由数字印模和传统印模制作的压制及CAD/CAM二硅酸锂全冠的三维和二维边缘适合性
3D and 2D marginal fit of pressed and CAD/CAM lithium disilicate crowns made from digital and conventional impressions.
作者信息
Anadioti Evanthia, Aquilino Steven A, Gratton David G, Holloway Julie A, Denry Isabelle, Thomas Geb W, Qian Fang
机构信息
Department of Prosthodontics, University of North Carolina School of Dentistry, Chapel Hill, NC.
出版信息
J Prosthodont. 2014 Dec;23(8):610-7. doi: 10.1111/jopr.12180. Epub 2014 Jul 3.
PURPOSE
This in vitro study evaluated the 3D and 2D marginal fit of pressed and computer-aided-designed/computer-aided-manufactured (CAD/CAM) all-ceramic crowns made from digital and conventional impressions.
MATERIALS AND METHODS
A dentoform tooth (#30) was prepared for an all-ceramic crown (master die). Thirty type IV definitive casts were made from 30 polyvinyl siloxane (PVS) impressions. Thirty resin models were produced from thirty Lava Chairside Oral Scanner impressions. Thirty crowns were pressed in lithium disilicate (IPS e.max Press; 15/impression technique). Thirty crowns were milled from lithium disilicate blocks (IPS e.max CAD; 15/impression technique) using the E4D scanner and milling engine. The master die and the intaglio of the crowns were digitized using a 3D laser coordinate measurement machine with accuracy of ±0.00898 mm. For each specimen a separate data set was created for the Qualify 2012 software. The digital master die and the digital intaglio of each crown were merged using best-fitting alignment. An area above the margin with 0.75 mm occlusal-gingival width circumferentially was defined. The 3D marginal fit of each specimen was an average of all 3D gap values on that area. For the 2D measurements, the marginal gap was measured at two standardized points (on the margin and at 0.75 mm above the margin), from standardized facial-lingual and mesial-distal digitized sections. One-way ANOVA with post hoc Tukey's honestly significant difference and two-way ANOVA tests were used, separately, for statistical analysis of the 3D and 2D marginal data (alpha = 0.05).
RESULTS
One-way ANOVA revealed that both 3D and 2D mean marginal gap for group A: PVS impression/IPS e.max Press (0.048 mm ± 0.009 and 0.040 mm ± 0.009) were significantly smaller than those obtained from the other three groups (p < 0.0001), while no significant differences were found among groups B: PVS impression/IPS e.max CAD (0.088 mm ± 0.024 and 0.076 mm ± 0.023), C: digital impression/IPS e.max Press (0.089 mm ± 0.020 and 0.075 mm ± 0.015) and D: digital impression/IPS e.max CAD (0.084 mm ± 0.021 and 0.074 mm ± 0.026). The results of two-way ANOVA revealed a significant interaction between impression techniques and crown fabrication methods for both 3D and 2D measurements.
CONCLUSIONS
The combination of PVS impression method and press fabrication technique produced the most accurate 3D and 2D marginal fits.
目的
本体外研究评估了由数字印模和传统印模制作的压制全瓷冠及计算机辅助设计/计算机辅助制造(CAD/CAM)全瓷冠的三维(3D)和二维(2D)边缘适合性。
材料与方法
为一颗全瓷冠预备一个牙模型(30号牙)(主模型)。用30个聚乙烯硅氧烷(PVS)印模制作30个IV型终印模。用30个Lava椅旁口腔扫描仪印模制作30个树脂模型。用二硅酸锂(IPS e.max Press;15/印模技术)压制30个全瓷冠。使用E4D扫描仪和研磨机从二硅酸锂块(IPS e.max CAD;15/印模技术)中研磨出30个全瓷冠。使用精度为±0.00898 mm的三维激光坐标测量仪将主模型和全瓷冠的内表面数字化。为Qualify 2012软件为每个样本创建一个单独的数据集。使用最佳拟合对齐方式将每个全瓷冠的数字主模型和数字内表面合并。定义边缘上方咬合龈向宽度为0.75 mm的圆周区域。每个样本的3D边缘适合性为该区域所有3D间隙值的平均值。对于二维测量,在标准化的面部-舌侧和近中-远中数字化切片上的两个标准化点(边缘处和边缘上方0.75 mm处)测量边缘间隙。分别使用单因素方差分析(ANOVA)及事后Tukey真实显著性差异检验和双因素方差分析对3D和2D边缘数据进行统计分析(α = 0.05)。
结果
单因素方差分析显示,A组:PVS印模/IPS e.max Press的3D和2D平均边缘间隙(分别为0.048 mm ± 0.009和0.040 mm ± 0.009)显著小于其他三组(p < 0.0001),而B组:PVS印模/IPS e.max CAD(0.088 mm ± 0.024和0.076 mm ± 0.023)、C组:数字印模/IPS e.max Press(0.089 mm ± 0.020和0.075 mm ± 0.015)和D组:数字印模/IPS e.max CAD(0.084 mm ± 0.021和0.074 mm ± 0.026)之间无显著差异。双因素方差分析结果显示,对于3D和2D测量,印模技术和全瓷冠制作方法之间存在显著交互作用。
结论
PVS印模方法和压制制作技术的组合产生了最精确的3D和2D边缘适合性。
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