A radiographic analysis of common 3D print materials and assessment of their fidelity within vertebral models

Q3 Medicine

Annals of 3D printed medicine Pub Date : 2022-10-01 DOI:10.1016/j.stlm.2022.100080

Michael W. Pullen , Robert A. Pooley , James M. Kofler Jr , Fidel Valero-Moreno , Andres Ramos-Fresnedo , Ricardo A. Domingo , Carlos Perez-Vega , W. Christopher Fox , Sukhwinder Johnny S Sandhu , Alfredo Quinones-Hinojosa , Ian A. Buchanan

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引用次数: 2

Abstract

Introduction: The objective of this investigation is to examine a wide array of commonly accessible 3D print filaments and assess their radiographic fidelity in vertebral models.

Material and methods: Solid cylinders were 3D printed on an Ultimaker S5 (Ultimaker B.V., Utrecht, Netherlands) in 12 commonly accessible filaments: ABS (Acrylonitrile butadiene styrene), PLA (Polylactic acid), Tough PLA, PP (Poly propylene), Carbon Fiber ABS, Wood fill, PETG (Polyethylene terephthalate glycol), Nylon, PC (Polycarbonate), Bronze fill, TPU 95A (Thermoplastic polyurethane), and CPE (Chlorinated polyethylene). Cylinders were imaged in a CT phantom with anatomic standards. Next, 11 identical L4 human vertebral models were 3D printed in the same materials (omission of TPU 95A). AP and lateral fluoroscopic images were taken of each of the vertebrae and sent to board-certified/board-eligible neurosurgeons, neuroradiologists, and orthopedic spine surgeons for evaluation.

Results: CT imaging of the materials yielded a range of Hounsfield values from –120.6 HU (PP) to 167.76 HU (PETG). The polled experts rated CF ABS as the highest fidelity model (mean 4.069) and Bronze fill as lowest (mean 2.000). All simulated vertebrae in this study ranked higher than Bronze fill (p<0.05). Notably, CF ABS (p=0.0029), ABS (p=0.0075), and CPE (p=0.0182) ranked significantly higher than Tough PLA.

Discussion: It was determined that CT values of examined filaments were not comparable to cortical bone standard but similar to other bone standards. Our results suggest that apart from Bronze fill, educators can create high fidelity fluoroscopic models with print materials such as ABS, CF ABS, and CPE.

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常见3D打印材料的放射学分析和评估其在椎体模型中的保真度

简介:本研究的目的是检查一系列常见的3D打印细丝，并评估其在椎体模型中的放射成像保真度。材料和方法:固体圆柱体在Ultimaker S5 (Ultimaker B.V, Utrecht，荷兰)上3D打印，采用12种常见的长丝:ABS(丙烯腈-丁二烯-苯乙烯)、PLA(聚乳酸)、Tough PLA、PP(聚丙烯)、碳纤维ABS、木材填充、PETG(聚对苯二甲酸乙二醇酯)、尼龙、PC(聚碳酸酯)、青铜填充、TPU 95A(热塑性聚氨酯)和CPE(氯化聚乙烯)。在具有解剖标准的CT幻象中成像柱。接下来，使用相同的材料3D打印11个相同的L4人体椎体模型(遗漏TPU 95A)。每个椎骨的正位和侧位透视图像被发送给委员会认证/委员会合格的神经外科医生、神经放射科医生和骨科脊柱外科医生进行评估。结果:材料的CT成像产生的Hounsfield值范围为-120.6 HU (PP)至167.76 HU (PETG)。被调查的专家认为CF ABS是保真度最高的模型(平均4.069)，青铜填充最低(平均2.000)。本研究模拟椎体的排名均高于Bronze fill (p<0.05)。值得注意的是，CF ABS (p=0.0029)、ABS (p=0.0075)和CPE (p=0.0182)的排名显著高于Tough PLA。讨论:确定所检查骨细丝的CT值与皮质骨标准没有可比性，但与其他骨标准相似。我们的研究结果表明，除了青铜填充，教育者还可以使用打印材料(如ABS、CF ABS和CPE)创建高保真的透视模型。

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

Annals of 3D printed medicine Medicine and Dentistry (General), Materials Science (General)

CiteScore

4.70

自引率

0.00%

发文量

审稿时长

131 days