Shear bond strength to enamel of primary teeth irradiated with varying Er:YAG laser energies and SEM examination of the surface morphology: an in vitro study.

OBJECTIVE: This study aimed to assess in vitro the influence of Er:YAG laser energy on the shear bond strength of a total-etch adhesive system to lased enamel of primary teeth, and to observe by SEM the morphological appearance of laser-ablated enamel surfaces. MATERIALS AND METHODS: For the SBS test, primary canines were assigned to four groups (n = 12): a control (G1) and three groups irradiated with different Er:YAG laser energies- 60 mJ/2 Hz (G2), 80 mJ/2 Hz (G3), and 100 mJ/2 Hz (G4). In all groups, enamel surfaces were acidetched, Single Bond was applied, and resin cylinders were fabricated from Z250 resin. Bond strength was tested in shear (0.5 mm/min). For morphological analysis, 21 specimens were irradiated using the same energies, with or without acid-etching, and observed by SEM. RESULTS: SBS means, in MPa, were: G1-14.28 (+/-3.24); G2-18.48 (+/-4.58); G3-17.82 (+/-4.38); G4-16.59 (+/-5.40). Overall, Er:YAG laser ablation of primary teeth enamel, prior to the adhesive protocol, influenced the shear bond strength. Bond strengths recorded after irradiation with energies of 60 and 80 mJ were statistically similar among them (p > 0.05), and both were superior to those yielded by the acid-etched control group (p < 0.05). No significant difference (p < 0.05) was found between bond strengths recorded for control specimens and those irradiated with 100 mJ. SEM analysis revealed that the increase of laser energy resulted in increasingly uneven and microroughened surfaces, regardless of acid-etching association. CONCLUSIONS: The favorable results of the present study suggest that Er:YAG laser irradiation may be a viable approach for the preparation and treatment of primary teeth enamel prior to the placement of adhesive restorative systems.

Bond strength to dentin of primary teeth irradiated with varying Er:YAG laser energies and SEM examination of the surface morphology.

BACKGROUND AND OBJECTIVES: This study aimed to assess in vitro the influence of Er:YAG laser energy on the shear bond strength of a total-etch adhesive to lased dentin of primary teeth, and observe under SEM the morphological appearance of laser-ablated dentin surfaces. STUDY DESIGN/MATERIALS AND METHODS: For SBS, specimens were irradiated with the energies 60 mJ/2 Hz (G2), 80 mJ/2 Hz (G3), 100 mJ/2 Hz (G4). Control (G1) was not irradiated. Dentin surfaces were acid-etched, Single Bond adhesive (3 M) was applied, and resin cylinders were fabricated from Z250 resin (3 M). Bond strength was tested in shear (0.5 mm/min). For morphological analysis, specimens were irradiated using the same energies, either or not acid-etched, and observed by SEM. RESULTS AND CONCLUSIONS: SBS means, in MPa, were: G1-17.89(+/-4.75); G2-12.34(+/-4.85); G3-10.30(+/-3.67); G4-10.41(+/-4.20). Overall, Er:YAG laser irradiation of primary teeth dentin, prior to the adhesive protocol, adversely affected bond strength. Furthermore, it was noticed that even though there was no significant difference among the Er:YAG laser-treated groups, the increase of laser energy resulted in increasingly cratered surfaces, regardless of acid-etching association.