0305-182X
1365-2842
DOI:10.1111/j.1365-2842.2008.01856.x