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3D 与 2D-4K:使用标准任务和箱式训练器对腹腔镜新手进行随机前瞻性教学干预的表现和自我感知。

3D vs. 2D-4 K: Performance and self-perception of laparoscopic novices in a randomized prospective teaching intervention using standard tasks and box trainers.

机构信息

Department of General, Visceral and Thoracic Surgery, German Armed Forces Hospital Ulm, Oberer Eselsberg 40, 89081, Ulm, Germany.

School of Medicine, HMU Health and Medical University, Olympischer Weg 1, 14471, Potsdam, Germany.

出版信息

Langenbecks Arch Surg. 2024 Oct 30;409(1):330. doi: 10.1007/s00423-024-03515-5.

DOI:10.1007/s00423-024-03515-5
PMID:39477848
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11525257/
Abstract

OBJECTIVE

The use of three-dimensional (3D) laparoscopy in surgical practice and training has been an area of research and discussion. Studies have suggested that 3D vision can improve speed and precision compared to traditional two-dimensional (2D) displays, while other authors found no benefits on the learning curves of laparoscopic novices. Modern two-dimensional laparoscopy with a resolution of 3840 × 2160 pixels (2D-4 K) seems to improve laparoscopic view and helps learners orient without stereopsis. However, evidence comparing these systems for laparoscopic training is limited. Therefore, the impact of viewing mode (2D-4 K vs. 3D) on learning and task proficiency remains unclear.

DESIGN

We performed a two-hour teaching intervention on basic laparoscopic skills for novices. In this parallel group randomized study, we randomly assigned learners to 2D-4 K or 3D teaching and performed tasks of increasing difficulty and complexity using standard laparoscopy box trainers. Before the last and most challenging task, learners had to crossover to the other laparoscopy setup. Our hypothesis was that learners would be faster and more precise when using a 3D setup. The primary endpoint was task proficiency measured by speed and failure rate. Secondary outcomes were performance using the viewing mode of the other group without familiarization, self-perception, and career aspirations before and after the teaching intervention, expressed on a Likert scale.

SETTING

The study was performed by the Department of General, Visceral and Thoracic Surgery at the German Armed Forces Hospital Ulm, which is an academic teaching hospital of the University of Ulm.

PARTICIPANTS

Thirty-eight laparoscopic novices, including medical students and junior residents, participated voluntarily in this teaching intervention. Group allocation was performed via the virtual coin flip method. Apparently, participants and tutors were not blinded to group assignment. No formal approval by the ethics committee was needed for this noninvasive study in compliance with the World Medical Association Declaration of Helsinki as discussed with the ethics committee of the University of Ulm.

RESULTS

Thirty-eight laparoscopy novices were randomized in the study. The 3D group (n = 19) was significantly faster than the 2D-4 K group (n = 19) (p = .008) in a standard box trainer model, with 134.45 ± 41.45 s vs. 174.99 ± 54.03 s for task 1 and 195.97 ± 49.78 s vs. 276.56 ± 139.20 s for task 2, and the effect was consistent throughout the learning curve. The failure rate was not significantly affected by the viewing mode. After crossover to the other laparoscopy system, precision and time were not significantly different between the groups. Learners rated the difficulty of laparoscopy lower on a Likert scale after having two hours of basic laparoscopy training. The study was funded by the hospital's teaching budget.

CONCLUSIONS

Laparoscopic novices can benefit from a 3D laparoscopy training setup. Exclusive 3D training prior to a complex task on a 2D-4 K setup does not negatively affect the learner's performance.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/3330dd7fda94/423_2024_3515_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/9a38f67bc14c/423_2024_3515_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/fd428bc998e5/423_2024_3515_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/3330dd7fda94/423_2024_3515_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/9a38f67bc14c/423_2024_3515_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/fd428bc998e5/423_2024_3515_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6e56/11525257/3330dd7fda94/423_2024_3515_Fig3_HTML.jpg
摘要

目的

三维(3D)腹腔镜在手术实践和培训中的应用一直是研究和讨论的领域。研究表明,与传统的二维(2D)显示器相比,3D 视觉可以提高速度和精度,而其他作者则发现 3D 对腹腔镜新手的学习曲线没有好处。具有 3840×2160 像素分辨率的现代二维腹腔镜(2D-4K)似乎可以改善腹腔镜视野,并有助于学习者在没有立体视觉的情况下定向。然而,比较这些系统用于腹腔镜培训的证据有限。因此,观看模式(2D-4K 与 3D)对学习和任务熟练程度的影响仍不清楚。

设计

我们对新手进行了两个小时的基础腹腔镜技能教学干预。在这项平行组随机研究中,我们随机将学习者分配到 2D-4K 或 3D 教学中,并使用标准腹腔镜箱训练器进行难度和复杂度不断增加的任务。在最后也是最具挑战性的任务之前,学习者必须交叉到另一个腹腔镜设置。我们的假设是,学习者在使用 3D 设置时会更快、更精确。主要终点是通过速度和失败率衡量的任务熟练程度。次要结果是在教学干预前后使用其他组的观察模式(无需熟悉)、自我感知和职业抱负进行的表现,使用李克特量表表示。

地点

该研究由德国武装部队乌尔姆医院普通、内脏和胸外科完成,该医院是乌尔姆大学的一所学术教学医院。

参与者

38 名腹腔镜新手,包括医学生和初级住院医师,自愿参加了这项教学干预。通过虚拟掷硬币的方法进行分组分配。显然,参与者和导师对分组分配并不了解。由于这是一项非侵入性研究,符合世界医学协会赫尔辛基宣言的规定,并与乌尔姆大学的伦理委员会进行了讨论,因此无需伦理委员会正式批准。

结果

研究中随机分配了 38 名腹腔镜新手。3D 组(n=19)在标准箱式训练模型中明显快于 2D-4K 组(n=19)(p=0.008),任务 1 的用时为 134.45±41.45s,任务 2 的用时为 195.97±49.78s,而 2D-4K 组的用时分别为 174.99±54.03s 和 276.56±139.20s,并且这种效果在整个学习曲线中是一致的。观察模式对失败率没有显著影响。交叉到另一个腹腔镜系统后,两组之间的精度和时间没有显著差异。学习者在接受了两个小时的基础腹腔镜培训后,对腹腔镜的难度评价在李克特量表上较低。该研究由医院的教学预算资助。

结论

腹腔镜新手可以从 3D 腹腔镜培训设置中受益。在 2D-4K 设置上进行复杂任务之前,单独进行 3D 培训不会对学习者的表现产生负面影响。

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