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基于种植体模拟体定位器偏差、内部结构和打印层厚度的 3D 打印模型和种植体模拟体位置的准确性:一项体外研究。

Accuracy of 3D printed models and implant-analog positions according to the implant-analog-holder offset, inner structure, and printing layer thickness: an in-vitro study.

机构信息

Department of Prosthodontics, College of Dentistry, Yonsei University, SeodaemunGu 03722, Seoul, South Korea.

Department of Prosthodontics, Oral Science Research Center, BK21 FOUR Project, College of Dentistry, Yonsei University, Seodaemun-gu 03722, Seoul, South Korea.

出版信息

J Dent. 2022 Oct;125:104268. doi: 10.1016/j.jdent.2022.104268. Epub 2022 Aug 20.

DOI:10.1016/j.jdent.2022.104268
PMID:35995083
Abstract

PURPOSE

This study aimed to determine how the implant-analog-holder (IAH) offset, inner structure, and printing layer thickness influence the overall accuracy and local implant-analog positional changes of 3D printed dental models.

METHODS

Specimens in 12 experimental groups (8 specimens per group) with different IAH offsets, inner structures, and printing layer thicknesses were printed in three dimensions using an LCD printer (Phrozen Shuffle) and digitized by a laboratory scanner (Identica T500). The trueness and precision of the printed model as well as the angular distortion, depth deviation, and linear distortion of the implant analog were evaluated using three-way ANOVA.

RESULTS

The positional accuracy was significantly higher for IAH offsets of 0.04 mm and 0.06 mm than for one of 0.08 mm, for a hollow than a solid inner structure, and for a printing layer thickness of 100 µm than for one of 50 µm (all P<.001).

CONCLUSIONS

The accuracies of the 3D printed models and the implant-analog positions were significantly affected by the IAH offset, inner structure, and printing layer thickness.

CLINICAL SIGNIFICANCE

Given the observation of this study, premeditating the IAH offset of 0.06 mm, hollow inner structure, and printing layer thickness of 100 µm before printing can help clinicians reach the optimum overall printing accuracy and minimum the local positional changes of the implant-analogs.

摘要

目的

本研究旨在确定种植体模拟体Holder(IAH)的偏移量、内部结构和打印层厚度如何影响 3D 打印牙模的整体精度和种植体模拟体的局部位置变化。

方法

使用液晶显示器(Phrozen Shuffle)打印机在 12 个实验组(每组 8 个样本)中打印具有不同 IAH 偏移量、内部结构和打印层厚度的样本,并使用实验室扫描仪(Identica T500)对其进行数字化。使用三因素方差分析评估打印模型的准确性和精度以及种植体模拟体的角度变形、深度偏差和线性偏差。

结果

IAH 偏移量为 0.04mm 和 0.06mm 时的位置精度明显高于 0.08mm,空心内部结构的位置精度明显高于实心内部结构,打印层厚度为 100µm 时的位置精度明显高于 50µm(均 P<.001)。

结论

3D 打印模型的精度和种植体模拟体的位置明显受到 IAH 偏移量、内部结构和打印层厚度的影响。

临床意义

鉴于本研究的观察结果,在打印前预先设定 IAH 偏移量为 0.06mm、空心内部结构和打印层厚度为 100µm,可以帮助临床医生达到最佳的整体打印精度,并最小化种植体模拟体的局部位置变化。

相似文献

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Accuracy of 3D printed models and implant-analog positions according to the implant-analog-holder offset, inner structure, and printing layer thickness: an in-vitro study.基于种植体模拟体定位器偏差、内部结构和打印层厚度的 3D 打印模型和种植体模拟体位置的准确性:一项体外研究。
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