3D printed twin block: A feasibility study

Q3 Medicine

Annals of 3D printed medicine Pub Date : 2023-08-01 DOI:10.1016/j.stlm.2023.100118

Eryn Ling Yi Chan , Yi Lin Song , Kelvin Weng Chiong Foong , Ming Tak Chew

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Abstract

Aims

Twin blocks are appliances used for Class II skeletal discrepancies, where the lower jaw is positioned more posteriorly compared to the upper. The conventional method of fabrication of this appliance is tedious and labour-intensive; hence this study intends to explore the feasibility of a digital workflow to three-dimensionally (3D) print them.

Methods

Three sets of twin blocks, identical except for amount of offset (0.0 mm, 0.1 mm and 0.2 mm), were designed and 3D printed for 5 anonymized scans of patients with Class II skeletal discrepancies. The intaglio surfaces of the 0.0 mm offset twin blocks were scanned and superimposed onto their original computer-aided-design files. The resultant colour maps, root mean square (RMS) deviations, and percentage in-tolerance values at thresholds of 0.1 mm and 0.2 mm were assessed. The fit and retention of all twin blocks were assessed on their 3D printed models via a fit and retention score (FRS).

Results

The median RMS deviation was 0.10 mm; percentage in-tolerance values at thresholds of 0.1 mm and 0.2 mm were 79.90%, and 94.51%. Printing deviations occurred most often at labial and incisal edges anteriorly, and buccal and occlusal surfaces posteriorly. There was no significant difference between the total FRS for the three groups (p = 0.076). However, the frequency of satisfactory scores for upper fit (p = 0.049), lower fit (p = 0.018), upper retention (p = 0.038) and lower retention (p = 0.015) differed significantly between the three groups.

Conclusion

This study demonstrated the viability of a digital workflow to 3D print twin blocks. Print accuracy was satisfactory, with 0.1 mm offset providing the best fit and retention.

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3D打印双块:可行性研究

AimsTwin是用于II类骨骼差异的器械，与上颚相比，下颚的位置更靠后。制造这种器具的传统方法既繁琐又费力;因此，本研究旨在探索数字化工作流程的可行性，以三维(3D)打印它们。方法设计三套双块，除了偏移量(0.0 mm, 0.1 mm和0.2 mm)相同，并3D打印用于5例II类骨骼差异患者的匿名扫描。扫描了0.0 mm偏移双块的凹版表面，并将其叠加到原始计算机辅助设计文件上。评估得到的彩色图、均方根(RMS)偏差以及阈值为0.1 mm和0.2 mm时的容差百分比。通过匹配和保留分数(FRS)在3D打印模型上评估所有双块的匹配和保留度。结果中位RMS偏差为0.10 mm;0.1 mm和0.2 mm阈值的容差率分别为79.90%和94.51%。印刷偏差最常发生在前部的唇缘和切缘，以及后部的颊面和咬合面。三组患者总FRS差异无统计学意义(p = 0.076)。然而，三组在上贴合(p = 0.049)、下贴合(p = 0.018)、上贴合保留(p = 0.038)和下贴合保留(p = 0.015)方面的满意得分频率差异有统计学意义。本研究证明了3D打印双块的数字工作流程的可行性。印刷精度令人满意，0.1毫米偏移提供了最佳的配合和保留。

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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