Micro-CT Evaluation of Non-instrumented Canal Areas with Different Enlargements Performed by NiTi Systems

The aim of this study was to compare the percentage of non-instrumented area of root canals prepared with different enlargements using single-file reciprocating systems (Reciproc and WaveOne) and a conventional multi-file rotary (BioRaCe) system by micro-computed tomographic analysis. Thirty mesial roots of mandibular molars with moderate curvature (10° to 20°) presenting a type II Vertucci canal configuration and similar internal volume were chosen and scanned at an isotropic resolution of 14.16 µm. The sample was assigned to 3 groups (n=10) according to the system used for root canal preparation: Reciproc, WaveOne, and BioRaCe groups. Second and third scans were taken after the canals were prepared with instruments sizes 25 and 40, respectively. The recorded images of the surface area voxels of the canals, before and after preparation were examined from the furcation level to the apex to quantify the non-instrumented surface. Statistical data were compared using GLM for repeated-measures with a significance level set at 5%. Instrumentation systems did not influence the percentage of untouched root canal surfaces (p=0.690) whilst a significant reduction in the percentage of static voxels was observed after the enlargement of the root canal (p=0.010) in all groups (p=0.507). None of the systems was able to prepare the entire surface area of the mesial root canal of mandibular molars. The increased final apical size resulted in a significant positive effect on the shaping ability of the tested systems.

Resumo O objetivo deste estudo foi comparar a porcentagem de área não-instrumentada de canais radiculares preparados com diferentes ampliações utilizando sistemas reciprocantes de lima única (Reciproc e WaveOne) e um sistema rotatório convencional de múltiplas limas (BioRaCe) usando a análise da micro tomografia computadorizada. Trinta raízes mesiais de molares inferiores com curvatura moderada (10º a 20º) apresentando a configuração classe II de Vertucci e semelhança de volume do canal foram selecionadas e escaneadas em uma resolução isotrópica de 14,16 µm. A amostra foi dividida em 3 grupos (n=10) de acordo com o sistema utilizado para a preparação do canal radicular: grupo Reciproc, grupo WaveOne e grupo BioRaCe. Segundo e terceiro escaneamentos foram realizados após os canais serem preparados com instrumentos tamanhos 25 e 40, respectivamente. As imagens registradas de voxels da área de superfície dos canais, antes e após o preparo, foram examinadas desde o nível da furca até o ápice para quantificar a superfície não instrumentada. Os dados foram comparados estatisticamente através de GLM para medidas repetidas com um nível de significância de 5%. Os sistemas de instrumentação não influenciaram o percentual de superfícies não tocadas dos canais radiculares (p=0,690), enquanto que uma redução significativa no percentual de voxels estáticos foi observada após o alargamento do canal radicular (p=0,010) em todos os grupos (p=0,507). Nenhum dos sistemas foi capaz de preparar toda a área de superfície do canal mesial dos molares inferiores. O aumento do tamanho final apical resultou num efeito positivo significativo sobre a capacidade de modelar dos sistemas testados.

Dental bleaching agents with calcium and their effects on enamel microhardness and morphology

Aim: To evaluate enamel microhardness and morphology after bleaching with hydrogen peroxide containing calcium in different concentrations. Methods: One hundred specimens of human teeth were ground and polished and had the initial microhardness evaluated. The specimens were randomly assigned into five groups (n=20): Group 1 - Control group (no treatment); Group 2 - Home Peroxide 6% (without calcium); Group 3 - Home Peroxide 7.5% (without calcium); Group 4 - White Class 6% (with calcium); Group 5 - White Class 7.5% (with calcium). For each group, the bleaching was performed according to the manufacturer's specifications. The specimens were bleached once a day for 5 days and subjected to pH cycling. Microhardness and scanning electron microscopy (SEM) analysis were performed before and after bleaching. Results: The results showed that groups submitted to bleaching treatment presented hardness loss compared to the control group. The group of 7.5% hydrogen peroxide with calcium showed a lower percentage of hardness loss in relation to other groups. Conclusion: Calcium in association with a higher hydrogen peroxide concentration may decrease microhardness changes on enamel.

