Peter Joseph Mounsef, Pasquale Mulé, Mitchell Bernstein, Reggie Hamdy
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引用次数: 0
Abstract
Background: Three-dimensional (3D) printing has proven to be effective in orthopaedic surgery, improving both surgical planning and outcomes. Despite its increasing use in surgical programs, reviews evaluating its educational impact are sparse. Therefore, the aim of this review was to provide educators with evidence-based findings on 3D printing's potential in training junior surgeons, as well as discuss its benefits in enhancing patient communication.
Methods: A comprehensive search using PubMed and Web of Science databases was performed to identify articles related to orthopaedics, 3D printing, and education. After removing duplicates, 2,160 articles were screened, 152 underwent full-text review, and 50 met inclusion criteria. Articles discussed the impact of 3D-printed models on comprehension or surgical performance. Data on publication details, sample size, teaching focus, learning outcomes, costs, and conclusions were extracted. Learning effects in the control (didactic) and experimental (3DP) groups were compared.
Results: In fracture management training, studies demonstrated significantly improved fracture classification accuracy, surgical performance, and interobserver classification agreement with 3D models compared with didactic learning and traditional imaging modalities. These benefits were particularly evident in cases of complex fractures and junior trainees. In arthroscopy, 3D-printed simulators improved procedural accuracy and were more cost-effective than virtual reality simulators and cadaveric laboratory results. Three-dimensionally printed simulators were also assessed for skills related to spine surgery, in which trainees demonstrated clear learning curve improvements for pedicle screw placement and osteotomy techniques, as well as a better understanding of vital paraspinal structures. The application of 3D printing in patient education was equally promising, as it facilitated the process of informed consent, ultimately promoting shared decision making.
Conclusion: The use of 3D-printed models offers effective and customizable methods for developing essential surgical skills. Future research should focus on larger, more diverse study populations and should include long-term follow-up to better assess the impact of 3D printing on education and patient outcomes.
背景:三维(3D)打印已被证明在骨科手术中是有效的,可以改善手术计划和结果。尽管它在外科项目中的应用越来越多,但评估其教育影响的评论却很少。因此,本综述的目的是为教育工作者提供基于证据的发现,说明3D打印在培训初级外科医生方面的潜力,并讨论其在加强患者沟通方面的好处。方法:使用PubMed和Web of Science数据库进行全面搜索,以确定与骨科、3D打印和教育相关的文章。在剔除重复后,筛选了2160篇文章,152篇进行了全文审查,50篇符合纳入标准。文章讨论了3d打印模型对理解或手术性能的影响。提取了有关出版物细节、样本量、教学重点、学习成果、成本和结论的数据。比较对照组(教学组)和实验组(3DP组)的学习效果。结果:在骨折管理培训中,研究表明,与教学学习和传统成像方式相比,3D模型显著提高了骨折分类的准确性、手术表现和观察者之间的分类一致性。这些益处在复杂骨折和初级受训者中尤为明显。在关节镜检查中,3d打印模拟器提高了程序准确性,并且比虚拟现实模拟器和尸体实验室结果更具成本效益。三维打印模拟器还评估了与脊柱外科相关的技能,其中受训人员在椎弓根螺钉放置和截骨技术方面表现出明显的学习曲线改善,以及更好地理解重要的椎旁结构。3D打印在患者教育中的应用同样有前景,因为它促进了知情同意的过程,最终促进了共同决策。结论:3d打印模型的使用为培养必要的外科技能提供了有效的、可定制的方法。未来的研究应该集中在更大、更多样化的研究人群上,并包括长期随访,以更好地评估3D打印对教育和患者预后的影响。
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