期刊
MICROSCOPY RESEARCH AND TECHNIQUE
卷 84, 期 2, 页码 163-170出版社
WILEY
DOI: 10.1002/jemt.23574
关键词
hybrid coating; hydraulic conductance; scanning electron microscopy; tooth erosion; toothbrushing
资金
- SAo Paulo Research Foundation-FAPESP [14/21333-4]
The study evaluated the effectiveness of novel hybrid coatings in reducing dentin permeability and their resistance to erosive and abrasive challenges. The experimental coatings showed significant reduction in dentin permeability post-treatment and post-erosion, with the advantage of forming thin, colorless films ideal for treating dentin hypersensitivity. Post-abrasion, there was no significant difference among the groups, indicating their ability to withstand abrasive challenges.
This study aimed to evaluate the capacity of novel experimental hybrid coatings (HC) to reduce dentin permeability and to verify their resistance to erosive and abrasive challenges. Dentin disc specimens (1 mm thick) were treated with 0.5 M EDTA solution and randomly allocated into three experimental groups (n= 10): Control (Saliva); Concentrated Hybrid Coating (TEOS/GPTMS/Y-APS); and Diluted Hybrid Coating (1:3 ratio with distilled water). Dentin permeability was assessed by hydraulic conductance in the following experimental time periods: post-EDTA, post treatment, post erosion (5 min in 0.05 M citric acid solution, pH = 3.8), and post abrasion (toothbrushing for 3,900 cycles). Dentin permeability percent was calculated with respect the values of post-EDTA for each experimental time. The morphology of the surface of extra dentin specimens was examined by scanning electron microscopy (SEM) in the same time periods (n= 3). Permeability data were analyzed by two-way repeated measures ANOVA and Tukey tests (p < .05). Both HC presented significantly lower dentin permeability than control post treatment and post erosion (p < .05), without difference between them (p > .05). Post abrasion, there were no significant difference among groups (p > .05). Post treatment and post erosion, the HC seemed to flow into the tubules, occluding them, while the tubules in control remained opened. Post abrasion, the tubules appear to be occluded in all groups. In conclusion, the experimental hybrid coatings were capable of reducing dentin permeability after treatment. They were also able to resist to erosive and abrasive challenges, with the advantage of forming thinner and colorless films that can be potentially used to treat dentin hypersensitivity.
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