Department of Prosthodontics, University of Erlangen-Nuremberg, Erlangen, Germany.
Int J Oral Maxillofac Implants. 2011 Jul-Aug;26(4):739-45.
To compare the strain development of conventionally cast three-unit fixed dental prostheses (FDPs) and FDPs fabricated through computer-aided design/computer-assisted manufacture (CAD/CAM) using the strain gauge technique.
A two-implant situation was transferred to an acrylic resin replica, and strain gauges were attached mesially and distally adjacent to the implants. Seven groups (n = 10) of cement-retained FDPs were manufactured from all restorative materials available for the Etkon CAD/CAM system (Straumann CADCAM). Three groups (n = 10) of conventionally cast screw- and cement-retained superstructures served as controls. Strain development during FDP fixation was recorded, and the logarithm of the absolute strain values was used for statistical analysis (multivariate analysis of variance with Pillai's trace; a = .0033).
Significantly higher strain values for screw-retained FDPs were found than for all other restorations (P < .0000). Conventionally cast cement-retained restorations showed significantly higher strain levels as compared to CAD/CAM restorations fabricated from titanium (P = .0032) and green machined zirconia (P = .0026). Screw-retained superstructures bonded to gold cylinders showed significantly lower strain levels than FDPs made from titanium (P = .0001) and green machined zirconia (P = .0012). No significant differences between the various groups of CAD/CAM restorations could be detected, except that polyamide-resin restorations showed significantly higher strain levels than InCeram Zirconia restorations (P < .0000).
CAD/CAM-fabricated restorations show fit that is at least as good as that seen for conventionally fabricated superstructures. The choice of restorative material seems to have only a minor effect on the passivity of fit.
使用应变计技术比较传统铸造的三单位固定义齿(FDP)和通过计算机辅助设计/计算机辅助制造(CAD/CAM)制造的 FDP 的应变发展情况。
将双种植体情况转移到丙烯酸树脂模型上,并在种植体的近中和远中相邻位置粘贴应变片。使用可用于 Etkon CAD/CAM 系统(Straumann CADCAM)的所有修复材料制造了七个组(n = 10)的水泥固位 FDP。作为对照,有三个组(n = 10)的传统铸造螺丝固位和水泥固位上部结构。记录 FDP 固定过程中的应变发展情况,并使用绝对应变值的对数进行统计分析(多变量方差分析,Pillai 迹检验;a =.0033)。
与所有其他修复体相比,螺丝固位 FDP 的应变值明显更高(P <.0000)。与钛制成的 CAD/CAM 修复体相比,传统铸造的水泥固位修复体显示出更高的应变水平(P =.0032),与绿碳化硅加工的氧化锆修复体相比,应变水平更高(P =.0026)。用金圆柱体粘结的螺丝固位上部结构的应变水平明显低于钛制成的 FDP(P =.0001)和绿碳化硅加工的氧化锆制成的 FDP(P =.0012)。除了聚酰胺树脂修复体的应变水平明显高于 InCeram 氧化锆修复体(P <.0000)外,CAD/CAM 修复体的各个组之间没有发现明显的差异。
CAD/CAM 制造的修复体的拟合精度至少与传统制造的上部结构一样好。修复材料的选择似乎对拟合的被动性只有很小的影响。
