体外比较在后牙区陶瓷和金属陶瓷树脂粘结固定义齿的承载能力。

In vitro comparison of the load-bearing capacity of ceramic and metal-ceramic resin-bonded fixed dental prostheses in the posterior region.

机构信息

Assistant Professor, Department of Prosthodontics, Heidelberg University Hospital, University of Heidelberg, Heidelberg, Germany.

出版信息

J Prosthet Dent. 2018 Jan;119(1):89-96. doi: 10.1016/j.prosdent.2017.03.006. Epub 2017 May 20.

DOI:10.1016/j.prosdent.2017.03.006

PMID:28533015

Abstract

STATEMENT OF PROBLEM

The clinical use of ceramic resin-bonded fixed dental prostheses (RBFDPs) in the posterior region is desirable for esthetic and biological reasons but has been associated with many technical problems, including fractures or chipping of the veneer. Although these problems may be overcome by using monolithic zirconia, information is lacking about the load-bearing capacity of resin-bonded monolithic zirconia restorations for replacing a molar.

PURPOSE

The purpose of this in vitro study was to compare the load-bearing capacity (F), the load at initial damage (F), and the failure pattern of posterior RBFDPs fabricated from monolithic zirconia (MZr), veneered zirconia (VZr), and veneered cobalt-chromium (VCo).

MATERIAL AND METHODS

For the replacement of a maxillary first molar, 4 groups (n=8) of RBFDPs differing in prosthesis material and retainer design (MZr-IR-RBFDPs, VZr-IR-RBFDPs, MZr-WR-RBFDPs, and VCo-WR-RBFDPs; IR, inlay-retained; WR, adhesive wing-retained) were fabricated with anatomic congruence of the FDP-abutment complex. The RBFDPs were subjected to thermocycling (10000×6.5°C/60°C) and mastication simulation (30-degree oblique loading on the pontic; 1200000×108 N) and then loaded until failure in a universal testing machine (0.5 mm/minute). Test forces correlating with F and F were recorded. Statistical analysis was performed by using 2-way analysis of variance (ANOVA), 2-way repeated measures ANOVA, and the Tukey honest significant differences post hoc test (2-sided α=.05).

RESULTS

F was significantly affected by retainer design (P<.001) and F by both retainer design (P<.001) and prosthesis material (P<.001). F was more than 2000 N for WR-RBFDPs and more than 1000 N for IR-RBFDPs (Tukey test ranking: MZr-WR-RBFDPs = VCo-WR-RBFDPs > MZr-IR-RBFDPs = VZr-IR-RBFDPs). Ceramic RBFDPs failed by complete fracture in the connector region, whereas failure of VCo-WR-RBFDPs was limited to the ceramic veneer. F was significantly lower (P≤.004) than F for veneered specimens only; F started at test forces below 500 N and coincided with veneer cracking.

CONCLUSIONS

Load-bearing capacity suitable for the definitive restoration of a molar was observed for all groups. Veneered resin-bonded fixed dental prostheses, however, were susceptible to cracking of the veneer.

摘要

问题陈述

出于美观和生物学原因，在后牙区域临床使用陶瓷树脂粘结固定义齿（RBFDP）是可取的，但这与许多技术问题有关，包括贴面的破裂或碎裂。虽然使用整体氧化锆可以克服这些问题，但关于替代磨牙的树脂粘结整体氧化锆修复体的承载能力的信息还很缺乏。

目的

本体外研究的目的是比较整体氧化锆（MZr）、贴面氧化锆（VZr）和贴面钴铬（VCo）制作的后牙 RBFDP 的承载能力（F）、初始损伤时的载荷（F）和失效模式。

材料和方法

为了替代上颌第一磨牙，制作了 4 组（n=8）不同修复体材料和固位体设计的 RBFDP（MZr-IR-RBFDPs、VZr-IR-RBFDPs、MZr-WR-RBFDPs 和 VCo-WR-RBFDPs；IR，嵌体固位；WR，翼板固位），以实现 FDP-基牙复合体的解剖学吻合。RBFDP 经过热循环（10000×6.5°C/60°C）和咀嚼模拟（在桥体上施加 30 度斜向载荷；1200000×108 N），然后在万能试验机上加载直至失效（0.5 毫米/分钟）。记录与 F 和 F 相关的测试力。采用双因素方差分析（ANOVA）、双因素重复测量 ANOVA 和 Tukey 诚实显著差异事后检验（双侧α=.05）进行统计分析。

结果

保留设计（P<.001）和保留设计（P<.001）和修复体材料（P<.001）显著影响 F。WR-RBFDP 的 F 超过 2000 N，IR-RBFDP 的 F 超过 1000 N（Tukey 测试排名：MZr-WR-RBFDPs = VCo-WR-RBFDPs > MZr-IR-RBFDPs = VZr-IR-RBFDPs）。陶瓷 RBFDP 在连接区域完全断裂失效，而 VCo-WR-RBFDP 的失效仅限于陶瓷贴面。仅贴面标本的 F 显著低于 F（P≤.004）；F 始于 500 N 以下的测试力，并与贴面开裂同时发生。