Mechanical and microstructural properties of a nickel-chromium alloy after casting process

Introduction: There is a growing concern on the development of adequate materials to interact with the human body. Several researches have been conducted on the development of biomaterials for dental applications. Objective: This study aimed to determine the microstructural and mechanical properties of a nickel- based alloy, after the casting process. Material and methods: The alloy was melted through lost wax technique and centrifugation, by using blowtorch with liquefied petroleum gas. To evaluate the mechanical properties, tensile bond strength and microhardness tests were performed. The microstructural characterization was performed using scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). Statistical analyses were performed on microhardness results, through Student t test. A program for digital image processing was used to determine the percentage of the existing phases. Results and Conclusion: The tensile strength was higher than that reported by the manufacturer, 559.39±25.63MPa versus 306 MPa, respectively. However, the yield strength was slightly lower, 218.71±29.75 MPa versus 258 MPa, reported by the manufacturer. The microhardness tests showed about 70 HV, far above the value informed by the manufacturer (21 HV). It can be affirmed with 95% confidence interval that the casting process did not alter the material's hardness. The alloy's microstructure is formed by a matrix with dendritic aspect and gray color and a second white interdendritic phase with equally distributed precipitates as well as porosities. EDS tests showed that the matrix is rich in nickel and chromium, the interdendritic second phase is rich in molybdenum and the precipitates in titanium or silicon. The matrix represents 86% of the area and the second phase 12%.

Influência do processo de fabricação de reconstruções metalocerâmicas na microestrutura de liga níquel-cromo / Manufacture process of metal-ceramic reconstructions influence on the nickel-chromium alloy microestructure

Introdução: Durante a fabricação de reconstruções dentárias, que utilizam sistemas metalocerâmicos, é utilizado um tratamento térmico para promover a adesão da porcelana ao metal. Entretanto, sabe-se que tratamentos térmicos podem alterar a microestrutura do material metálico, modificando suas propriedades. Objetivo: Este trabalho objetivou avaliar as possíveis modificações causadas na microestrutura de liga à base de níquel-cromo utilizada para reconstruções metalocerâmicas, quando a mesma é submetida ao tratamento térmico para adesão da porcelana.Material e método: O material pesquisado foi dividido nos grupos CR, F e TT, que representam, respectivamente, o material como recebido do fabricante, o material apenas submetido ao processo de fundição e o material após fundição e tratamento térmico. Os grupos CR e F foram submetidos à análise química quantitativa. A caracterizaçãomicroestrutural dos três grupos foi realizada através da técnica de microscopia eletrônica de varredura, com um sistema de Energy Dispersive Spectroscopy. Técnicas de análise e processamento digital de imagens foram aplicadas às micrografias dos grupos F e TT, para determinação de possíveis modificações quantitativas nas fases presentes. Resultado: A microestrutura da liga era formada por uma matriz de estrutura dendrítica de coloração cinza, rica em níquel; uma segunda fase interdendrítica de coloração branca e aspecto rendilhado, rica em molibidênio, e precipitados de coloração preta, podendo ser ricos em silício ou titânio. Também foram identificadas porosidades.Conclusão: A microestrutura após o processo de fundição apresentou um tamanho da fase interdendrítica menor. Não foram identificadas mudanças na microestrutura e na composição química das fases após o tratamento térmico.

Introduction: Manufacturing process of metal-ceramic dental reconstructions systems includes heat treatment to promote adhesion of the porcelain in the metal. However, it is known that heat treatment can promote changes in the microstructure of metallic materials, thereby affecting their properties. Objective: This work evaluated themicrostructure stability of dental quality nickel base alloy submitted to the heat treatment aiming at achieving porcelain adhesion. Material and method: The samples divided into three sets, CR, F and TT, representing,respectively, the material received from the manufacturer, the material just before the casting process and the material after casting end heat treatment. The CR and F sample sets were submitted to quantitative chemical analysis. The samples of CR, F and TT sets was submitted to the microstructural characterization by scanning electron microscopy and energy dispersive spectroscopy. Digital images processing techniques were applied to micrographics of F and TT sets to determine the changes in the material microstructure before and after heat treatment. Result: The alloy microstructure exhibits a gray dendritic structure in a clear matrix, rich in nickel, and a white inter-dendritic second phase, rich in molybdenum, with scattered precipitates, rich in titanium or silicon,and porosity. Conclusion: The microstructure has an average size of the interdendritic phase less than the alloy after casting. Changes in the microestructure and in the chemical composition of each phase were not identified, whether before nor after thermal treatment.