3D 打印与铣削即刻修复体的抗折性能：一项体外研究。

The fracture resistance of 3D-printed versus milled provisional crowns: An in vitro study.

机构信息

Research Center for Digital Technologies in Dentistry and CAD/CAM, Department of Dentistry, Faculty of Medicine and Dentistry, Danube Private University, Krems, Austria.

出版信息

PLoS One. 2023 Sep 1;18(9):e0285760. doi: 10.1371/journal.pone.0285760. eCollection 2023.

DOI:10.1371/journal.pone.0285760

PMID:37656728

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10473469/

Abstract

BACKGROUND

CAD/CAM has considerably transformed the clinical practice of dentistry. In particular, advanced dental materials produced via digital technologies offer unquestionable benefits, such as ideal mechanical stability, outstanding aesthetics and reliable high precision. Additive manufacturing (AM) technology has promoted new innovations, especially in the field of biomedicine.

AIMS

The aim of this study is to analyze the fracture resistance of implant-supported 3D-printed temporary crowns relative to milled crowns by compression testing.

METHODS

The study sample included 32 specimens of temporary crowns, which were divided into 16 specimens per group. Each group consisted of eight maxillary central incisor crowns (tooth 11) and eight maxillary molar crowns (tooth 16). The first group (16 specimens) was 3D printed by a mask printer (Varseo, BEGO, Bremen, Germany) with a temporary material (VarseoSmile Temp A3, BEGO, Bremen, Germany). The second group was milled with a millable temporary material (VitaCAD Temp mono-color, Vita, Bad Säckingen, Germany). The two groups were compression tested until failure to estimate their fracture resistance. The loading forces and travel distance until failure were measured. The statistical analysis was performed using SPSS Version 24.0. We performed multiple t tests and considered a significance level of p <0.05.

RESULTS

The mean fracture force of the printed molars was 1189.50 N (±250.85) with a deformation of 1.75 mm (±0.25). The milled molars reached a mean fracture force of 1817.50 N (±258.22) with a deformation of 1.750 mm (±0.20). The printed incisors fractured at 321.63 N (±145.90) with a deformation of 1.94 mm (±0.40), while the milled incisors fractured at 443.38 N (±113.63) with a deformation of 2.26 mm (±0.40). The milled molar group revealed significantly higher mechanical fracture strength than the 3D-printed molar group (P<0.001). However, no significant differences between the 3D-printed incisors and the milled incisors were found (p = 0.084). There was no significant difference in the travel distance until fracture for both the molar group (p = 1.000) and the incisor group (p = 0.129).

CONCLUSION

Within the limits of this in vitro investigation, printed and milled temporary crowns withstood masticatory forces and were safe for clinical use.

摘要

背景

CAD/CAM 极大地改变了牙科的临床实践。特别是，通过数字技术生产的先进牙科材料具有无可置疑的优势，例如理想的机械稳定性、出色的美观度和可靠的高精度。增材制造 (AM) 技术带来了新的创新，特别是在生物医学领域。

目的

本研究旨在通过压缩试验分析种植体支持的 3D 打印临时冠相对于铣削冠的抗断裂能力。

方法

研究样本包括 32 个临时冠试件，分为每组 16 个试件。每组包括 8 个上颌中切牙冠（11 号牙）和 8 个上颌磨牙冠（16 号牙）。第一组（16 个试件）由掩模打印机（Varseo，BEGO，不来梅，德国）用临时材料（VarseoSmileTempA3，BEGO，不来梅，德国）3D 打印而成。第二组用可铣削的临时材料（VitaCADTempmono-color，Vita，巴德沙伊森，德国）铣削而成。两组均在压缩试验机上进行直至失效，以估计其抗断裂能力。测量加载力和失效前的行程距离。使用 SPSS 版本 24.0 进行统计分析。我们进行了多次 t 检验，并认为 p<0.05 具有统计学意义。

结果

打印磨牙的平均断裂力为 1189.50N（±250.85），变形为 1.75mm（±0.25）。铣削磨牙达到平均断裂力 1817.50N（±258.22），变形 1.750mm（±0.20）。打印切牙的断裂力为 321.63N（±145.90），变形为 1.94mm（±0.40），而铣削切牙的断裂力为 443.38N（±113.63），变形为 2.26mm（±0.40）。铣削磨牙组的机械断裂强度明显高于 3D 打印磨牙组（P<0.001）。然而，3D 打印切牙和铣削切牙之间没有发现显著差异（p=0.084）。在磨牙组（p=1.000）和切牙组（p=0.129）中，断裂前的行程距离均无显著差异。

结论

在本体外研究的限制范围内，打印和铣削的临时冠承受了咀嚼力，可安全用于临床。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/908e/10473469/67870c2dd656/pone.0285760.g001.jpg

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3D 打印与铣削即刻修复体的抗折性能：一项体外研究。

The fracture resistance of 3D-printed versus milled provisional crowns: An in vitro study.

机构信息

出版信息

BACKGROUND

AIMS

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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