循环加载和粘结剂对两种全瓷冠系统断裂载荷的影响。

Influence of cyclic loading and luting agents on the fracture load of two all-ceramic crown systems.

作者信息

Attia Ahmed, Kern Matthias

机构信息

Department of Conservative Dentistry and Fixed Prosthodontics, Faculty of Dentistry, Mansoura University, Mansoura, Egypt.

出版信息

J Prosthet Dent. 2004 Dec;92(6):551-6. doi: 10.1016/j.prosdent.2004.09.002.

DOI:10.1016/j.prosdent.2004.09.002

PMID:15583561

Abstract

STATEMENT OF PROBLEM

Inherent mechanical properties, fabrication techniques, luting agents, and intraoral conditions are primary factors attributing to longevity of all-ceramic crowns. Before doing time-consuming and costly clinical studies, preclinical in vitro studies should be conducted to evaluate the durability of these crowns. Purpose This study investigated the influence of different luting agents and cyclic loading under wet conditions on the fracture load of CAD-CAM and pressable all-ceramic crowns.

MATERIAL AND METHODS

Ninety-six human premolars were prepared for all-ceramic crowns with the following preparation criteria: 6-degree axial taper, 1.5-mm shoulder finish line placed 0.5 mm occlusal to the CEJ, 2-mm occlusal reduction, and occluso-gingival height of 5 mm. Sixteen unprepared premolars served as controls. Forty-eight crowns were laboratory fabricated from a lithium disilicate glass-ceramic (IPS-Empress 2), while 48 CAD-CAM crowns were directly fabricated using a leucite-reinforced glass-ceramic (ProCAD) and the Cerec 3 CAD-CAM system. Three luting agents (Panavia F, Superbond C&B and ProTec CEM) were used for cementation (n = 16). After 1 week storage in water, half of the specimens of each subgroup (n = 8) were cyclically loaded and thermal cycled under wet conditions for 600,000 masticatory cycles and 3500 thermal cycles (58 degrees C/4 degrees C; dwell time 60 seconds) in a masticatory simulator. All specimens were loaded in a universal testing machine with the compressive load (N) applied along the long axis of the specimen at a crosshead speed of 1 mm/min until fracture. Fracture load was recorded for each specimen. The Kruskal-Wallis test was used first to detect overall significance, followed by Mann-Whitney U tests to identify which pairs of groups had significant differences (P =.05).

RESULTS

Cyclic loading significantly decreased the median fracture load of ProCAD crowns luted using Superbond from 987.2 to 786.0 N (P =.014) and those luted using ProTec CEM from 914.4 to 630.7 N (P =.007). Also, the median fracture load of Empress 2 crowns luted using ProTec CEM decreased significantly from 977.3 to 622.9 N (P =.013). However, cyclic loading did not decrease the median fracture load of crowns luted using Panavia F, Empress 2 (P =.431) and ProCAD (P =.128). With the same loading conditions and luting agents, there were no significant differences in the fracture loads of ProCAD and Empress 2 crowns (P >.05).

CONCLUSIONS

Cyclic loading reduced the fracture load of ProCAD crowns luted with Superbond C&B and ProTec CEM and of Empress 2 crowns luted with ProTec CEM.

摘要

问题陈述

固有机械性能、制作技术、粘结剂及口腔内环境是影响全瓷冠使用寿命的主要因素。在进行耗时且昂贵的临床研究之前，应先开展临床前体外研究以评估这些全瓷冠的耐久性。目的：本研究调查了不同粘结剂及湿态循环加载对计算机辅助设计与制造（CAD-CAM）全瓷冠及压铸全瓷冠断裂载荷的影响。

材料与方法

按照以下预备标准为96颗人前磨牙预备全瓷冠：轴面锥度6度，在牙釉质牙骨质界（CEJ）向牙合方0.5 mm处制备1.5 mm宽的肩台边缘，牙合面预备2 mm，牙合龈高度5 mm。16颗未预备的前磨牙作为对照。48颗全瓷冠在实验室由二硅酸锂玻璃陶瓷（IPS-Empress 2）制作而成，而48颗CAD-CAM全瓷冠则使用白榴石增强玻璃陶瓷（ProCAD）及Cerec 3 CAD-CAM系统直接制作。使用三种粘结剂（Panavia F、Superbond C&B和ProTec CEM）进行粘结（n = 16）。在水中储存1周后，每个亚组的一半标本（n = 8）在咀嚼模拟器中进行循环加载并在湿态下进行热循环，模拟600,000次咀嚼循环及3500次热循环（58℃/4℃；保持时间60秒）。所有标本在万能试验机上加载，沿标本长轴以1 mm/min的十字头速度施加压缩载荷（N）直至断裂。记录每个标本的断裂载荷。首先使用Kruskal-Wallis检验检测总体显著性，随后使用Mann-Whitney U检验确定哪些组对之间存在显著差异（P = 0.05）。

结果

循环加载使使用Superbond粘结的ProCAD全瓷冠的中位断裂载荷从987.2 N显著降至786.0 N（P = 0.014），使用ProTec CEM粘结的ProCAD全瓷冠的中位断裂载荷从914.4 N显著降至630.7 N（P = 0.007）。此外，使用ProTec CEM粘结的Empress 2全瓷冠的中位断裂载荷从977.3 N显著降至622.9 N（P = 0.013）。然而，循环加载并未降低使用Panavia F粘结的全瓷冠、Empress 2全瓷冠（P = 0.431）及ProCAD全瓷冠（P = 0.128）的中位断裂载荷。在相同加载条件及粘结剂下，ProCAD全瓷冠和Empress 2全瓷冠的断裂载荷无显著差异（P > 0.05）。