1. Resin-modified glass ionomer cements: fluoride release and influence on Streptococcus mutans growth
- Author
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Mohammad Shams, Karl‐Anton Miller, Karl-Heinz Friedl, and Gottfried Schmalz
- Subjects
Time Factors ,medicine.medical_treatment ,Colony Count, Microbial ,Glass ionomer cement ,Dentistry ,Sodium Chloride ,Bacterial growth ,Composite Resins ,Streptococcus mutans ,Fluorides ,chemistry.chemical_compound ,Nephelometry and Turbidimetry ,Fluoride release ,Immersion ,Materials Testing ,medicine ,General Dentistry ,Saline ,Cermet Cements ,Cement ,biology ,Compomers ,Chemistry ,business.industry ,Silicates ,Maleates ,Resin modified ,biology.organism_classification ,Cariostatic Agents ,Resin Cements ,Resins, Synthetic ,Glass Ionomer Cements ,Methacrylates ,business ,Fluoride ,Nuclear chemistry - Abstract
The aims of the present study were to measure the fluoride release of 1 glass ionomer cement, 1 cermet cement, 3 resin-modified glass ionomer cements and 1 compomer, and to determine the influence of each material on bacterial growth. Test specimens were eluted in saline for 180 days. Every 2 days, the specimens were transferred into fresh saline and the fluoride content of the solution was measured. Furthermore, 48-h, 14-d, 90-d, and 180-d eluates were inoculated with Streptococcus mutans and bacterial growth was recorded nephelometrically. Fluoride release dropped significantly over time for each material with values between 6.2 (Ketac-Silver) and 29.3 (Photac-Fil) ppm after 48 h to values between 0.6 (Ketac-Silver) and 1.7 (Ketac-Fil, Vitremer) ppm after 180 days. Each material reduced bacterial growth at each time of examination, but the effect decreased significantly over time with a maximum growth of 71.7% (Ketac-Fil) to 85.6% (Ketac-Silver) after 48 h and 94.7 (Vitremer) to 99.0% (Ketac-Silver) after 180 days (growth control = 100%). Both Ketac-Silver and Dyract showed a significantly lower inhibiting effect on bacterial growth than the other materials. The tested materials showed a good correlation between fluoride release and influence on bacterial growth. However, both effects dropped dramatically over the 180-days period.
- Published
- 1997
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