3D printed bone models in oral and cranio-maxillofacial surgery: a systematic review.

IF 3.2 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

3D printing in medicine Pub Date : 2020-10-20 DOI:10.1186/s41205-020-00082-5

Matteo Meglioli, Adrien Naveau, Guido Maria Macaluso, Sylvain Catros

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引用次数: 51

Abstract

Aim: This systematic review aimed to evaluate the use of three-dimensional (3D) printed bone models for training, simulating and/or planning interventions in oral and cranio-maxillofacial surgery.

Materials and methods: A systematic search was conducted using PubMed® and SCOPUS® databases, up to March 10, 2019, by following the Preferred Reporting Items for Systematic reviews and Meta-Analysis (PRISMA) protocol. Study selection, quality assessment (modified Critical Appraisal Skills Program tool) and data extraction were performed by two independent reviewers. All original full papers written in English/French/Italian and dealing with the fabrication of 3D printed models of head bone structures, designed from 3D radiological data were included. Multiple parameters and data were investigated, such as author's purpose, data acquisition systems, printing technologies and materials, accuracy, haptic feedback, variations in treatment time, differences in clinical outcomes, costs, production time and cost-effectiveness.

Results: Among the 1157 retrieved abstracts, only 69 met the inclusion criteria. 3D printed bone models were mainly used as training or simulation models for tumor removal, or bone reconstruction. Material jetting printers showed best performance but the highest cost. Stereolithographic, laser sintering and binder jetting printers allowed to create accurate models with adequate haptic feedback. The cheap fused deposition modeling printers exhibited satisfactory results for creating training models.

Conclusion: Patient-specific 3D printed models are known to be useful surgical and educational tools. Faced with the large diversity of software, printing technologies and materials, the clinical team should invest in a 3D printer specifically adapted to the final application.

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3D打印骨模型在口腔和颅颌面外科:系统综述。

目的:本系统综述旨在评估三维(3D)打印骨模型在口腔和颅颌面外科手术中的训练、模拟和/或计划干预措施的使用。材料和方法:使用PubMed®和SCOPUS®数据库进行系统检索，截至2019年3月10日，遵循系统评价和荟萃分析首选报告项目(PRISMA)协议。研究选择、质量评估(改良的Critical Appraisal Skills Program工具)和数据提取由两名独立审稿人完成。所有用英语/法语/意大利语撰写的原始完整论文都包括在内，这些论文涉及3D打印头骨结构模型的制作，这些模型是根据3D放射学数据设计的。研究了多个参数和数据，如作者的目的、数据采集系统、打印技术和材料、准确性、触觉反馈、治疗时间的变化、临床结果的差异、成本、生产时间和成本效益。结果:在1157篇检索摘要中，只有69篇符合纳入标准。3D打印骨模型主要用于肿瘤切除或骨重建的训练或模拟模型。材料喷墨打印机性能最好，但成本最高。立体光刻，激光烧结和粘合剂喷墨打印机允许创建具有足够触觉反馈的精确模型。廉价的熔融沉积造型打印机在制作训练模型方面表现出令人满意的效果。结论:已知患者特异性3D打印模型是有用的手术和教育工具。面对各种各样的软件、打印技术和材料，临床团队应该投资一台专门适应最终应用的3D打印机。

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3D printing in medicine

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5 weeks