Fracture Resistance of Custom Lithium Disilicate Implant Restorations with Two Fabrication Techniques and Two Designs

Abstract

To compare the fracture resistance of a press on ceramic custom implant restoration with pressed and cemented restorations. Materials and Methods: Thirty two (32) lithium disilicate (IPS e.max Press) custom hybrid abutment restorations were fabricated. The restorations were divided into two groups (n = 16) according to the construction technique: the commercial control group (C) and the press-on group (P). For the control group, lithium disilicate restorations were pressed and cemented on titanium bases. For the press on group, lithium disilicate pressable ceramic (IPS e.max Press) was pressed on the titanium bases with injection molding. Each group was further divided according to the restoration design, either screw cemen etained, into two subgroups of eight specimens each. Specimens of C group were divided into screw retained (cemented hybrid abutment crown, CHAC) or cement retained (cemented hybrid abutment, CHA). Specimens of the P group were also divided into screw etained (pressed hybrid abutment crown, PHAC) and cement retained (pressed hybrid abutment, PHA). The specimens were subjected to static loading until failure with a universal testing machine. Two w y analysis of variance (ANOVA) was used to assess the effect of different techniques and designs on the fracture resistance of the samples (P <.05), followed by one y ANOVA and Tukey honest significant difference (HSD) test (α =.05). Results: C group showed higher mean fracture resistance (812.443 ± 129.14 N) than P group (596.71 ± 108.83 N), and the difference was statistically significant (P <.05). Regarding restoration design, HA groups showed higher mean fracture resistance (742.621 ± 153.82 N) than HAC (666.53 ± 163.07 N) groups with no statistically significant difference. CHA showed the highest mean fracture resistance (817.65 ± 161.76 N), while PHAC showed the lowest mean fracture resistance values (525.83 ± 47.29 N). Conclusion: The commercial cemented lithium disilicate restorations showed higher fracture resistance than the press n restorations, although both showed a maximum load capacity that was greater than physiologic incisal force in the anterior region, and both hybrid abutments and hybrid abutment crowns were equally efficient in withstanding occlusal loading forces. Int J Oral Maxillofac Implants 2022;37:677–684. doi: 10.11607/jomi.9657