This study evaluated the influence of
fluoride-containing
carbamide peroxide (CP)
bleaching agents and adhesive systems on bonded enamel interfaces that are part of the dynamic pH cycling and thermal cycling models. The buccal surfaces of 60 bovine incisors were restored with a
composite resin and bonded with three- and two-step, etch-and-rinse,
fluoride-containing adhesives,
Optibond FL (FL) and
Optibond Solo Plus (SP), respectively. Restored teeth were subjected to thermal cycling to age the interface. Both SP and FL adhesive-restored teeth were bleached (n = 10) with 10% CP (CP) and 10% CP +
fluoride (CPF) or were left unbleached (control). Bleaching was performed for 14 days simultaneously with pH cycling, which comprised of 14 h of remineralization, 2 h of demineralization and 8 h of bleaching. The control groups (FL and SP) were stored in remineralizing
solution during their bleaching periods and were also subjected to
carious lesion formation. Parallelepiped-shaped samples were obtained from the bonded interface for microtensile bond strength (μTBS) testing. The enamel μTBS of the FL and SP groups (control, not bleached) were higher (p < 0.05) than those of the bleached interfaces (FL > FL + CPF = FL + CP and SP > SP + CPF = SP + CP). The groups subjected to treatment with the
fluoride-containing
bleaching agents exhibited similar μTBS compared to regular
bleaching agents.
Bleaching agents, regardless of whether they contained
fluoride, decreased enamel bond strength.