使用 2D 和 3D 可视化技术对新手进行复杂弯曲器械腹腔镜培训。

Laparoscopy training of novices with complex curved instruments using 2D- and 3D-visualization.

机构信息

Department of Oral and Maxillofacial Plastic Surgery and Interdisciplinary Department of Oral Surgery and Implantology, University of Cologne, Cologne, Germany.

Department of General, Visceral and Transplantation Surgery, LMU University Hospital, Marchioninistr. 15, 81377, Munich, Germany.

出版信息

Langenbecks Arch Surg. 2024 Apr 3;409(1):109. doi: 10.1007/s00423-024-03297-w.

DOI:10.1007/s00423-024-03297-w

PMID:38570339

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10990991/

Abstract

PURPOSE

Beside many advantages, disadvantages such as reduced degrees of freedom and poorer depth perception are still apparent in laparoscopic surgery. 3D visualization and the development of complex instruments are intended to counteract the disadvantages. We want to find out whether the use of complex instruments and 3D visualization has an influence on the performance of novices.

METHODS

48 medical students with no experience in laparoscopic surgery or simulator-based laparoscopy training were included. They were randomized in four groups according to a stratification assessment. During a structured training period they completed the FLS-Tasks "PEG Transfer", "Pattern Cut" and "Intracorporeal Suture" and a transfer task based on these three. Two groups used conventional laparoscopic instruments with 3D or 2D visualization, two groups used complex curved instruments. The groups were compared in terms of their performance.

RESULTS

In 2D laparoscopy there was a better performance with straight instruments vs. curved instruments in PEG Transfer and Intracorporeal Suture. In the transfer task, fewer errors were made with straight instruments. In 2D vs. 3D laparoscopy when using complex curved instruments there was an advantage in Intracorporeal Suture and PEG Transfer for 3D visualization. Regarding the transfer exercise, a better performance was observed and fewer errors were made in 3D group.

CONCLUSION

We could show that learning laparoscopic techniques with complex curved instruments is more difficult with standard 2D visualization and can be overcome using 3D optics. The use of curved instruments under 3D vision seems to be advantageous when working on more difficult tasks.

摘要

目的

除了许多优势外，腹腔镜手术仍然存在自由度降低和深度感知较差等缺点。3D 可视化和复杂器械的发展旨在克服这些缺点。我们想了解复杂器械和 3D 可视化的使用是否会对新手的表现产生影响。

方法

纳入 48 名没有腹腔镜手术或基于模拟器的腹腔镜培训经验的医学生。他们根据分层评估随机分为四组。在一个结构化的培训期间，他们完成了 FLS 任务“PEG 转移”、“图案切割”和“体腔内缝合”以及基于这三个任务的转移任务。两组使用具有 3D 或 2D 可视化的常规腹腔镜器械，两组使用复杂的弯曲器械。比较两组的表现。

结果

在 2D 腹腔镜中，直器械在 PEG 转移和体腔内缝合方面的性能优于弯曲器械。在转移任务中，直器械的错误较少。在使用复杂弯曲器械的 2D 与 3D 腹腔镜中，3D 可视化在体腔内缝合和 PEG 转移方面具有优势。在转移练习中，3D 组的表现更好，错误更少。

结论

我们可以证明，使用复杂的弯曲器械学习腹腔镜技术在标准 2D 可视化下更具难度，而 3D 光学可以克服这一困难。在处理更困难的任务时，使用 3D 视觉下的弯曲器械似乎具有优势。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d830/10990991/d321961984dc/423_2024_3297_Fig1_HTML.jpg

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使用 2D 和 3D 可视化技术对新手进行复杂弯曲器械腹腔镜培训。

Laparoscopy training of novices with complex curved instruments using 2D- and 3D-visualization.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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