Surface Deterioration of Indirect Restorative Materials.

The objective of this work was to evaluate the effects of in vitro and in situ biodegradation on the surface characteristics of two resin cements and a hybrid ceramic system. One hundred and eighty specimens (4X1.5mm) of each material (Maxcem Elite, NX3 Nexus and Vita Enamic) were made and randomly distributed in twelve groups (n=15) according to the material and biodegradation method. The specimens were then submitted to the following challenges: storage in distilled water 37 ºC for 24 h or 7 days, storage for 7 days, at 37 ºC, in stimulated saliva or in situ. The in situ stage corresponded to the preparation of 15 intraoral palatal devices, used for 7 days. Each device presented 3 niches, where a sample of each materials was accommodated. Specimens from both saliva and in situ groups suffered a cariogenic challenge, corresponding to the application of a solution of 20% of sucrose, 10 times throughout each day. After each biodegradation method, the surface roughness (Ra), Vickers hardness (VHN) and scanning electron microscopy (SEM) analyzes were performed. The data collected were evaluated by Levene test, two-way ANOVA and Tukey`s test (α=5%). The in situ challenge promoted the greater biodegradation, regardless of the material. Regarding the materials, the Vita Enamic VHN was negatively affected by all biodegradation methods and the Nexus NX3 presented better performance than the self-adhesive cement tested. Therefore, within the conditions of this work, it was concluded that in situ biodegradation can affect negatively the surface characteristics of indirect restorative materials.

Surface deterioration of indirect restorative materials

Abstract The objective of this work was to evaluate the effects of in vitro and in situ biodegradation on the surface characteristics of two resin cements and a hybrid ceramic system. One hundred and eighty specimens (4X1.5mm) of each material (Maxcem Elite, NX3 Nexus and Vita Enamic) were made and randomly distributed in twelve groups (n=15) according to the material and biodegradation method. The specimens were then submitted to the following challenges: storage in distilled water 37 ºC for 24 h or 7 days, storage for 7 days, at 37 ºC, in stimulated saliva or in situ. The in situ stage corresponded to the preparation of 15 intraoral palatal devices, used for 7 days. Each device presented 3 niches, where a sample of each materials was accommodated. Specimens from both saliva and in situ groups suffered a cariogenic challenge, corresponding to the application of a solution of 20% of sucrose, 10 times throughout each day. After each biodegradation method, the surface roughness (Ra), Vickers hardness (VHN) and scanning electron microscopy (SEM) analyzes were performed. The data collected were evaluated by Levene test, two-way ANOVA and Tukey`s test (α=5%). The in situ challenge promoted the greater biodegradation, regardless of the material. Regarding the materials, the Vita Enamic VHN was negatively affected by all biodegradation methods and the Nexus NX3 presented better performance than the self-adhesive cement tested. Therefore, within the conditions of this work, it was concluded that in situ biodegradation can affect negatively the surface characteristics of indirect restorative materials.

Resumo O objetivo deste trabalho foi avaliar os efeitos da biodegradação in vitro e in situ nas características superficiais de dois cimentos resinosos e de um sistema cerâmico híbrido. Cento e oitenta espécimes (4X1,5mm) de cada material (Maxcem Elite, NX3 Nexus e Vita Enamic) foram distribuídos aleatoriamente em doze grupos (n=15) de acordo com o material e o método de biodegradação. Os espécimes foram então submetidos aos seguintes desafios: armazenamento em água destilada 37ºC por 24 horas ou 7 dias, armazenamento por 7 dias, a 37ºC, em saliva estimulada ou in situ. O estágio in situ correspondeu à preparação de 15 dispositivos intra-orais palatinos, utilizados por 7 dias. Cada dispositivo apresentou 3 nichos, onde uma amostra de cada material foi acomodada. As amostras dos grupos saliva e in situ sofreram um desafio cariogênico, correspondendo à aplicação de uma solução de 20% de sacarose, 10 vezes ao longo de cada dia. Após cada método de biodegradação, foram realizadas as análises de rugosidade superficial (Ra), dureza Vickers (VHN) e microscopia eletrônica de varredura (MEV). Os dados coletados foram analisados por meio do teste de Levene, ANOVA two-way e teste de Tukey (α=5%). O desafio in situ promoveu maior degradação, independentemente do material. Em relação aos materiais, a VHN do Vita Enamic foi afetada negativamente por todos os métodos de degradação e o Nexus NX3 apresentou melhor desempenho que o cimento autoadesivo testado. Portanto, dentro das condições deste trabalho, concluiu-se que a biodegradação in situ pode afetar negativamente as características superficiais de materiais restauradores indiretos.

CAD/CAM post-and-core using different esthetic materials: Fracture resistance and bond strengths.

PURPOSE: To evaluate the fracture resistance (FR), and push-out bond strengths (BS) of custom-made CAD/CAM post-and-cores manufactured with different esthetic materials. METHODS: 90 single-rooted extracted teeth were selected, endodontically treated and prepared to receive the posts. The specimens were randomly divided into three equal groups according to the material: hybrid ceramic Vita Enamic (HC); nano-ceramic resin composite Lava Ultimate (RC); and experimental epoxy-resin reinforced by glass-fiber (FG). The post-and-cores were manufactured using CAD/CAM and cemented using a self-adhesive resin cement (Rely X Unicem2). A subgroup of 30 specimens (n=10) was subjected to fatigue (1,000,000 cycles at 5 Hz) and then to the FR test. Another subgroup with 60 specimens was submitted to the BS test, with and without fatigue. Data were submitted to analysis of variance (FR - one-way ANOVA; BS - two-way ANOVA) and Tukey's test (α= 0.05). RESULTS: The FR values (mean±SD, in Newtons) were 414.5±83.9 (HC), 621.3±100.3 (RC), and 407.6±109.0 (FG), with RC showing significantly higher FR values (P< 0.05). For BS, there was no statistically significant difference among the materials, with and without fatigue (P> 0.05). The type of material used to obtain the CAD/CAM-customized post-and-cores had a significant effect on the FR, but not on the BS of the specimens. Fatigue did not influence the BS for the tested materials. CLINICAL SIGNIFICANCE: CAD/CAM custom-made esthetic post-and-cores showed good performance relative to fracture resistance and bond strength to root canal dentin walls. The CAD/CAM materials tested could be used as an alternative to restore wide flared root canals in esthetically compromised teeth.