Microtensile bond strength and interfacial characterization of 11 contemporary adhesives bonded to bur-cut dentin

Abstract

Objectives: This study evaluated mechanically and ultra-morphologically 11 different adhesive systems bonded to dentin. Methods: The microtensile bond strength (μTBS) of 11 contemporary adhesives, including two three-step etch&rinse, three two-step etch&rinse, two twostep self-etch and four one-step self-etch adhesives to dentin, were measured. The resultant interfacial ultra-structure at dentin was characterized by transmission electron microscopy (TEM). Human third molars had their superficial dentin surface exposed, after which a standardized smear layer was produced using a mediumgrit diamond bur. The selected adhesives were applied according to their respective manufacturer's instructions for μTBS measurement after storage in water at 37°C for 24 hours or for TEM interfacial characterization. Results: The TBS varied from 11.1 to 63.6 MPa; the highest bond strengths were obtained with the three-step etch&rinse adhesives and the lowest with onestep self-etch adhesives. TEM evaluation showed very different interaction patterns, especially for the self-etch adhesives. "Mild" self-etch adhesives demineralized the dentin surface sufficiently to provide micro-mechanical retention, while preserving hydroxyapatite within the hybrid layer to enable additional chemical interaction. Conclusions: When bonded to dentin, the adhesives with simplified application procedures (in particular, one-step self-etch adhesives) still underperform as compared to conventional three-step adhesives. "Mild" two-step self-etch adhesives that provide additional chemical bonding appear to most optimally combine bonding effectiveness with a simplified application protocol. © Operative Dentistry.