RESUMO
RESUMEN Objetivo : Evaluar el efecto remineralizante de una saliva sintética en el esmalte dental bovino erosionado. Materiales y métodos : Se prepararon 50 bloques de esmalte de dientes de bovino. Las muestras fueron divididas en 5 grupos de estudio según el tratamiento: grupo A (Colgate Total®, pasta de dientes que contiene fluoruro), grupo B (MI Paste Plus®, pasta de dientes que contiene fosfopéptido de caseína-fosfato de calcio amorfo [CPP-ACP] con fluoruro), grupo C (Salival® Solución, saliva sintética), grupo D (agua destilada) y grupo E (sin tratamiento). Todos los especímenes de los grupos A, B, C y D recibieron ataques con ácido cítrico al 0,5 % durante 2 minutos a las 0, 8, 24 y 32 horas. Después de cada ataque ácido, se aplicaron las pastas de dientes correspondientes a cada grupo de tratamiento. Luego se procedió a evaluar el grado de mineralización mediante microscopía Raman y la microdureza superficial mediante microdureza Vickers. Resultados : Respecto al grado de mineralización y la dureza superficial, no se encontraron diferencias significativas (p > 0,05) en el esmalte dental bovino erosionado tratado con Colgate Total®, MI Paste Plus® y Salival® Solución en comparación con las muestras de esmalte sano; sin embargo, todas presentaron un grado de mineralización y dureza superficial significativamente mayor que las muestras de esmalte de dientes bovinos erosionados conservados en agua destilada (p < 0,05). Conclusión : Este estudio in vitro muestra que la saliva sintética Salival® Solución tiene un potencial remineralizante en el esmalte bovino erosionado.
ABSTRACT Objective : To evaluate the remineralizing effect of synthetic saliva on eroded bovine dental enamel. Materials and methods : 50 enamel blocks were prepared from bovine teeth. The specimens were divided into 5 study groups according to treatment: group A (Colgate Total®, toothpaste containing fluoride), group B (MI Paste Plus®, toothpaste containing casein phosphopeptide, amorphous calcium phosphate [CPP-ACP] with fluoride), group C (Salival® Solution, synthetic saliva), group D (distilled water) and group E (no treatment). All specimens in groups A, B, C and D received 0.5% citric acid attacks for 2 minutes at 0, 8, 24 and 32 hours. After each acid attack, toothpastes corresponding to each treatment group were applied. The degree of mineralization was then evaluated by Raman microscopy and surface microhardness by Vickers microhardness. Results : Regarding the degree of mineralization and surface hardness, no significant differences (p > 0.05) were found in the eroded bovine tooth enamel treated with Colgate Total®, Mi Paste Plus® and Salival® Solution in comparison with the healthy enamel samples. But all presented a significantly higher degree of mineralization and surface hardness than the eroded bovine tooth enamel samples preserved in distilled water (p < 0.05). Conclusion : This in vitro study shows that the synthetic saliva Salival® Solution has a remineralizing potential on eroded bovine enamel.
RESUMO Objetivo : Avaliar o efeito remineralizante de uma saliva sintética no esmalte dentário bovino erodido. Materiais e métodos : Foram preparados 50 blocos de esmalte de dentes de bovinos. As amostras foram divididas em 5 grupos de estudo de acordo com o tratamento: grupo A (Colgate Total®, pasta dentífrica contendo flúor), grupo B (MI Paste Plus®, pasta dentífrica contendo fosfopeptídeo de caseína, fosfato de cálcio amorfo [CPP-ACP] com flúor), grupo C (Salival® Solution, saliva sintética), grupo D (água destilada) e grupo E (sem tratamento). Todos os espécimes dos grupos A, B, C e D receberam um ataque ácido cítrico a 0,5% durante 2 minutos às 0, 8, 24 e 32 horas. Após cada ataque ácido, foram aplicadas as pastas dentífricas correspondentes a cada grupo de tratamento. O grau de mineralização foi então avaliado por microscopia Raman e a microdureza superficial por microdureza Vickers. Resultados : Relativamente ao grau de mineralização e à dureza da superfície, não foram encontradas diferenças significativas (p > 0,05) no esmalte dentário bovino erodido tratado com Colgate Total®, Mi Paste Plus® e Salival® Solution em comparação com as amostras de esmalte saudável. Mas todos mostraram um grau significativamente mais elevado de mineralização e dureza superficial do que as amostras de esmalte de dentes de bovinos erodidos preservados em água destilada (p < 0,05). Conclusão : Este estudo in vitro mostra que a saliva sintética Salival® Solution tem um potencial remineralizante no esmalte bovino erodido.
