Effect of 3D Printing Material and Thickness on CT Image Quality and Shielding

Korean Society of Computed Tomographic Technology Pub Date : 2022-03-31 DOI:10.31320/jksct.2021.24.1.37

Dae-Yeon Ryu, Sang Hyub Park

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Abstract

In order to proceed with an accurate CT examination and to prevent unnecessary exposure during CT examination, the need for an appropriate fixing device and shielding device is required. In this study, 3D printing technology, a next-generation technology, is applied to radiation science to investigate the effect on CT images and shielding effects through filaments that can be easily obtained using a general 3D printer of the melt-stacking modeling method. Using a 3D printer, a phantom made of four materials: PLA (Poly Lactic Acid), Bronze, Carbon, and eSteel was produced cylindrical shape. Statistical analysis was performed using a non-parametric test method, and the significance level (α) was set to 0.05 (5%). As a result of the measurement, the PLA filament material had the least effect on the CT image quality. After placing the dosimeter inside the phantom, when the shielding rate was measured for each material through scanning, the eSteel material had the highest shielding rate and showed a shielding rate equivalent to or higher than that of the lead shielding device currently used in clinical practice.

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3D打印材料和厚度对CT图像质量和屏蔽的影响

为了进行准确的CT检查，防止CT检查时不必要的暴露，需要适当的固定装置和屏蔽装置。本研究将新一代技术3D打印技术应用于辐射科学，研究通过熔融堆积建模方法的普通3D打印机容易获得的细丝对CT图像和屏蔽效果的影响。利用3D打印机，用PLA(聚乳酸)、青铜、碳和eSteel四种材料制作了一个圆柱形的幻影。采用非参数检验方法进行统计学分析，显著性水平(α)设为0.05(5%)。测量结果表明，PLA长丝材料对CT图像质量的影响最小。将剂量计放置在体模内，通过扫描测量每种材料的屏蔽率时，eSteel材料的屏蔽率最高，其屏蔽率相当于或高于目前临床使用的铅屏蔽装置。

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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Korean Society of Computed Tomographic Technology

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