Fluoride Uptake and Release Characteristics of Glass lonomer Cements

Creanor, S.L.; Carruthers, Lenny M.; Saunders, W. P.; Strang, R.; Foye, R.H.

doi:10.1159/000261996

Cited by 119 publications

(70 citation statements)

References 9 publications

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“…They can adhere to enamel or metal substrates 16) , release and take up fluoride 17) , and inhibit microbial activity 18) . In the context of implant-supported restorations, cementretained restorations luted with provisional GICs have been used as a means of providing the patient with an esthetic prosthesis together with a suite of advantages such as appropriate retention, good antibacterial properties and biocompatibility.…”

Section: Discussionmentioning

confidence: 99%

New glass polyalkenoate temporary cement for cement-retained implant restoration: Evaluation of elevation and retentive strength

Naito

Chen

et al. 2010

Dent. Mater. J.

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The purpose of this study was to evaluate four luting agents for cement-retained implant restorations in two aspects: post-cementation elevation of the superstructure and the retentive strength before and after thermocycling and mechanical cycling. The four evaluated luting agents were: new glass polyalkenoate hard-type (GH) and soft-type (GS) cements, polycarboxylate hard-type (HH) and softtype (HS) cements. Elevation and retentive strength were measured using a CCD laser displacement sensor and a universal testing machine respectively. Elevation increased in this order: GH, GS, HH, and HS. Thermal and mechanical stresses significantly decreased retentive strength, and the mean values exhibited by GH were significantly higher than the other luting agents. The novel glass polyalkenoate cements (hard-and soft-type) experimentally prepared in the present study augured well as luting agents by virtue of their reduced film thickness and their excellent post-cementation retention and elevation.

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Section: Discussionmentioning

confidence: 99%

New glass polyalkenoate temporary cement for cement-retained implant restoration: Evaluation of elevation and retentive strength

Naito

Chen

et al. 2010

Dent. Mater. J.

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“…23 To compare the present data with the results from other papers [24][25][26][27][28] involving a similar range of materials, the same unit (ppm) was chosen for comparison and discussion. The treatment of data by Rothwell et al 29 using mg/g for fluoride release versus the square root of time, assumes that fluoride release will be completely exhausted at infinity, and has gradually gained acceptance for recent publications of fluoride release.…”

Section: Researchmentioning

confidence: 98%

Fluoride release, weight loss and erosive wear of modern aesthetic restoratives

1999

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265 RESEARCHrestorative dentistry limited the scope of conventional GICs in clinical application. More recently-introduced resin ionomers have less water sensitivity, and improved aesthetic and mechanical properties. 11 However, there are great differences between various materials in the levels of fluoride released, 12 and there is also less fluoride released when artificial 13 and human saliva 14 are used, rather than deionised water. Some materials claimed by their manufacturers to release fluoride hardly do so in measurable quantities. 15 In fact, a variety of such fluoride-releasing materials are primarily resin-composite systems with some form of fluoride incorporated into the resin matrix. 16 Most of these materials have a lower level of fluoride release than GICs, and their clinical effectiveness is also unknown.Therefore, the objectives of this study were to investigate the long-term levels of fluoride released from selected GICs and resin ionomers, and the effects of acidulated phosphate fluoride (APF) gel on the levels of fluoride released and on the physical structure of the glass ionomer cements, by monitoring their weights and surface changes. Materials and methods Restorative materialsThe details of the materials investigated in the present study are listed in Table 1. ChemFil Superior was the positive control and Z100 was the negative control. Specimen preparation and immersionFive specimens of each material were prepared according to the manufacturers' instructions and placed into disposable, cylindrical Teflon moulds (3.0 mm diameter × 2.7 mm height), 17 and then pressed between two Mylar-covered glass slides. The resin ionomer cements were light cured from both ends of the moulds for 40 seconds using a VCL 200 visible light unit (Demetron Research Corporation, Danbury, CT, USA). They were allowed to set for about an hour. After setting, each specimen was removed from its mould, weighed by an electronic balance, then placed in a polypropylene vial with 2 mL of artificial saliva (0.05 M acetate buffer with 2.2 mM CaHPO 4 adjusted with glacial acetic acid to pH 5.0) and stored at 37°C. The solution was replaced at 6 hours, 1 day and 2 days, then weekly for 12 weeks. The amount of fluoride released was also measured at these same times for the first 5 weeks, then at 8 weeks and 12 weeks. Each specimen was dabbed dry before weighing at the times of solution replacement. Determination of fluorideOne mL of the solution was mixed with 0.1 mL of TISAB III solution and the fluoride concentration was measured with a specific fluoride electrode (Orion 9609BN electrode: Orion Research Incorporated, Boston, MA, USA) and read in millivolts. Calibration of the fluoride electrode was done before each measurement session Objective In this investigation, the in vitro sustained fluoride release, weight loss and erosive wear of three conventional glass ionomer cements (Fuji IX, ChemFil Superior, Ketac-Silver), three resin-modified glass ionomer cements (Fuji II LC, Vitremer, Photac-Fil), a polyacid-modified resin ...

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“…Geiger et al (1992) (Nicholson, 1998 It is well known that glass-ionomer cements release fluoride in vitro (Forsten, 1977). Creanor et al (1994) found that discs (6 mm in diameter and 1.5 mm thick) of Vitrebond (GIC) released a concentration of I55.2 ppm fluoride in 2 mL of deionized water at24…”

Section: 4 Null Ttrypothesismentioning

confidence: 99%