Abstract
Background Detachment of acrylic teeth from denture base material is a common complication in dentistry which accounts for 26–30% of repair cases. This study aimed to evaluate the effect of alumina-blasting, silane coupling agent, and thermal cycling on the shear bond strength of repaired teeth to denture base. Materials and Methods Specimens (140) of repaired teeth to denture bases were fabricated and divided into 14 groups: 7 groups before thermal cycling and 7 groups after thermal cycling (n = 10). The groups were divided according to surface treatment into no treatment (control), treatment of the base (B), the tooth (T), or both (BT). Each group was further subdivided according to the surface treatment method into alumina-blasting or alumina-blasting and silane coupling agent. After treatment, acrylic discs and teeth were fixed in a jig, and the repair procedure was done. Half the specimens were thermally cycled. Shear bond strength was measured using a universal testing machine. ANOVA and Tukey HSD tests were performed at α = 0.05. Results Surface treatment significantly improved the bond strength compared to the control group (P < 0.001). Comparing surface treatments, alumina-blasting with silane coupling agent treatment resulted in significantly higher strength compared to alumina-blasting alone (P < 0.001). The BT group treated with alumina-blasting and silane coupling agent showed the highest significant shear bond strength (23.91 ± 0.96 MPa) (P < 0.001). Significant drop in strength value was observed in all groups after thermal cycling (P < 0.004) except the BT group treated with alumina-blasting (P=0.096). Conclusion Surface treatment using alumina-blasting with silane coupling agent for denture base and tooth increased repair strength.
Highlights
Detachment of acrylic teeth from denture base material is a common complication in dentistry which accounts for 26–30% of repair cases. is study aimed to evaluate the effect of alumina-blasting, silane coupling agent, and thermal cycling on the shear bond strength of repaired teeth to denture base
Each treated group was further subdivided into two groups according to the type of surface treatment: airborne alumina particle abrasion which was denoted as AB for alumina-blasting and surface treatment with silane coupling agent which was denoted as SCA (Table 1)
Looking at the type of treatment, the results showed that the combined treatment of the surfaces with alumina-blasting and SCA resulted in significantly better shear bond strength (SBS) than alumina-blasting alone for the B
Summary
Detachment of acrylic teeth from denture base material is a common complication in dentistry which accounts for 26–30% of repair cases. is study aimed to evaluate the effect of alumina-blasting, silane coupling agent, and thermal cycling on the shear bond strength of repaired teeth to denture base. Is study aimed to evaluate the effect of alumina-blasting, silane coupling agent, and thermal cycling on the shear bond strength of repaired teeth to denture base. E groups were divided according to surface treatment into no treatment (control), treatment of the base (B), the tooth (T), or both (BT). Each group was further subdivided according to the surface treatment method into alumina-blasting or alumina-blasting and silane coupling agent. Surface treatment significantly improved the bond strength compared to the control group (P < 0.001). Alumina-blasting with silane coupling agent treatment resulted in significantly higher strength compared to alumina-blasting alone (P < 0.001). E BT group treated with alumina-blasting and silane coupling agent showed the highest significant shear bond strength (23.91 ± 0.96 MPa) (P < 0.001). Surface treatment using alumina-blasting with silane coupling agent for denture base and tooth increased repair strength
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