采用全支持式牙合面结构的立体光固化工艺制作氧化锆全瓷冠的精度:一项体外研究。
Accuracy of zirconia crowns manufactured by stereolithography with an occlusal full-supporting structure: An in vitro study.
机构信息
Doctoral student, Center of Digital Dentistry, Department of Prosthodontics, Peking University School and Hospital of Stomatology, National Engineering Laboratory for Digital and Material Technology of Stomatology, Research Center of Engineering and Technology for Digital Dentistry of Ministry of Health, Beijing Key Laboratory of Digital Stomatology, National Clinical Research Center for Oral Disease, Beijing, PR China.
Engineer, Porimy 3D Printing Technology Co. Ltd, Kunshan, PR China.
出版信息
J Prosthet Dent. 2023 Dec;130(6):902-907. doi: 10.1016/j.prosdent.2022.01.015. Epub 2022 Feb 16.
STATEMENT OF PROBLEM
Additive manufacturing is emerging as an alternative method of fabricating dental restorations, but the support design needs to be optimized.
PURPOSE
The purpose of this in vitro study was to evaluate the 3-dimensional trueness and adaptations of zirconia crowns manufactured by stereolithography (SLA) with an occlusal full-supporting structure, compared with those SLA-printed with pillar supports, and those made by milling.
MATERIAL AND METHODS
A zirconia abutment was prepared, and an anatomic contour crown was designed. The crowns were manufactured by SLA and milling (n=6). For SLA manufacturing, a full-supporting base and pillar supports were designed. The 3-dimensional (3D) trueness of the fabricated crowns was characterized by 3D deviation analysis. The adaptations of crowns in the SLA-base and milling groups were measured by using a triple-scan method. Color-difference maps and the root mean square (RMS) values were used to characterize the 3D trueness. One-way analysis of variance (ANOVA) and Tukey post hoc test were used to analyze the difference in RMS values among the 3 groups, and Student t test was used to analyze the difference in cement-gap width between the milling group and the SLA group with the full-supporting base (α=.05).
RESULTS
The 3D deviation analysis showed that in the external area, the RMS value of the SLA-pillar group was significantly higher than that of the SLA-base and the milling groups (P<.05). In the intaglio area, the milling group showed a lower RMS value than the 2 SLA groups (P<.05). The color-difference maps showed the SLA-base group had smaller positive errors at the cusp inclines than the SLA-pillar group. No statistically significant difference was found in adaptations between the SLA-base and milling groups (P>.05).
CONCLUSIONS
The occlusal full-supporting base provided improved support in fabricating the crowns, and no remnants were left after removal. The zirconia crowns manufactured by SLA with an occlusal full-supporting structure had good external 3D trueness and clinically acceptable adaptation.
问题陈述
增材制造作为一种制造牙科修复体的替代方法正在出现,但需要优化支撑设计。
目的
本体外研究的目的是评估具有咬合全支撑结构的立体光固化(SLA)制造的氧化锆冠的三维精度和适应性,与具有柱支撑的 SLA 打印和铣削制造的氧化锆冠进行比较。
材料和方法
制备氧化锆基台,并设计解剖轮廓冠。通过 SLA 和铣削(n=6)制造冠。对于 SLA 制造,设计了全支撑基底和柱支撑。通过三维偏差分析来描述制造的牙冠的三维精度。使用三扫描法测量 SLA 基底和铣削组中冠的适应性。使用颜色差图和均方根(RMS)值来描述三维精度。采用单因素方差分析(ANOVA)和 Tukey 事后检验分析 3 组间 RMS 值的差异,采用学生 t 检验分析具有全支撑基底的铣削组和 SLA 组之间的粘结间隙宽度的差异(α=.05)。
结果
三维偏差分析表明,在外区域,SLA 柱组的 RMS 值明显高于 SLA 基底组和铣削组(P<.05)。在内凹区域,铣削组的 RMS 值低于 2 个 SLA 组(P<.05)。颜色差图显示 SLA 基底组在牙尖斜面上的正误差较小。SLA 基底组和铣削组之间的适应性无统计学差异(P>.05)。
结论
咬合全支撑基底为牙冠的制造提供了更好的支撑,去除后无残留。具有咬合全支撑结构的 SLA 制造的氧化锆冠具有良好的外部三维精度和可接受的临床适应性。
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