使用椅旁CAD/CAM系统或热压技术制作的二硅酸锂全冠边缘适合性的显微计算机断层扫描评估。

Micro-computed tomography evaluation of marginal fit of lithium disilicate crowns fabricated by using chairside CAD/CAM systems or the heat-pressing technique.

作者信息

Neves Flávio D, Prado Célio J, Prudente Marcel S, Carneiro Thiago A P N, Zancopé Karla, Davi Letícia R, Mendonça Gustavo, Cooper Lyndon F, Soares Carlos José

机构信息

Professor, Department of Occlusion, Fixed Prosthesis and Dental Materials, School of Dentistry, Federal University of Uberlândia, Uberlândia, Minas Gerais, Brazil.

出版信息

J Prosthet Dent. 2014 Nov;112(5):1134-40. doi: 10.1016/j.prosdent.2014.04.028. Epub 2014 Jun 24.

DOI:10.1016/j.prosdent.2014.04.028

PMID:24969409

Abstract

STATEMENT OF PROBLEM

No consensus exists concerning the acceptable ranges of marginal fit for lithium disilicate crowns fabricated with either heat-pressing techniques or computer-aided design and computer-aided manufacturing (CAD/CAM) systems.

PURPOSE

The purpose of the study was to evaluate with micro-computed tomography the marginal fit of lithium disilicate crowns fabricated with different chairside CAD/CAM systems (Cerec or E4D) or the heat-pressing technique.

MATERIAL AND METHODS

Lithium disilicate crowns were fabricated to fit an in vitro cast of a single human premolar. Three fabrication techniques were used: digital impressions with Cerec 3D Bluecam scanner with titanium dioxide powder, followed by milling from IPS e.max CAD for Cerec; digital impressions with E4D Laser scanner without powder, followed by milling from IPS e.max CAD for E4D; and fabrication from IPS e.max Press by using the lost-wax and heat-pressing techniques. Each crown was fixed to the cast and scanned with micro-computed tomography to obtain 52 images for measuring the vertical and horizontal fit. Data were statistically analyzed by 1-way ANOVA, followed by the Tukey honestly significant difference test (α=.05).

RESULTS

The mean values of vertical misfit were 36.8 ±13.9 μm for the heat-pressing group and 39.2 ±8.7 μm for the Cerec group, which were significantly smaller values than for the E4D group at 66.9 ±31.9 μm (P=.046). The percentage of crowns with a vertical misfit <75 μm was 83.8% for Cerec and heat-pressing, whereas this value was 65% for E4D. Both types of horizontal misfit (underextended and overextended) were 49.2% for heat-pressing, 50.8% for Cerec, and 58.8% for E4D.

CONCLUSIONS

Lithium disilicate crowns fabricated by using the Cerec 3D Bluecam scanner CAD/CAM system or the heat-pressing technique exhibited a significantly smaller vertical misfit than crowns fabricated by using an E4D Laser scanner CAD/CAM system.

摘要

问题陈述

对于采用热压技术或计算机辅助设计与计算机辅助制造（CAD/CAM）系统制作的二硅酸锂全冠，其边缘适合性的可接受范围尚无共识。

目的

本研究的目的是使用微型计算机断层扫描技术评估采用不同椅旁CAD/CAM系统（Cerec或E4D）或热压技术制作的二硅酸锂全冠的边缘适合性。

材料与方法

制作二硅酸锂全冠以适配单个人类前磨牙的体外模型。采用了三种制作技术：使用二氧化钛粉末的Cerec 3D Bluecam扫描仪进行数字印模，随后从用于Cerec的IPS e.max CAD进行铣削；使用无粉末的E4D激光扫描仪进行数字印模，随后从用于E4D的IPS e.max CAD进行铣削；以及使用失蜡和热压技术由IPS e.max Press制作。将每个全冠固定在模型上，并用微型计算机断层扫描进行扫描，以获取52张图像用于测量垂直和水平适合性。数据通过单因素方差分析进行统计学分析，随后进行Tukey真实显著性差异检验（α = 0.05）。

结果

热压组垂直不贴合的平均值为36.8±13.9μm，Cerec组为39.2±8.7μm，均显著低于E4D组的66.9±31.9μm（P = 0.046）。垂直不贴合<75μm的全冠百分比，Cerec和热压组为83.8%，而E4D组为65%。热压组两种水平不贴合（伸展不足和伸展过度）均为49.2%，Cerec组为50.8%，E4D组为58.8%。

结论

使用Cerec 3D Bluecam扫描仪CAD/CAM系统或热压技术制作的二硅酸锂全冠，其垂直不贴合度显著小于使用E4D激光扫描仪CAD/CAM系统制作的全冠。

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使用椅旁CAD/CAM系统或热压技术制作的二硅酸锂全冠边缘适合性的显微计算机断层扫描评估。

Micro-computed tomography evaluation of marginal fit of lithium disilicate crowns fabricated by using chairside CAD/CAM systems or the heat-pressing technique.

作者信息

机构信息

出版信息

STATEMENT OF PROBLEM

PURPOSE

MATERIAL AND METHODS

RESULTS

CONCLUSIONS

问题陈述

目的

材料与方法

结果

结论

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