Thickness Variations of Thermoformed and 3D-Printed Clear Aligners.

IF 1.4 Q3 DENTISTRY, ORAL SURGERY & MEDICINE

Acta Stomatologica Croatica Pub Date : 2024-06-01 DOI:10.15644/asc58/2/4

Ružica Bandić, Katarina Vodanović, Ivna Vuković Kekez, Ivana Medvedec Mikić, Ivan Galić, Danijela Kalibović Govorko

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引用次数: 0

Abstract

Objective: To assess thickness variations of thermoformed and 3D-printed clear aligners.

Materials and methods: Six different thermoplastic materials with different initial thicknesses were used for aligner thermoforming using Biostar® device (Biostar®, SCHEU-DENTAL GmbH, Iserlohn, Germany). Also, two different dental resins were used to create the printed aligners in three digitally designed thicknesses using IZZI Direct printer (3Dtech, Zagreb, Croatia). The aligners were measured using an electronic micrometer (ELECTRONIC UNIVERSAL MICROMETER, Schut Geometrical Metrology, Groningen, The Netherlands, accuracy: 0.001 mm) on a total of 20 points per aligner. Statistical analysis was performed using the JASP program (JASP, University of Amsterdam, Amsterdam, The Netherlands).

Results: The difference between the thermoformed and printed groups was statistically significant. Significant differences between different thermoformed materials and between 3D-printed materials were found. The thickness of thermoformed aligners deviated more in the upper jaw, whereas the thickness of printed aligners deviated more in the lower jaw. Both differences were statistically significant. The greatest average deviation from the initial thickness was found in Duran 0.75; Erkodur 0.6; Erkoloc-Pro 1.0; IZZI 0.5; NextDent 0.6 and NextDent A 0.6. NextDent group had the lowest deviations for all teeth of both jaws, except for upper and lower first molar where NextDent A group was more accurate.

Conclusions: Thermoformed aligners showed decreased values, while printed ones showed mostly increased values compared to the original material thickness. The highest mean deviation belonged to IZZI group, and the NextDent group had the lowest mean deviation. The thickness of both aligners was thinner at the edges compared to the thickness at cusps and fissures.

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热成型和三维打印透明矫治器的厚度变化。

目的：评估热成型和 3D 打印透明矫治器的厚度变化：评估热成型和三维打印透明对准器的厚度变化：使用 Biostar® 设备（Biostar®，SCHEU-DENTAL GmbH，Iserlohn，Germany）对六种不同初始厚度的热塑性材料进行矫正器热成型。此外，还使用了两种不同的牙科树脂，通过 IZZI Direct 打印机（3Dtech，克罗地亚萨格勒布）打印出三种数字设计厚度的矫治器。使用电子千分尺（ELECTRONIC UNIVERSAL MICROMETER，Schut Geometrical Metrology，Groningen，The Netherlands，精度：0.001 毫米）对每个矫正器进行测量，每个矫正器共测量 20 个点。使用 JASP 程序（JASP，阿姆斯特丹大学，荷兰阿姆斯特丹）进行统计分析：结果：热成型组和印刷组之间的差异具有统计学意义。不同热成型材料和三维打印材料之间存在明显差异。热成型矫治器的厚度在上颌偏差较大，而打印矫治器的厚度在下颌偏差较大。这两种差异都具有统计学意义。与初始厚度偏差最大的是 Duran 0.75、Erkodur 0.6、Erkoloc-Pro 1.0、IZZI 0.5、NextDent 0.6 和 NextDent A 0.6。NextDent组在两颌所有牙齿上的偏差都最小，除了上、下第一磨牙，NextDent A组更准确：结论：与原始材料厚度相比，热成型矫治器的数值有所下降，而印刷矫治器的数值大多有所上升。IZZI 组的平均偏差最大，NextDent 组的平均偏差最小。与尖牙和裂隙处的厚度相比，两种矫治器边缘处的厚度都较薄。

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

Acta Stomatologica Croatica DENTISTRY, ORAL SURGERY & MEDICINE-

CiteScore

2.40

自引率

28.60%

发文量

审稿时长

12 weeks

期刊介绍： The Acta Stomatologica Croatica (ASCRO) is a leading scientific non-profit journal in the field of dental, oral and cranio-facial sciences during the past 44 years in Croatia. ASCRO publishes original scientific and clinical papers, preliminary communications, case reports, book reviews, letters to the editor and news. Review articles are published by invitation from the Editor-in-Chief by acclaimed professionals in distinct fields of dental medicine. All manuscripts are subjected to peer review process.