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1.
Minerva Stomatol ; 61(6): 283-8, 2012 Jun.
Article in English | MEDLINE | ID: mdl-22669058

ABSTRACT

AIM: The aim of this study was to assess the influence of accelerated artificial aging (AAA) on the surface hardness of acrylic resins. METHODS: The following three commercial brands of acrylic resins were tested: Vipi Flash (autopolymerized resin), Vipi Wave (microwave heat-polymerized resin) and Vipi Cril (conventional heat-polymerized resin). To perform the tests, 21 test specimens (65x10x3 mm) were made, 7 for each resin. Three surface hardness readings were performed for each test specimen, before and after AAA, and the means were submitted to the following tests: Kolmogorov-Smirnov (P>0.05), Levene Statistic, Two-way ANOVA, Tukey Post Hoc (P<0.05) with the SPSS Statistical Software 17.0. RESULTS: The analysis of the factors showed significant differences in the hardness values (P<0.05). Before aging, the autopolymerized acrylic resin Vipi Flash showed lower hardness values when compared with the heat-polymerized resin Vipi Cril (P=0.001). After aging, the 3 materials showed similar performance when compared among them. The Vipi Cril was the only one affected by AAA and showed lower hardness values after this procedure (Pp=0.003). CONCLUSION: It may be concluded that accelerated artificial aging influenced surface hardness of heat-polymerized acrylic resin Vipi Cril.


Subject(s)
Acrylic Resins , Hardness Tests , Materials Testing , Surface Properties , Time Factors
2.
J Oral Rehabil ; 38(4): 253-62, 2011 Apr.
Article in English | MEDLINE | ID: mdl-20868428

ABSTRACT

The aim of this comparative clinical study was to evaluate a novel bioactive glass-ceramic (Biosilicate® 1-20 µm particles) to treat dentine hypersensitivity (DH). Volunteers (n = 120 patients/ 230 teeth) received the following treatments: G1-Sensodyne® , G2-SensiKill®, G3-Biosilicate® incorporated in a 1% water-free-gel and G4-Biosilicate® mixed with distilled water at 1:10 ratio. G1 and G3 were applied at home, daily for 30 days; G2 and G4 were applied once a week by a dentist (four applications). A visual analogue scale (VAS) was employed to evaluate pain for each quadrant in one sensitive tooth at baseline, weekly during treatment and during a 6-month follow-up period. Dentine hypersensitivity values (G1/n= 52), (G2/n =62), (G3/n = 59) and (G4/n = 59) were analysed with Kruskal-Wallis/Dunn tests. All the products were efficient in reducing DH after 4 weeks. Among the four materials tested, G4 demonstrated the best clinical performance and provided the fastest treatment to reduce DH pain. Distilled water proved to be an adequate vehicle to disperse Biosilicate®. Low DH scores were maintained during the 6-month follow-up period. The hypothesis that the novel bioactive glass-ceramic may be an efficient treatment for DH was confirmed.


Subject(s)
Biocompatible Materials/therapeutic use , Ceramics , Dentin Desensitizing Agents/therapeutic use , Dentin Sensitivity/drug therapy , Glass , Administration, Topical , Biocompatible Materials/administration & dosage , Crystallization , Dentin Desensitizing Agents/administration & dosage , Double-Blind Method , Drug Combinations , Fluorides/therapeutic use , Follow-Up Studies , Humans , Longitudinal Studies , Nitrates/therapeutic use , Pain Measurement , Phosphates/therapeutic use , Toothbrushing/methods , Toothpastes/administration & dosage , Toothpastes/therapeutic use , Treatment Outcome
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