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    Characterization of Contemporary Conventional, Bulk-fill, and Self-adhesive Resin Composite Materials

    Year: 2022

    Journal: Oper. Dent., Volume 47, JUL-AUG, page 392–402

    Authors: David, C.; Cuevas-Suarez, C. E.; de Cardoso, G. C.; Isolan, C. P.; de Moraes, R. R.; da Rosa, W. L. O.; Munchow, E. A.; da Silva, A. F.

    Organizations: CAPES [001]; Foundation for Research Support of the State of Rio Grande do Sul: FAPERGS [19/2551-0001639, 21/2551-00006]

    Objective: To evaluate the physical and biological properties of different types of flowable resin composites and their bonding ability to dentin, comparing the performance of self-adhesive and bulk-fill materials with a conventional control. Methods and Materials: Four flowable resin composites were tested: two self-adhesive (Y-flow [SA_YF]; and Dyad Flow [SA_DF]); one bulk-fill (Filtek Bulk Fill Flow [BF]); and one conventional composite (Opallis Flow [OF]). The microshear bond strength (mu SBS) to dentin (bovine samples) was investigated at 24 hours and 6 months of storage. The materials were also characterized by degree of conversion, cross-link density, water contact angle, color stability, and cell viability (ISO 10993-5/2009) analyses. Data were analyzed using Analysis of Variance and Tukey tests (alpha=0.05). Results: The mu SBS values were higher for control specimens at 24 hours, whereas the resin-dentin bonds were similarly distributed among the groups after aging. Adhesive failure was the most frequent pattern observed at both time intervals. SA_YF was the only material that increased the bond strength over time. Degree of conversion increased in the following order: SA_YF (28.6 +/- 1.4%) < BF (49.7 +/- 0.8%) < OF (60.0 +/- 2.0%) = SA_DF (63.6 +/- 2.3%). Cross-link density was similar among all materials. The self-adhesive composites were more hydrophilic than the other types, with BF showing the lowest water contact angle and the greatest color alteration. All resin composites had a biocompatible behavior. Conclusion: Chemical composition appeared to be an influential factor affecting the physicomechanical and biological behavior of the materials tested.
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