Validation of a novel simulated tendon model for core suture tendon repair.

IF 1.1 4区医学 Q3 SURGERY

Annals of the Royal College of Surgeons of England Pub Date : 2024-09-24 DOI:10.1308/rcsann.2024.0064

L Western, P G Roberts, J Rees, D Howgate

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引用次数: 0

Abstract

Introduction: Simulation training can develop surgical procedural skills in a safe environment. Able to offer high-intensity exposure, simulation is increasingly important as working time for surgeons becomes more protected. Materials used in simulated tendon repair play a critical role in the fidelity and face validity of the model. Although organic materials like porcine tendon are commonly used, non-organic materials offer advantages such as accessibility, reproducibility, cost-effectiveness and ease of use without the need for special licences or facilities. This study aims to establish the face, content and concurrent validity of using a novel silicone material in a simulated tendon repair model.

Methods: Three tendon models, bathroom silicone sealant, DragonSkin^® silicone and organic porcine tendons, were evaluated for concurrent validity through mechanical load to failure testing. Face and content validity were assessed, following participant repair of a DragonSkin^® tendon, using a 5-point Likert scale for five clinically relevant parameters.

Results: Significant differences in load to failure were observed among bathroom sealant, DragonSkin^® and porcine tendon (11.1N, 31.7N and 56.2N; p < 0.001). Participant feedback on the DragonSkin^® tendon indicated that it was suitably representative, easy to use and useful for training (agreement rates 58%, 75% and 83%, respectively). However, participants noted that the model did not handle or glide like human tendon (both 8% agreement).

Conclusion: DragonSkin^® silicone is an adaptable and valid material for simulated tendon repair models. It is low cost, widely available and shows promise as a training tool. Future research will focus on exploring its effectiveness in training settings.

查看原文本刊更多论文

验证用于核心缝合肌腱修复的新型模拟肌腱模型。

介绍：模拟训练可以在安全的环境中培养外科手术技能。由于外科医生的工作时间受到更多保护，能够提供高强度暴露的模拟训练变得越来越重要。用于模拟肌腱修复的材料对模型的逼真度和表面有效性起着至关重要的作用。虽然猪肌腱等有机材料是常用材料，但非有机材料也有其优势，如易于获得、可重现、成本效益高、使用方便，且无需特殊许可或设施。本研究旨在确定在模拟肌腱修复模型中使用新型硅胶材料的表面、内容和同时有效性：方法：通过机械载荷至失效测试，对三种肌腱模型（浴室硅胶密封剂、DragonSkin®硅胶和有机猪肌腱）的并发有效性进行了评估。在参与者对DragonSkin®肌腱进行修复后，采用5点李克特量表对五个临床相关参数进行了表面效度和内容效度评估：结果：在浴室密封胶、DragonSkin®和猪肌腱之间观察到的破坏载荷存在显著差异（11.1N、31.7N 和 56.2N；p < 0.001）。参与者对 DragonSkin® 肌腱的反馈表明，该模型具有适当的代表性，易于使用，对培训非常有用（同意率分别为 58%、75% 和 83%）。不过，参与者指出，该模型的手感和滑动性与人体肌腱不一样（同意率均为 8%）：结论：DragonSkin® 硅胶是一种适用于模拟肌腱修复模型的有效材料。结论：DragonSkin® 硅胶是一种适用于模拟肌腱修复模型的有效材料，它成本低廉，可广泛使用，有望成为一种培训工具。未来的研究将重点探索其在训练环境中的有效性。

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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来源期刊

Annals of the Royal College of Surgeons of England Medicine-Surgery

CiteScore

2.40

自引率

0.00%

发文量

316

期刊介绍： The Annals of The Royal College of Surgeons of England is the official scholarly research journal of the Royal College of Surgeons and is published eight times a year in January, February, March, April, May, July, September and November. The main aim of the journal is to publish high-quality, peer-reviewed papers that relate to all branches of surgery. The Annals also includes letters and comments, a regular technical section, controversial topics, CORESS feedback and book reviews. The editorial board is composed of experts from all the surgical specialties.