Aim
The aim of this study was to compare the bonding strength of dental materials in buffalo (
Bubalus bubalis var. kerebau
), bovine, and human enamel and the susceptibility of these substrates in acid etching.
Materials and methods
A total of 20 human third molars, 20 bovine incisors, and 20 buffalo incisors were used in a mechanical assay of microshear. The substrates were demineralized via conditioning with 37% phosphoric acid, and the ultra-morphological pattern of each substrate was analyzed by scanning electron microscopy.
Results
The results showed that there was no significant difference in adhesive bonding strength values between buffalo and human enamel (
P
≥0.05), with a fracture pattern of mixed type for all experimental groups.
Conclusion
The results indicate that buffalo enamel is similar to human dental substrate in tests of adhesive bonding strength and also show a similar behavior in the acid conditioning of the enamel.
The ethanol wet-bonding technique (EWBT) was introduced in an attempt to overcome the problems caused by high hydrophilicity and/or incomplete penetration of most commercially available adhesive systems. This strategy provides better conditions for the inter-diffusion of hydrophobic dentin monomers. Today, there are many EWBT protocols, which yield bonding interfaces with minimal degradation and longer durability compared with commercial hydrophilic adhesive systems. The aim of this review is to discuss in greater detail the EWBT, focused on the following aspects: dentin saturation, hydrophobic primer preparation, inactivation of metalloproteinases (MMPs), dentin biomimetic remineralization and the clinical perspectives of this technique. The present review on the EWBT provides support for a better understanding of the behavior of dentin when exposed to dehydration and hydrophobic monomer interaction. Moreover, additional studies are suggested to investigate the long-term stability of this type of hybrid layer.
This study aimed to evaluate the effects of 22% carbamide peroxide combined with an erosive challenge and simulated brushing on enamel. Bovine incisor teeth were divided into G1, tooth bleaching; G2, tooth bleaching + erosive challenge; and G3, tooth bleaching + erosive challenge + simulated brushing, and evaluated at T0, before any intervention; T1, 14 days after the proposed treatments; and T2, 28 days after the proposed treatments. Tooth bleaching was performed daily for 1 h for 28 days. The microhardness, surface roughness, mass variation, and ultrastructure were analyzed at T0, T1, and T2. Two-way analysis of variance for repeated measures was performed and Tukey’s post hoc test (α = 5%) was used. The surface roughness increased in groups G2 and G3 as a function of time, whereas microhardness and mass measurements demonstrated a significant reduction for groups associated with challenges. Ultrastructural evaluation indicated a loss of the aprismatic layer and exposure of the enamel prisms in all groups after 14 days of bleaching, with more pronounced results in G2 and G3 after 28 days. In conclusion, abrasive and erosive challenges potentiated the deleterious effects of tooth whitening on microhardness, ultramorphology, and mass, without affecting the roughness of dental enamel.
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