Subgroup U (no pre-treatment): Rely X Unicem resin cement Subgro

Subgroup U (no pre-treatment): Rely X Unicem resin cement. Subgroup GU: G-Bond then Rely X Unicem. Subgroup ZU: Zinc-Zeolite pretreatment then Rely X Unicem. Shear bond strength was determined using a compressive mode of force applied at the dentin/alloy interface using a monobevelled chisel-shaped metallic rod. Data were collected and statistically analyzed to assess

the effect of alloy type, pretreatment modality, and their interactions on the shear bond strength. Scanning electron microscopic examination (1000×) at the dentin/resin Maraviroc order interface was performed. Two-way ANOVA was used in testing significance for the effect of pretreatment, alloy, and their interaction. Duncan’s post hoc test was used for pairwise comparison between the means when the ANOVA test was significant. The significance level was set at p≤ 0.05. Statistical analysis was performed with SPSS 15.0®. Results: Regarding the pretreatment modality, the mean shear bond strength and 95% CI of subgroups ZU (18.00 MPa; 16.8 to 19.2) and GU (16.91 MPa; 15.4 to 18.4) were significantly higher than subgroup U (12.81 MPa; 11.4 to 14.2). Regarding the alloy type, the mean shear bond strength and 95% CI of Ni-Cr groups (18.39 MPa; 16.9 to 19.9) were significantly

higher than Au-Pd (15.33 MPa; 13.8 to 16.8) and Pd-Ag (13.99 MPa; 12.3 to 15.7). Conclusions: Pretreatment of dentin with G-Bond and Zinc Zeolite improved the dentin/alloy shear bond strength. Base metal alloys provided superior bond strength values with any adhesive modality compared to noble alloys. Treatment of the dentin surface prior to the application of a self-adhesive system is of great importance Everolimus supplier to enhancement of the dentin/alloy bond strength. “
“This study aimed to evaluate

the micro push-out (μ-PO) bond strength between zirconia and resin cement after addition of zirconia particles to increase the surface roughness. Y-TZP zirconia specimens in three experimental groups were subjected to Y-TZP particle deposition via dipping into the milling residue suspension at different times prior to the sintering process. The dipping procedure was repeated twice for each specimen in group B, six times in group C, and ten times in group D. 上海皓元 The specimens subjected to airborne-particle abrasion (110 μm Al2O3, Rocatec Pre) acted as the control group (group A). All of the specimens were then bonded using adhesive resin cement (RelyX Ultimate). A μ-PO test was used to determine the bond strength values. One-way ANOVA at a 5% confidence level was performed for data analysis. Optical microscopy and scanning electron microscopy (SEM) were used to evaluate the failure modes and surface structure. Y-TZP particle deposition did not have a significant effect on the bond strength of the resin cement to zirconia specimens when compared to the control (p = 0.141). Higher bond strength values were observed in groups C and D than in control.

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