Litcius/Paper detail

Influence of 38% silver diamine fluoride application on bond stability to enamel and dentin using universal adhesives in self‐etch mode

Mark D. Markham, Akimasa Tsujimoto, Wayne W. Barkmeier, Carlos A. Jurado, Nicholas G. Fischer, Hidehiko Watanabe, A. Baruth, Mark Latta, Franklin Garcı́a-Godoy

2020European Journal Of Oral Sciences28 citationsDOI

Abstract

In order to evaluate the influence of 38% silver diamine fluoride (SDF) application on enamel and dentin bond stability of universal adhesives in self-etch mode, a 38% SDF and three universal adhesives were used in this study. Initial shear bond strength (ISBS), fatigue bond strength (FBS), and shear bond strength of survivors (SBSS) to enamel and dentin of universal adhesives in self-etch mode, with and without SDF application, were determined. SDF was applied to the polished enamel or dentin surface for 1 min, water-rinsed and air-dried for comparison with controls. The universal adhesives were applied to the prepared samples and composite resin was bonded using a mold-enclosed method. Enamel bond stability of universal adhesives with SDF (ISBS: 14.7-20.4 MPa; FBS: 5.5-7.4 MPa and SBSS: 14.4-21.5 MPa) was significantly weaker than those without SDF (ISBS: 28.0-29.2 MPa; FBS: 12.1-15.6 MPa and SBSS: 28.4-34.4 MPa). Dentin bond stability with SDF (ISBS: 14.8-20.9 MPa; FBS: 7.1-8.2 MPa and SBSS: 17.3-21.8 MPa) was also significantly weaker than without SDF (ISBS: 19.3-36.1 MPa; FBS: 11.0-13.7 MPa and SBSS: 22.2-34.6 MPa). The results suggest that SDF application on enamel and dentin reduces the bond stability of universal adhesives in self-etch mode.

Topics & Concepts

Enamel paintDentinAdhesiveBond strengthComposite materialMaterials scienceShear strength (soil)Universal testing machineDentistryUltimate tensile strengthLayer (electronics)Soil scienceEnvironmental scienceSoil waterMedicineDental materials and restorationsDental Erosion and TreatmentDental Research and COVID-19