Abstract

The stability of current dental adhesives after artificial aging may depend on the adhesion strategy. To evaluate the effect of thermal fatigue and water storage on the dentin microtensile bond strengths (µTBS) of four adhesion strategies. Forty-eight human molars were assigned to four dentin adhesives: FL--OptiBond FL (Kerr Corporation, Orange, CA, USA); SOLO--OptiBond SOLO Plus (Kerr Corporation); XTR--OptiBond XTR (Kerr Corporation); and AIO--OptiBond All-in-One (Kerr Corporation). Teeth were restored with a hybrid composite, and sectioned to obtained bonded beams. For each adhesive, one-third of the central and peripheral beams were assigned to one of three aging conditions: (1) kept in distilled water for 24 hours (24 h); (2) thermocycled (TC) for 20,000 cycles; and (3) stored in distilled water for 6 months (6M). Beams were tested in tension mode. Statistical analysis (p < 0.05) was computed using Analysis of Variance and Fisher's Least Significant Difference post hoc test. The highest mean µTBS for 24 h, TC, and 6M were obtained with XTR, but only the 6M mean µTBS were significantly higher than those of the other three adhesives. For FL, mean µTBS decreased significantly from 24 h to TC. For SOLO, mean µTBS remained stable over the three aging conditions. Mean µTBS for AIO decreased significantly from 24 h to 6M. The self-etch adhesives XTR and AIO performed similarly or better than the etch-and-rinse adhesives FL and SOLO for all three testing conditions. Their aging stability seems to be material-dependent.

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