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      Effect of different topical fluoride applications on the surface roughness of a colored compomer

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          Abstract

          OBJECTIVE: The aim of this study was to evaluate the effect of neutral sodium fluoride (NNaF) gel and acidulated phosphate fluoride (APF) gel on the surface roughness of colored compomer (Twinky Star), conventional compomer (Compoglass F) and resin-modified glass-ionomer cement (RMGIC) (Photac-Fil). MATERIAL AND METHODS: A total of 45 standardized disc-shaped specimens were prepared for each material. After 24 h, finishing and polishing of specimens were done with aluminum oxide disc. Surface treatments with topical fluoride agents or distilled water (control) were performed four times, and interspersed with 8 pH cycles, simulating high cariogenic challenges. After the treatment, the surface roughness (Ra) was determined using a profilometer. In each group, specimens with Ra closest to the mean were examined with a scanning electron microscope (SEM) at ×1,000 and ×3,500 magnifications. Two-way ANOVA was used to evaluate Ra measurements, and the differences in Ra values between subgroups for each material and each topical applications were compared by Tukey's highly significant difference pairwise comparisons. RESULTS: No statistically significant difference in Ra between the Twinky Star and Compoglass F was found. However, Photac Fil showed significantly higher Ra than these materials after all surface treatments. There was a general trend of Ra increase from controls to NNaF and APF gels for all materials. SEM observations revealed that the surface micromorphology of Twinky-Star did not differ significantly from that of Compoglass F. CONCLUSION: Both the compomers and the RMGIC showed significantly higher surface roughness when subjected to APF gel application.

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          Most cited references32

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          Resin-modified glass-ionomers.

          This paper reviews the current status of resin-modified glass-ionomers and presents the results of recent findings of research in some key areas. The debate on nomenclature pertaining to these products is perceived as being pointless and the need for application-based ISO standards is raised. Setting characteristics are similar in many respects to those of light-activated composites, although some products have limited working time due to the influence of the acid-base setting reaction and sensitivity to ambient light. Water absorption and swelling are generally very high. The clinical significance of swelling after water exposure is unknown. Mechanical properties of most materials lie between those of the composites and conventional glass-ionomers depending upon the resin content of the matrix phase of the set material. Some products demonstrate an inherent adhesion to enamel, although etching may be required in order to make the bond clinically effective. Bonding to dentine is probably through a more complex mechanism than that involved with conventional glass-ionomers. Conditioning and priming of dentine is often advocated. Fluoride release rates and their clinical significance is an area which requires clarification and standardization. The key factor appears to be the frequency with which the storage water is changed. Equilibration is reached within minutes for some materials and their true fluoride-releasing potential can only be judged under dynamic test conditions.
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            Polyacid-modified composite resins ("compomers") and their use in clinical dentistry.

            This paper describes the chemistry and properties of polyacid-modified composite resins ("compomers") designed for use in clinical dentistry, and reviews the literature in this area. Information has been obtained from over 50 published articles appearing in the dental and biomaterials literature, with studies being principally identified through MedLine. Published work shows that polyacid-modified composite resins constitute a discrete class of polymeric repair material for use in dentistry. Their distinction is that they contain hydrophilic components, and these cause water to be drawn into the material following cure. This triggers an acid-base reaction, and gives the materials certain clinically-desirable properties (fluoride release, buffering capability) that are also associated with glass-ionomer cements. The water uptake leads to a decline in certain, though not all, physical properties. However, clinical studies have shown these materials to perform acceptably in a variety of applications (Class I, Class II and Class V cavities, as fissure sealants and as orthodontic band cements), especially in children's teeth. Polyacid-modified composite resins constitute a versatile class of dental repair material, whose bioactivity confers clinical advantages, and which are particularly useful in children's dentistry.
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              Surface roughening of glass ionomer cements by neutral NaF solutions.

              The objective of this study was to investigate the effect of repeated applications of a neutral NaF solution on the surface roughness of four conventional glass ionomer cements (GIC) (ChemFil Superior encapsulated, Fuji Cap II, Ketac-Fil and Hi Dense), three resin-modified (RM-) GIC (Fuji II LC encapsulated, Photac-Fil and Vitremer) and one polyacid-modified composite resin (PAM-C) (Dyract). Matured specimens were four times alternately eluted in water and exposed to 2% neutral NaF aqueous solutions for 1h. Control specimens were only subjected to elution in water for the same time period. After the treatment the surface roughness R(a) was determined using non-contact surface profilometry and selected samples were examined with SEM. Except for the PAM-C, R(a) increased drastically for the fluoride-treated samples compared to water-stored samples, the effect being most pronounced for the GIC. Surface roughening apparently is caused by a progressive disintegration or chemical erosion of the polysalt matrix of (RM-)GIC.
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                Author and article information

                Contributors
                Role: ND
                Role: ND
                Journal
                jaos
                Journal of Applied Oral Science
                J. Appl. Oral Sci.
                Faculdade De Odontologia De Bauru - USP (Bauru )
                1678-7765
                April 2010
                : 18
                : 2
                : 171-177
                Affiliations
                [1 ] Ondokuz Mayis University Turkey
                [2 ] Ondokuz Mayis University Turkey
                Article
                S1678-77572010000200012
                10.1590/S1678-77572010000200012
                dc51eab7-055c-4f5f-ba78-c491e02211ef

                http://creativecommons.org/licenses/by/4.0/

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                SciELO Brazil

                Self URI (journal page): http://www.scielo.br/scielo.php?script=sci_serial&pid=1678-7757&lng=en
                Categories
                DENTISTRY, ORAL SURGERY & MEDICINE

                Dentistry
                Colored compomer,Conventional compomer,Resin-modified glass-ionomer,Acidulated phosphate fluoride,Neutral sodium fluoride,Surface roughness

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