Effect of casein phosphopeptide-amorphous calcium phosphate, Riva Star, and Moringa oleifera-based nano-silver fluoride on caries affected dentin remineralization bonded to composite resin.

OBJECTIVE

This study aims to assess the effects of the most recent remineralizing agents, casein phosphopeptide-amorphous calcium phosphate (CPP-ACP), CO2 laser irradiation + topical fluoride (CO2 laser + TF), and Nanosilver fluoride - M. oleifera (NSF-MOLE), on the shear bond strength (SBS) and bond failure between resin composite and remineralized caries affected dentin (CAD).

MATERIALS AND METHODS

Fifty human molars with occlusal caries reaching approximately halfway through the dentin were immersed in a 4% thymol solution. The infected dentin was removed using an excavator and the CAD surface was exposed. The sample was allocated into five groups (n=10) based on the remineralizing agent applied. Group 1: no remineralizing agent, group 2: CPP-ACP, group 3: Riva Star, group 4: NSF:MOLE, and group 5: (CO2 laser + TF). The shear bond testing procedure was conducted utilizing a universal testing machine and a stereo-microscope was used to study the failure pattern. The researchers utilized a one-way analysis of variance. The Tukey post hoc test was conducted for multiple comparison tests.

RESULTS

Group 4 (NSF-MOLE) (13.77±1.94 MPa) treated testers recognized the highest bond values of tooth color restoration to the CAD surface. Nonetheless, group 1 test samples with no mineralization unveiled the minimum outcome of bond integrity (9.12±1.14 MPa). Intergroup comparison exploration showed that group 2 (CPP-ACP), group 4 (NSF-MOLE) (13.77±1.94 MPa), and group 5 (CO2 laser + TF) established comparable values of SBS. Furthermore, group 3 (Riva Star) displayed better SBS than group 1 but lower than group 2, group 4, and group 5.

CONCLUSIONS

Remineralization of CAD using modern regimes (CPP-ACP, NSF-MOLE, and CO2 laser + TF has the potential to be used to enhance the bond strength of CAD to composite restoration.