Abstract
Background: CAD/CAM systems enable the production of fixed partial dentures with small and reproducible internal and marginal gaps. Purpose: The purpose of this study was to evaluate the reproducibility of the marginal and internal adaptations of four-unit fixed partial denture frameworks produced using four CAD/CAM systems. Materials and Methods: Prepared dies of a master model that simulated the loss of the first left molar were measured. Fifteen frameworks were manufactured using four CAD/CAM systems (A–D). The internal fit was determined by the replica technique, and the marginal gap was determined by microscopy. ANOVA was carried out to detect significant differences, and the Bonferroni adjustment was performed. The global level of significance was set at 5%. Results: The mean gap size ranged from 84 to 132 µm (SD 43–71 µm). The CAD/CAM systems showed significant variance (p < 0.001), and system A (VHF) showed the smallest gaps. The smallest gaps for each system were in the molar part and in the marginal region of the frameworks (p < 0.001). Conclusions: The CAD/CAM systems showed significantly different gap sizes, particularly between premolars and molars and among the marginal, axial and occlusal regions. All of the systems are suitable for clinical application.
Highlights
All-ceramic materials are used widely in dentistry and have excellent biocompatibility and esthetics [1,2,3]
We evaluated the marginal and internal fits of zirconia four-unit fixed partial dentures (FPDs)
15 duplicates of each pre-sintered and yttria-stabilized zirconia framework (Metoxit AG, Thayngen, Switzerland) were manufactured from the extended STL data set with the following milling systems: VHF CAM 4-02 Impression, Datron D5, Cerec MCXL (Cerec inEos, System C, Sirona, Bensheim, Germany) and Roland
Summary
All-ceramic materials are used widely in dentistry and have excellent biocompatibility and esthetics [1,2,3]. The demand for convenient, metal-free dentures has increased significantly in recent years. In combination with an all-ceramic veneering material makes it suitable for fixed partial dentures (FPDs) [3,4,5]. Zirconia can be stabilized by yttrium oxide by sintering for up to 7.5 h at 1500 ◦ C. The dimensions of the restoration shrink from approximately 15% to 25% [8]. Due to its high stability, zirconia dental restorations can be cemented conventionally, unlike other all-ceramic materials
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