• Silikas, Nikolaos
• Hipólito, Vinicius Di
• Rodrigues, Flávia Pires
• Alonso, Roberta Caroline Bruschi
• Dalpino, Paulo Henrique Perlatti
• Santos, Priscila Jaques Dos
• Bechtold, Janaina

Abstract

Objectives: To investigate the influence of the energy dose on the hardness, polymerization depth, and internal adaptation of silorane and methacrylate-based posterior composites in Class II restorations with different bonding approaches. Materials and methods: Class II preparations were made on the mesial and distal surfaces of extracted third molars and randomly distributed into 6 groups (n = 20), according to the restorative systems [methacrylate-based composite: Filtek P60 + Adper Single Bond 2 (etch-and-rinse adhesive) - P60/SB; Filtek P60 + Adper Easy One (self-etching adhesive) - P60/EO; silorane-based composite: Filtek P90 + P90 System Adhesive - P90 (self-etching adhesive)] and the energy dose (20 and 40 J/cm2). Resin composites were applied in two increments, individually photoactivated using an LED light-curing unit. After 24 h, all restorations were mesio-distally sectioned. Hardness was evaluated along the transversal section of the fillings (1-4 mm below the restoration surface) using a load of 50 g for 5 s. In order to evaluate the internal gap formation, specimens were air dried and 1% acid red propylene glycol solution was applied to the internal margins for 20 s. Specimens were then water rinsed, air dried, and digitally image recorded. The internal gap (%) was calculated as the ratio between the stained margins and the total length of the internal margin. Kruskal-Wallis test was conducted to evaluate internal gap formation, and three-way ANOVA and Tukey's test were performed to evaluate hardness/polymerization depth (α = 0.05). Results: Regarding the internal gap formation, a significant difference was observed among all groups (P60/EO <P90 <P60/SB), regardless of the energy dose. For 40 J/cm2, a significant increase in gap formation was seen for P60/EO and P90 when compared to 20 J/cm2. The KHN of both resin composites was not affected by the depth of evaluation, but the influence of the material was significant (P60 > P90; p <0.05). The highest energy dose (40 J/cm2) produced significant increase in the KHN only for Filtek P90 (p <0.05). Significance: Although a higher energy dose produces a slight increase in hardness for the silorane based composite, it also increases the internal gap formation. Dose of 20 J/cm2 seems to be more suitable as it provides reduced internal gaps and satisfactory hardness. In addition, gap formation seems to be a consequence of an underperformed bonding approach rather than the differences in the resin-composite formulation. © 2011 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.

Topics

• surface
• composite
• hardness
• etching
• resin
• curing