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数字化贴面技术制作的氧化锆基全瓷修复体的现状:一项综述

Current status of zirconia-based all-ceramic restorations fabricated by the digital veneering technique: a comprehensive review.

作者信息

Tezulas Emre, Yildiz Coskun, Kucuk Ceren, Kahramanoglu Erkut

出版信息

Int J Comput Dent. 2019;22(3):217-230.

PMID:31463486
Abstract

OBJECTIVES

Delamination and chipping are major complications of veneering material on zirconia-based all-ceramic restorations. The digital veneering technique was introduced to overcome these complications as both zirconia frameworks and veneering ceramic are fabricated by computer-aided design/computer-aided manufacturing (CAD/CAM). The aim of this review is to report all articles that evaluate zirconia-based all-ceramic restorations fabricated by the digital veneering technique. Three different digital veneering techniques were detected: the Lava DVS Digital Veneering System (3M ESPE), the Rapid Layer Technology (Vita Zahnfabrik), and the CAD-on technique (Ivoclar Vivadent). There are also some modifications of these techniques in the literature.

MATERIALS AND METHODS

For this review, a comprehensive literature search was conducted. Detected studies are reported according to fracture resistance, flexural strength, wear performance, shear bond strength, microtensile bond strength, mechanical performance of restorations on implant abutments, marginal fit, color reproducibility, and clinical success for all types of digital veneering techniques.

RESULTS AND CONCLUSIONS

Anatomical framework design and digital veneering using lithium disilicate and fusion porcelain might decrease the risk of chipping and delamination of veneering ceramic on zirconia-supported all-ceramic restorations. However, this result is mainly supported by in vitro studies. More clinical studies with a large sample size, longer follow-up period, and different fixed dental prosthesis designs are needed.

摘要

目的

分层和崩瓷是氧化锆基全瓷修复体 veneering 材料的主要并发症。数字 veneering 技术被引入以克服这些并发症,因为氧化锆框架和 veneering 陶瓷均通过计算机辅助设计/计算机辅助制造(CAD/CAM)制作。本综述的目的是报告所有评估通过数字 veneering 技术制作的氧化锆基全瓷修复体的文章。检测到三种不同的数字 veneering 技术:Lava DVS 数字 veneering 系统(3M ESPE)、快速层技术(维他齿科)和 CAD-on 技术(义获嘉伟瓦登特)。文献中也有这些技术的一些改良方法。

材料与方法

为进行本综述,开展了全面的文献检索。根据抗折性、抗弯强度、磨损性能、剪切粘结强度、微拉伸粘结强度、种植体基台上修复体的力学性能、边缘适合性、颜色再现性以及所有类型数字 veneering 技术的临床成功率报告检测到的研究。

结果与结论

使用二硅酸锂和融合瓷进行解剖框架设计和数字 veneering 可能会降低氧化锆支持的全瓷修复体上 veneering 陶瓷分层和崩瓷的风险。然而,这一结果主要得到体外研究的支持。需要更多大样本量、更长随访期以及不同固定义齿设计的临床研究。

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