Otolaryngology Department, University of São Paulo School of Medicine, Av Dr. Eneas de Carvalho Aguir 255 6º, Andar sala 6167, São Paulo, 05403-000, Brazil.
Radiology Department, Radiology at DAPI, Catholic Ladies League of Curitiba, Curitiba, Brazil.
Eur Arch Otorhinolaryngol. 2022 Apr;279(4):1709-1719. doi: 10.1007/s00405-021-07088-7. Epub 2021 Sep 17.
The progressive expansion of the technology that facilitates the development of three-dimensional (3D) printing within the field of otorhinolaryngology has opened up a new study front in medicine. The objective of this study is to systematically review scientific publications describing the development of 3D models having applications in otorhinolaryngology, with emphasis on subareas with a large number of publications, as well as the countries in which the publications are concentrated.
In this literature review, specific criteria were used to search for publications on 3D models. The review considered articles published in English on the development of 3D models to teach otorhinolaryngology. The studies with presurgical purposes or without validation of the task by surgeons were excluded from this review.
This review considered 39 articles published in 10 countries between 2012 and 2021. The works published prior to 2012 were not considered as per the inclusion criteria for the research. Among the 39 simulators selected for review, otology models comprised a total of 15 publications (38%); they were followed by rhinology, with 12 (31%); laryngology, with 8 (21%); and head and neck surgery, with 4 publications (10%).
The use of 3D technology and printing is well established in the context of surgical education and simulation models. The importance of developing new technological tools to enhance 3D printing and the current limitations in obtaining appropriate animal and cadaver models signify the necessity of investing more in 3D models.
促进耳鼻喉领域三维(3D)打印技术不断发展,为医学开辟了新的研究前沿。本研究旨在系统地回顾描述耳鼻喉科应用 3D 模型开发的科学文献,重点关注发表文献数量较多的领域以及文献集中的国家。
在本次文献综述中,使用特定标准搜索了有关 3D 模型的出版物。综述考虑了关于开发 3D 模型以教授耳鼻喉科的英文出版物。本综述排除了具有术前目的或未经外科医生验证任务的研究。
本综述考虑了 2012 年至 2021 年间在 10 个国家发表的 39 篇文章。根据研究的纳入标准,2012 年之前发表的作品未被考虑。在所选择的 39 个模拟器中,总计有 15 篇(38%)涉及耳科学模型;其次是鼻科学,有 12 篇(31%);喉科学,有 8 篇(21%);头颈部外科,有 4 篇(10%)。
3D 技术和打印在外科教育和模拟模型中得到了广泛应用。开发新技术工具以增强 3D 打印的重要性以及在获得合适的动物和尸体模型方面的当前局限性表明,需要在 3D 模型方面进行更多投资。
