In vitro fluoride release from a different kind of conventional and resin modified glass-ionomer cements

Selimović-Dragaš, Mediha; Hasić-Branković, Lajla; Korać, Fehim; Đapo, Nermin; Huseinbegović, Amina; Kobašlija, Sedin; Lekic, M; Hatibović-Kofman, Šahza

doi:10.17305/bjbms.2013.2362

Cited by 21 publications

(22 citation statements)

References 10 publications

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“…The similar results "burst effect" was also reported by Upadhyay et al 2013 19 and Prapansilp et al 2017. 17 The mechanism by which fluoride release into an aqueous environment from all experimental materials supported the twophase diffusion theory. Phase one relates to initially accelerated surface elution of short-term fluoride release.…”

Section: Discussionmentioning

confidence: 72%

Evaluation of Fluoride release from orthodontic acrylic resin by using two different polymerizations techniques: An InVitro Study

Sabir¹,

Omer²

2019

EDJ

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Background and objectives: Oral hygiene is mandatory for patients with orthodontic appliances and prevention of microbial biofilms in the oral environment. One method for inhibiting the growth of microorganisms is commonly by use fluoridated dental material. The aim of this study was to evaluate releasing fluoride after addition into the orthodontic acrylic resin with 40% hydroxyethyl methacrylate, and amount of fluoride release from the orthodontic acrylic resin that was polymerized by Auto polymerization and IVOMAT polymerization. Materials and methods: Sixty disc-shaped samples measured 10 mm diameter and 1mm thickness of orthocryle were divided into two groups according to polymerization technics, thirty samples for Auto polymerization and thirty samples for polymerization by IVOMAT. Each of these groups was subdivided into three groups according to the concentration of NaF. Group A 0% NaF, Group B 10%NaF, and Group C 20%NaF. For testing fluoride release, samples stored for 28 days in deionized distilled water for testing measurements for days 1,4,7,14,21, and day 28. Precision ion meter was used to measure fluoride release. Repeated measure ANOVA was undertaken to compare fluoride release in each group. Paired sample t-test was utilized to differentiate between groups. Results: Significant difference was observed in the fluoride-releasing of both groups and within the subgroups (P≤0.05). The highest amount of fluoride release is present in 20% NaF followed by 10% NaF for Auto polymerized acrylic resin in the first day. The lowest fluoride release is presented in 10% on day 28 for IVOMAT polymerization. In general, the Auto polymerized acrylic resin had higher fluoride release than IVOMAT from all groups for 0%,10% and 20% NaF. Conclusion: Orthodontic acrylic resin has the ability to release fluoride more than 28 days for both types of polymerization technics in different concentrations.

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Section: Discussionmentioning

confidence: 72%

Evaluation of Fluoride release from orthodontic acrylic resin by using two different polymerizations techniques: An InVitro Study

Sabir¹,

Omer²

2019

EDJ

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“…The correlation between concentration of fluoride ion released and cytotoxic response is shown to be high, positive, and significant. 18,33 The other bulk-fill RBCs (SDR, EXP, and TNC) also incorporate fluoride-containing glasses into their formulations (Table 1). Fluoride release with PRG-filled materials is, however, higher than for materials with fluoroaluminosilicate glass in the unreacted form.…”

Section: Discussionmentioning

confidence: 99%

In Vitro Biocompatibility of Contemporary Bulk-fill Composites

Toh

Yap

Lim

2015

Operative Dentistry

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This study evaluated the biocompatibility of contemporary bulk-fill resin-based composites (RBCs) including PRG (pre-reacted glass ionomer) materials based on the International Organization for Standardization 10993. In addition, the effect of composite thickness on cytotoxicity was also assessed. Two standard composites, two bulk-fill PRG RBCs, and three bulk-fill non-PRG RBCs were investigated. Block-shaped specimens of 2-mm and 4-mm thickness were cured with an irradiance of 700 mW/cm(2) for 20 seconds with a light-emitting diode curing light and eluted with culture medium at 37°C for 24 hours. L929 mouse fibroblasts were exposed to extracts at varying dilutions (1:1, 1:2, and 1:10) for 24 hours. Analyses were performed to assess cytotoxicity, phase contrast microscopy, and quantitative cell viability. Among the bulk-fill RBCs, extracts of PRG materials resulted in the lowest cell viability. At 4-mm thickness, undiluted extracts of bulk-fill non-PRG RBCs had significantly higher cell viability than the standard composites. Chemical composition, specimen thickness, and testing concentrations of extracts had significant effects on cell viability and morphology. Cytotoxic effects of composites on cell viability were parallel with cell morphologic changes. Not all bulk-fill RBCs demonstrated high cell viability (>70%) at 4-mm thickness despite manufacturers' recommendations of bulk placement and curing.

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“…Maximum absorption rates at 1650 cm − 1 , 1540 cm -1 and 1450 cm -1 can be assigned to amide I and amide II bands from the proteins found the enamel structure, with C=O and N-H vibrations. In addition, another large absorption band detected at 3700-3000 cm -1 was assigned to hydroxyl group (O-H) with a secondary band at 1640 cm -1 , which may overlap over amine I bands [19,20].…”

mentioning

confidence: 99%

“…The casein phosphopeptide-amorphous calcium phosphate technology developed based on the alleviating properties of milk and salivary proteins. The casein phosphopeptides allow high concentrations of calcium, phosphate, and fluoride ions that stabilized in solution, in a bioavailable form for the promotion of remineralization [19,21].…”

mentioning

confidence: 99%

Remineralization products effect on human enamel in vitro study

Silaghi-Dumitrescu¹,

Muntean²,

Mihăilescu³

et al. 2019

Studia UBB Chemia

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The aim of this in vitro study was to assess the remineralization process of human enamel, using two commercial pastes (containing calcium, phosphates, hydroxyl-apatite and sodium fluoride) and an experimental gel (obtained from fruit extract). 40 caries free extracted human teeth were divided into 4 groups: 3 study groups (n=12), and 1 control group (n=4). For the study groups, the remineralization agent differed: GC Tooth Mousse, Recaldent, Remin Pro (Voco) and an experimental gel made by "Raluca Ripan" Chemistry Institute (Cluj Napoca, Romania). ATR-FTIR (Jasco-610, Japan) was employed to verify the protective effect of the remineralizing products on enamel. UV-Vis spectra were used to determine mineral loss and gain during demineralizationremineralization process. No significant statistic difference emerged between specimens in study groups and the specimens in control group. Under the limitations of the in vitro study, the application of the tested product proved to be effective on enamel remineralization.

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In vitro fluoride release from a different kind of conventional and resin modified glass-ionomer cements

Cited by 21 publications

References 10 publications

Evaluation of Fluoride release from orthodontic acrylic resin by using two different polymerizations techniques: An InVitro Study

Evaluation of Fluoride release from orthodontic acrylic resin by using two different polymerizations techniques: An InVitro Study

In Vitro Biocompatibility of Contemporary Bulk-fill Composites

Remineralization products effect on human enamel in vitro study

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