Rapid-printed Three-dimensional Models for Craniomaxillofacial Trauma.

IF 1.5 Q3 SURGERY

Plastic and Reconstructive Surgery Global Open Pub Date : 2024-11-22 eCollection Date: 2024-11-01 DOI:10.1097/GOX.0000000000006308

Isabel M Scharf, Sydney A Mathis, Naji Bou Zeid, Devansh Saini, George R Nahass, Eduardo Arias, Chad A Purnell, Linping Zhao, Pravin K Patel, Lee W T Alkureishi

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引用次数: 0

Abstract

Background: Advances in surgical planning and 3-dimensional (3D) printing have benefitted the field of craniomaxillofacial surgery by allowing visualization of patient anatomy in settings of otherwise restricted surgical fields. Long 3D print times limit the usability of surgical planning workflows in acute trauma reconstruction. We sought to identify variables affecting print time and produce rapid-printed models with sufficient quality for prebending osteosynthesis plates.

Methods: Three-dimensional printing variables, including resolution, print orientation, and region of interest cropping, were optimized on a single mandibular and midface fracture model to maximize print time efficiency. Five mandibular and 5 midface fractures were printed both in the high-resolution and time-efficient protocol. Fixation plates were contoured to fit the optimized models and computed tomography scan. Distances and volumes between the fracture surface and plate were computed.

Results: High-resolution mandible models were printed in 7.47 hours and maxillae in 7.53 hours. Optimized models were printed in 0.93 and 1.07 hours, respectively. Cropping to regions of interest, rotating the model, and decreasing print resolution significantly reduced print time. The difference (optimized versus high resolution) in distance between the plate and model averaged 0.22 and 0.34 mm for mandibles and maxillae; the air space volume differed by 1.39 and 0.90 mm³, respectively.

Conclusions: Adjusting size, resolution, and position on the printing platform allows rapid fabrication of 3D models for surgical reconstruction without sacrificing surface quality. These edits reduce printing time, enabling the implementation of 3D-printing workflows for surgical planning in acute craniomaxillofacial trauma settings.

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颅颌面创伤快速打印三维模型。

背景：手术规划和三维（3D）打印技术的进步使得颅颌面外科手术领域受益匪浅，因为它可以在手术视野受限的情况下可视化患者的解剖结构。漫长的三维打印时间限制了手术规划工作流程在急性创伤重建中的可用性。我们试图找出影响打印时间的变量，并制作出具有足够质量的预弯骨合成板快速打印模型：方法：在单个下颌骨和中面部骨折模型上优化了三维打印变量，包括分辨率、打印方向和感兴趣区裁剪，以最大限度地提高打印时间效率。在高分辨率和省时的方案中，分别打印了5个下颌骨和5个中面部骨折模型。固定板的轮廓与优化模型和计算机断层扫描结果相匹配。结果：结果：打印高分辨率下颌骨模型用时 7.47 小时，打印上颌骨模型用时 7.53 小时。优化模型的打印时间分别为 0.93 小时和 1.07 小时。对感兴趣的区域进行裁剪、旋转模型和降低打印分辨率可显著缩短打印时间。下颌骨和上颌骨的印版与模型之间的距离（优化与高分辨率）平均相差 0.22 和 0.34 毫米；气隙体积分别相差 1.39 和 0.90 立方毫米：通过调整打印平台的尺寸、分辨率和位置，可以在不影响表面质量的情况下快速制作用于手术重建的三维模型。这些编辑可缩短打印时间，从而在急性颅颌面创伤的手术规划中实现三维打印工作流程。

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

Plastic and Reconstructive Surgery Global Open SURGERY-

CiteScore

2.20

自引率

13.30%

发文量

1584

审稿时长

10 weeks

期刊介绍： Plastic and Reconstructive Surgery—Global Open is an open access, peer reviewed, international journal focusing on global plastic and reconstructive surgery.Plastic and Reconstructive Surgery—Global Open publishes on all areas of plastic and reconstructive surgery, including basic science/experimental studies pertinent to the field and also clinical articles on such topics as: breast reconstruction, head and neck surgery, pediatric and craniofacial surgery, hand and microsurgery, wound healing, and cosmetic and aesthetic surgery. Clinical studies, experimental articles, ideas and innovations, and techniques and case reports are all welcome article types. Manuscript submission is open to all surgeons, researchers, and other health care providers world-wide who wish to communicate their research results on topics related to plastic and reconstructive surgery. Furthermore, Plastic and Reconstructive Surgery—Global Open, a complimentary journal to Plastic and Reconstructive Surgery, provides an open access venue for the publication of those research studies sponsored by private and public funding agencies that require open access publication of study results. Its mission is to disseminate high quality, peer reviewed research in plastic and reconstructive surgery to the widest possible global audience, through an open access platform. As an open access journal, Plastic and Reconstructive Surgery—Global Open offers its content for free to any viewer. Authors of articles retain their copyright to the materials published. Additionally, Plastic and Reconstructive Surgery—Global Open provides rapid review and publication of accepted papers.