Feasibility and Evaluation of a Novel Open-Source 3D Printed Simulator for Microlaryngeal Surgery.

IF 1.8 Q2 OTORHINOLARYNGOLOGY

OTO Open Pub Date : 2025-03-10 eCollection Date: 2025-01-01 DOI:10.1002/oto2.70098

Alan Balu, Hemali P Shah, Sagar Vasandani, Nazaneen Grant

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Abstract

Objective: This study aims to evaluate the feasibility and utility of a novel, open-source 3D printed simulator for practicing laryngeal surgery skills in the clinic setting.

Study design: Device development and validation.

Setting: A tertiary medical center.

Methods: A laryngeal surgery simulator was created using computer-aided design software and 3D printed. Ten otolaryngology residents completed exercises utilizing the simulator and a flexible video laryngoscope for visualization. The training involved 3 microsurgery tasks: (1) suture removal from simulated vocal cords, (2) removal of silicone vocal cord polyps, and (3) simulated flap creation by peeling a grape's skin. Participant demographics, task completion time, and video recordings were collected. Participants provided subjective feedback through 5-point Likert-style questions assessing content and face validity.

Results: Both novice and experienced otolaryngology resident physicians reported positive perceptions of the simulator and its efficacy as an educational device, with average agreement more than neutral (P < .01). Participants praised the simulator's utility for practicing microsurgery skills using a flexible video laryngoscope and for handling instruments such as Kleinsasser forceps and micro scissors (P < .01). Preliminary findings suggest improvements in task completion time with higher post-graduate year. Participants also reported the need for greater realism.

Conclusion: This study of a 3D-printed simulator for laryngeal surgery skills using a flexible video laryngoscope demonstrated promising utility as an educational device. Positive feedback reflects the potential value as a training tool for residents to practice fine motor skills required for laryngeal surgery. Further research with larger sample sizes is needed to validate these findings.

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一种新型开源3D打印微喉手术模拟器的可行性与评估。

目的：本研究旨在评估一种新型的、开源的3D打印模拟器在临床环境中练习喉外科技能的可行性和实用性。研究设计：设备开发和验证。环境：三级医疗中心。方法：采用计算机辅助设计软件和3D打印技术制作喉部手术模拟器。10名耳鼻喉科住院医师利用模拟器和灵活的可视喉镜完成了练习。培训包括3个显微手术任务：(1)模拟声带缝线移除，(2)硅胶声带息肉移除，(3)通过剥葡萄皮模拟皮瓣创建。收集了参与者的人口统计数据、任务完成时间和视频记录。参与者通过李克特式的5分式问题提供主观反馈，评估内容和面部效度。结果：新手和有经验的耳鼻喉科住院医师都报告了对模拟器及其作为教育设备的有效性的积极看法，平均同意度高于中性（P P）结论：使用柔性视频喉镜的喉外科技能3d打印模拟器的研究显示了作为教育设备的有希望的效用。积极的反馈反映了作为住院医师练习喉部手术所需的精细运动技能的培训工具的潜在价值。需要更大样本量的进一步研究来验证这些发现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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