RESUMO
Background: Silver nanoparticles (AgNPs) are an effective antibacterial agent, and their inclusion in orthodontic adhesives has been proposed to prevent white spot lesions (WSLs). The objective of this study was to evaluate by Raman microscopy the preventive effect of an orthodontic adhesive modified with AgNPs on the formation of WSLs. Material and Methods: AgNPs were added in four concentrations (0.05%, 0.1%, 0.5%, and 1%) to an orthodontic adhesive. Metal brackets were bonded with the experimental adhesives, and the specimens were subjected to a microbial model for caries induction. The preventive effect on the formation of WSLs was evaluated by Raman microscopy, considering the intensity peak of the phosphate ion at 960 cm-1. The acquisition mode was linear scanning in the most representative lesion area, with a length of 136µm. Intensity values expressed the relative amount of phosphate ions remaining in the lesion. Microphotographs were analyzed in the Image J program to assess the depth of the lesions. Results: Significant differences were observed between all groups (P <0.05). The addition of 1% AgNPs effectively maintained the relative amount of phosphate ions close to sound enamel values. Furthermore, as the concentration of AgNPs increased, the depth of the lesions decreased. Conclusions: AgNPs were effective in decreasing the formation of WSLs. At a higher concentration of AgNPs, a more significant preventive effect on the formation of WSLs results in a relative amount of phosphate ion close to sound enamel values. Key words:White spot lesions, antibacterial, orthodontics, Raman microscopy, adhesive, Silver-nanoparticles.
RESUMO
BACKGROUND: There are different etching gels available, which have different composition, different pH, and different viscosity, and there is little information in the literature comparing all these products. OBJECTIVE: To evaluate the mean microshear bond strength and morphological characteristics of tooth enamel by evaluating different phosphoric acids combined with a universal adhesive system. MATERIALS AND METHODS: Eighty-four enamel samples were used, which were divided according to the acid conditioning: G1: Scotchbond Etchant (3M Oral Care), G2: Ultra-Etch (Ultradent), G3: Eco-Etch (IvoclarVivadent), G4: ETCH-37 with BAC (Bisco), G5: Etching gel (Densell), G6: Condac 37 (FGM), and G7: Scotchbond Universal Adhesive (3M Oral Care) in self-etch mode. For the adhesive procedure, Scotchbond Universal Adhesive was the one used as indicated the manufacturer's instructions, 0.9-mm-diameter resin cylinders were placed. The microshear bond strength test was performed after being stored for 24 hours in water. The morphological characteristics of tooth enamel were analyzed using the Raman confocal microscope alpha300RA. The analysis of variance (ANOVA) test and Tukey post-test were used to analyze the differences between the groups. RESULTS: The mean microshear bond strength values obtained for groups 1, 4, 5 were significantly greater than groups 2, 3, 6 and 7 (p < .05). All groups presented demineralization after the application of the etching acid, and few signs of demineralization were evident in group 7. CONCLUSIONS: Acid-etching with ETCH-37 with BAC, Etching gel, and Scotchbond Etchant improved the adhesive strength in the enamel using an universal adhesive, and acid-etching with Condac 37, Ultra-Etch, and Eco-Etch provides similar adhesive strength values to self-etch mode of universal adhesive. CLINICAL SIGNIFICANCE: All acid etchants should be considered as different. The test confirms that enamel etching prior to the application of a universal adhesive system depends on the selected acid etchand product.