Optimization of Lithium Disilicate Glass-Ceramic Crowns: Finish Line, Scanning, and Processing Methods.

IF 2.1 4区 医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE International Journal of Prosthodontics Pub Date : 2023-11-01 DOI:10.11607/ijp.7598
Rodrigo Ottoni, Jason Alan Griggs, Pedro Henrique Corazza, Marcia Borba
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引用次数: 2

Abstract

Purpose: To investigate the optimal combination of factors (finish line, scanning, and ceramic processing) to achieve the best values of both adaptation and fracture load for lithium disilicate crowns (LD).

Materials and methods: Two abutment preparations, chamfer (C) and rounded shoulder (S), were produced with a dentin analog material and scanned with either extraoral (E) or intraoral (I) scanners. Images were processed using CAD software to design a premolar. Blocks of LD were milled using a CAD/CAM system (CAD). For the press technique (PRE), crowns were first 3D printed using a polymeric material, then heat-pressing protocol was performed. Design of experiments was used to plan four experimental groups (n = 10): CAD-CI, CAD-SE, PRE-CE, and PRE-SI. Two dependent variables were analyzed: adaptation, measured using the replica technique; and fracture load of the cemented crowns. Fractographic analysis was performed. Data were analyzed using ANOVA and regression statistical analyses.

Results: There was no significant effect of the scanning method and finish line on the gap thickness in the different regions. For the processing method, CAD resulted in larger gap thickness in the occlusal, axial angle, and marginal areas and a smaller gap in the axial area (P < .001). The investigated factors had no effect on the fracture load. Yet, PRE-CE was considered the optimum design because it achieved 100% of the desired fracture load (>1000 N) and 40% adaptation (< 200 µm).

Conclusions: The optimum combination of factors for all-ceramic crowns is chamfer abutment preparation, extraoral scanning, and the press technique (combined with 3D printing). Int J Prosthodont 2023;36:e103-e118.

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二硅酸锂微晶玻璃冠的优化:完成线、扫描和加工方法。
目的:研究因素(完成线、扫描和陶瓷加工)的最佳组合,以实现二硅酸锂牙冠(LD)的最佳适应和断裂载荷值。材料和方法:两种基牙预备,倒角(C)和圆肩(S),用牙本质类似物材料制备,并用口外(E)或口内(I)扫描仪进行扫描。使用CAD软件对图像进行处理以设计前臼齿。使用CAD/CAM系统(CAD)对LD块进行铣削。对于冲压技术(PRE),首先使用聚合物材料对牙冠进行3D打印,然后执行热压方案。实验设计用于计划四个实验组(n=10):CAD-CI、CAD-SE、PRE-CE和PRE-SI。分析了两个因变量:适应,使用复制技术测量;以及胶合牙冠的断裂载荷。进行了断口分析。使用方差分析和回归统计分析对数据进行分析。结果:扫描方法和终点线对不同区域的间隙厚度没有显著影响。对于加工方法,CAD导致咬合、轴向角和边缘区域的间隙厚度较大,轴向区域的间隙较小(P<.001)。所研究的因素对骨折载荷没有影响。然而,PRE-CE被认为是最佳设计,因为它实现了100%的期望断裂载荷(>1000N)和40%的适应度(<200µm)。结论:全陶瓷牙冠的最佳因素组合是倒角基牙准备、口腔外扫描和按压技术(结合3D打印)。Int J Prostodont 2023;36:e103-e118。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Prosthodontics
International Journal of Prosthodontics 医学-牙科与口腔外科
CiteScore
3.20
自引率
4.30%
发文量
82
审稿时长
6-12 weeks
期刊介绍: Official Journal of the European Association for Osseointegration (EAO), the International College of Prosthodontists (ICP), the German Society of Prosthodontics and Dental Materials Science (DGPro), and the Italian Academy of Prosthetic Dentistry (AIOP) Prosthodontics demands a clinical research emphasis on patient- and dentist-mediated concerns in the management of oral rehabilitation needs. It is about making and implementing the best clinical decisions to enhance patients'' quality of life via applied biologic architecture - a role that far exceeds that of traditional prosthetic dentistry, with its emphasis on materials and techniques. The International Journal of Prosthodontics is dedicated to exploring and developing this conceptual shift in the role of today''s prosthodontist, clinician, and educator alike. The editorial board is composed of a distinguished team of leading international scholars.
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