期刊
EUROPEAN JOURNAL OF ORAL SCIENCES
卷 130, 期 5, 页码 -出版社
WILEY
DOI: 10.1111/eos.12890
关键词
focused ion beam; humans; in vitro techniques; materials testing; surface properties
资金
- Colgate Australia
- Post-graduate Research Fund from the School of Dentistry, The University of Queensland
In this study, the adhesion between dentine and adhesives was investigated using micro-CT and Xe PFIB-SEM. The results showed that adhesive durability was not affected by different depths and locations, although microscopic differences were observed.
Glass ionomer (GI) cements and self-etch (SE) or universal adhesives after etching (ER) adapt variably with dentine. Dentine characteristics vary with depth (deep/shallow), location (central/peripheral), and microscopic site (intertubular/peritubular). To directly compare adhesion to dentine, non-destructive imaging and testing are required. Here, GI, ER, and SE adapted at different dentine depths, locations, and sites were investigated using micro-CT, xenon plasma focused ion beam scanning electron microscopy (Xe PFIB-SEM), and energy dispersive X-ray spectroscopy (EDS). Extracted molars were prepared to deep or shallow slices and treated with the three adhesives. Micro-CT was used to compare changes to air volume gaps, following thermocycling, and statistically analysed using a quantile regression model and Fisher's exact test. The three adhesives performed similarly across dentine depths and locations, yet no change or overall increases and decreases in gaps at all dentine depths and locations were measured. The Xe PFIB-SEM-milled dentine-adhesive interfaces facilitated high-resolution characterization, and element profiling revealed variations across the tooth-material interfaces. Dentine depth and location had no impact on adhesive durability, although microscopic differences were observed. Here we demonstrate how micro-CT and Xe PFIB-SEM can be used to compare variable dental materials without complex multi-stage specimen preparation to minimize artefacts.
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