ABSTRACT
Aim: To evaluate the marginal fit of protocol bars milled from digital models obtained by conventional molding followed by bench scanning or digital molding with an intraoral scanner. Methods: Four morse-cone implants and the mini-pillars were installed in a 3D printed mandible model (master model). Digital models of the master model were obtained by (n=10): (Group A - Conventional) conventional (analog) molding of the master model followed by bench scanning or (Group B - Digital) molding of the master model with an intraoral scanner. All-on-four protocol bars were designed and milled from the digital models for both groups and screwed into the master model. Scanning electron microscopy (SEM) images from the distal, central, and mesial regions of each implant were obtained and the implant-protocol bar marginal fit was measured in an image software (Image J). The mean misfit of each region was analyzed by two-factor ANOVA, Tukey test, and Student's t-test (0,05 = 0.05). Results: The digital approach (B) showed higher misadaptation than the conventional approach (A, p < 0.05), regardless of the region evaluated. In group A, the central region showed higher maladjustment than the mesial region (p<0.05), however, there were no differences among regions of group B (p>0.05). Conclusion: The conventional method of acquiring digital models using the bench scanner produced bars for the All-On-Four protocol with better marginal fit than the digital models obtained with an intraoral scanner
Subject(s)
Microscopy, Electron, Scanning , Dental Implants , Computer-Aided DesignABSTRACT
O objetivo do presente estudo foi avaliar três diferentes tipos de soldagem: Chama Direta a maçarico (convencional\brasagem), Solda Mista representada por fixação de dois pontos (Solda Elétrica Fixator - Kernit, Brasil), e completada com solda convencional, e o método de Solda a Laser (Soldadora Desktop - Sisma LM 500, Itália). Dois implantes plataforma Bränemark 4.1 mm (Neodent, Curitiba/Brasil) foram fixados em uma matriz de alumínio para simular uma ponte fixa implanto-suportada de três elementos. Os espécimes foram obtidos a partir de um bloco de cera CAD-CAM (Ceramill-Amammgirrbarch). Trinta e duas UCLAs hexágono externo foram fresadas e posteriormente unidas a uma barra pré-fabricada em cera com 2,5mm. Os corpos de prova foram fundidos em liga de cobalto-cromo simulando uma prótese fixa de três elementos. Esses espécimes foram divididos aleatoriamente e separados em três grupos (n=6): grupo A (solda chama direta), grupo B (solda mista), grupo C (solda laser). Os espécimes foram seccionados ao meio e unidos com resina acrílica para simular uma soldagem em prótese fixa. Os corpos foram soldados e tratados de acordo com a proposição. Após a soldagem os corpos de prova foram usinados e levados ao teste de flexão na técnica de três pontos. Os dados foram submetidos aos testes estatísticos de Tukey. Os cálculos estatísticos foram conduzidos adotando-se o nível de significância de 5% (α = 0,05). Houve diferença estatisticamente significativa entre os grupos soldados. Os resultados demonstraram valores mais elevados nos grupos A e B, solda convencional e solda mista, e menor valor no grupo C, solda a laser. No entanto, considerando a metodologia aplicada, a solda a laser mostrou uma menor resistência flexural comparada à soldagem convencional e mista, e a fixação prévia de solda elétrica com complemento de solda convencional (solda mista) não alterou a resistência flexural, produzindo resultado semelhante à solda convencional
The objective of this study was to evaluate three different types of welding, blowtorch; (conventional/brazing), welder Joint; represented by securing two points (Arc Welding Fixator - Kernit, Brazil), and supplemented with conventional welding), and Laser welding method (welder Desktop - Sisma LM 500, Italy). Two implants Bränemark 4.1 mm platform (Neodent, Curitiba/Brazil) were fixed in an aluminum matrix. Specimens were obtained from a CAD-CAM wax block (Ceramill - Amammgirrbarch) were milled 32 UCLAs (external hexagon, Bränemark platform), and subsequently joined to a prefabricated bar also wax 2.5 mm, the specimens were casted in cobalt-chromium alloy. These specimens were randomly divided and separated into 3 groups: group A (welding direct flame), Group B (mixed welding), C (laser welding), with 6 samples for each group. The specimens of each group were cut in half to simulate a fixed prosthesis in welding, and put together with acrylic resin. The bodies were welded and treated according to the statement. After the specimens were welded, they were manually grinded and submitted to the 3 points bending test technique. Data were subjected to statistical tests of Tukey. Statistical calculations were performed adopting the significance level of 5% (α = 0.05), using SPSS 20 (SPSS Inc., Chicago, IL, USA). There were differences between the soldered groups. The data showed the highest values obtained in groups A and B, conventional welding and soldering joint, and lower in group C, the laser welding. However, within the applied methodology, the laser welding showed a lower flexural strength compared to conventional and mixed welding, and that the advance fixing of electric welding, conventional welding complement (mixed welding), does not change its flexural strength, producing results similar to conventional welding
Subject(s)
Dental Implants , Dental Soldering , Lasers , WeldingABSTRACT
O objetivo deste estudo foi avaliar as influências acarretadas pelo tratamento das superfícies das zircônias com primer apropriado na resistência de união entre cimento resinoso e uma cerâmica de Zircônia. foram utilizados 20 corpos de prova em Zircônia VIPI BLOCK ZIRCONN (VIPI, São Paulo, Brasil) divididos em 2 grupos: Grupo 1 tratamento de superfície da zircônia apenas com jateamento de óxido de alumínio e cimento resinoso PanaviaTF 2.0 (Kuraray, Kurashiki, Japão); e Grupo 2 além do jateamento usou-se o primer Ceramic Primer (3M, São Paulo, Brasil). Os espécimes cerâmicos receberam o cimento manipulado na proporção de 1:1 e foram estocados em água destilada a 37ºC por 24 horas antes e após a termociclagem. O ensaio de cisalhamento foi realizado em máquina de ensaios EMIC DL2000 (EMIC, São Paulo, Brasil), os valores de resistência de união foram apresentados em Mpa e analisados através de Análise de Variância (ANOVA) e teste t Student para amostras independentes. Os valores resistência ao cisalhamento entre cimentos e cerâmica à base de zircônia utilizando os primers mencionados não foram estatisticamente diferentes, isto é, nenhuma diferença significativa foi encontrada entre os grupos G1 (8,70 ± 6,31) e G2 (8,18 ± 3,75). Os testes realizados com o primer não mostraram aumento considerável na resistência de união ao cisalhamento entre cimentos e cerâmica à base de zircônia.
The aim of this study was to evaluate the influence of the use of primer to treat zirconia surfaces on the bond strength between resin cement and zirconia ceramics. The 20 specimens were divided into 2 groups: group 1 zirconia surface treatment with sandblasting with aluminum oxide and Panavia T f 2.0 (Kuraray); Group 2 in addition to the sandblasting Ceramic Primer (3M) was used. Each specimen of the ceramic material received manipulated cement in the proportion 1:1. The specimens were stored in distilled water at 37 ° C for 24 hours before and after thermocycling. Shear test was performed in testing EMIC DL2000 (EMIC, São Paulo, Brazil) and the values of bond strength in MPa were analyzed using Analysis of Variance (ANOVA) and Student t test for independent samples machine. There was no significant difference between the values for shear strength between both studied groups: G1 (8.70 ± 6 groups, 31) and G2 (8.18 ± 3.75). The tests performed with the primer used in this study showed no significant increase on shear bond strength between cement and ceramics based on zirconia.