创建人工耳蜗训练模型原型。

IF 1.3 4区 医学 Q3 OTORHINOLARYNGOLOGY
Ishwor Gautam, Avi Shaw, Dhiren Brickman, Ajay Mahajan, Anita Jeyakumar
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引用次数: 0

摘要

目标:创建一个新颖的 3D 打印物理耳蜗模型,证明创建模型的可行性,以及图形用户界面 (GUI) 系统对训练插入指标的影响:创建新型 3D 打印物理耳蜗模型,证明创建模型的可行性,以及图形用户界面 (GUI) 系统对训练插入指标的影响:研究设计:可行性研究,试点前瞻性数据收集:环境:三级学术中心:方法:该研究获得了美国注册研究委员会(IRB)的批准。五名住院受训者(PGY1-PGY5)在使用模拟器之前,先在尸体颞骨上练习电极插入。九名学生接受了如何握住电极和定位电极的教育,然后获准使用模拟器。所有学员都被告知,较慢的插入速度是有利的。一名人工耳蜗植入(CI)外科医生使用了模拟器。图形用户界面捕捉了真实的视频画面,同时还提供了距离、轨迹和速度测量值。该程序旨在绘制电极的实时插入深度和插入速度;用户还能实时看到任何扭结和后退:共有 14 名学员和 1 名 CI 外科医生在未使用图形用户界面的情况下至少插入电极 5 次(使用前),然后在使用图形用户界面的情况下至少插入 5 次(使用后)。前后的平均速度(100.84 和 53.23 mm/s);前后的平均最小速度(59.34 和 9.65 mm/s);前后的平均最大速度(416 和 285.81 mm/s)。所有测量的插入速度均有明显改善(P 结论):使用 3D 打印模型和图形用户界面进行人工耳蜗植入的实时培训有助于提高外科住院医师的培训水平和外科学员电极插入的舒适度。该模型的优点是外科医生/受训者可以随意多次使用,因为整个设置简单、经济且可重复使用。实时图形用户界面增强了培训效果,并提高了练习技能的保持率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Creation of a Prototype Cochlear Training Model.

Objective: Creation of a novel 3D-printed physical cochlear model that demonstrated the feasibility of creating the model, and impact of a Graphical User Interface (GUI) system on training insertion metrics.

Study design: Feasibility study with a pilot prospective data collection.

Setting: Tertiary academic center.

Methods: The study was IRB exempt. Five resident trainees (PGY1-PGY5) practiced electrode insertions in cadaveric temporal bones before using the simulator. Nine students were educated on how to hold the electrodes and position them, and then allowed to use the simulator. All trainees were instructed that slower insertions were favorable. One cochlear implant (CI) surgeon used the simulator. The GUI captured the real video feed, but also provided distance, trajectory, and velocity measurements. The program is designed to plot the real-time depth of insertion and speed of insertion of the electrode; the user is also provided real-time occurrence of any kinks and back-outs.

Results: A total of 14 trainees and 1 CI surgeon inserted the electrode at least 5 times without the use of the GUI (before) and then at least 5 times with the use of the GUI (after). Average Speed before and after (100.84 and 53.23 mm/s); Average minimum speed before and after (59.34 and 9.65 mm/s); and Average maximum speed before and after (416 and 285.81 mm/s). Statistically significant improvements were noted in all the measured speeds of insertion (P < .001). The other variables improved but not to a statistical significance.

Conclusions: Real-time training using the 3D-printed model and GUI for cochlear implantation can help improve surgical resident training and comfort levels with electrode insertion for surgical trainees. The advantage of this model is that surgeons/trainees can use it as many times as they like, as the whole set-up is easy, economical, and reusable. The real time graphical user interface enhances training and retention of the practiced skills.

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来源期刊
CiteScore
3.10
自引率
7.10%
发文量
171
审稿时长
4-8 weeks
期刊介绍: The Annals of Otology, Rhinology & Laryngology publishes original manuscripts of clinical and research importance in otolaryngology–head and neck medicine and surgery, otology, neurotology, bronchoesophagology, laryngology, rhinology, head and neck oncology and surgery, plastic and reconstructive surgery, pediatric otolaryngology, audiology, and speech pathology. In-depth studies (supplements), papers of historical interest, and reviews of computer software and applications in otolaryngology are also published, as well as imaging, pathology, and clinicopathology studies, book reviews, and letters to the editor. AOR is the official journal of the American Broncho-Esophagological Association.
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