Medical simulator for the training of traumatologists: pilot work

N.N. Priorov Journal of Traumatology and Orthopedics Pub Date : 2023-02-27 DOI:10.17816/vto110979

Timofey A. Paramonov, I. Markin, Vladimirova An, S. Kushnarev, Pyotr K. Potapov, Kirill A. Vedishchev, N. Varlamova, Artur R. Muzafarov, Renat R. Baykiev, E. A. Zhurbin, Denis A. Otavin, Iraida A. Zabirova

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引用次数: 1

Abstract

BACKGROUND: Pelvic fractures are one of the most complex and fatal injuries because numerous large blood vessels are affected. They entail partial or complete loss of working capacity and have a high mortality rate. In medical practice, the number of pelvic fractures is fewer than that of other types of fractures, and specialists often lack practical experience and skills in the treatment. Thus, for the training, or advanced training of specialists, more serious theoretical training is required, which is unproductive without high-quality training simulators and models. AIM: The study aimed to develop and manufacture an easy-to-use simulator that mimics human soft tissues and makes it possible to comprehensively prepare and educate specialists in the technique of installing an external fixation device for unstable pelvic fractures. MATERIALS AND METHODS: To create the simulator, several main stages were completed: obtaining samples of the pelvic bones, making a mold for casting, and directly assembling the simulator. To obtain bone samples, computed tomography scans and magnetic resonance therapy images were used, on which a three-dimensional (3D) model of the pelvic bones was obtained. Based on this model, anatomically accurate copies of the pelvic bones were made using additive technologies. Then, a 3D digital computer model was developed, and a mold for casting the finished product was made. Bone samples were placed inside the mold, and the mold was gradually filled with a gelatinglycerin compound, which after hardening mimics human soft tissues. RESULTS: A prototype of a medical simulator for teaching the installation of the concomitant injury kit apparatus for unstable pelvic fractures was made. CONCLUSION: The manufactured simulator can be widely used in educating and training specialists given its sufficiently high anatomical accuracy, ease of maintenance, and good potential for mass production.

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培训创伤学家的医疗模拟器:试点工作

背景:骨盆骨折是最复杂和致命的伤害之一，因为许多大血管受到影响。它们导致部分或完全丧失工作能力，死亡率很高。在医疗实践中，骨盆骨折的数量少于其他类型的骨折，专家往往缺乏治疗的实践经验和技能。因此，对于专家的培训或高级培训，需要更认真的理论培训，没有高质量的培训模拟器和模型是没有成效的。目的:本研究旨在开发和制造一个易于使用的模拟人体软组织的模拟器，使其能够全面准备和培训专家在不稳定骨盆骨折中安装外固定装置的技术。材料与方法:在制作仿真器的过程中，完成了几个主要阶段:获取骨盆骨样本、制作铸造模具和直接组装仿真器。为了获得骨样本，使用计算机断层扫描和磁共振治疗图像，在其上获得骨盆骨的三维(3D)模型。在此模型的基础上，使用加法技术制作了解剖学上精确的骨盆骨副本。然后，建立了三维数字计算机模型，并制作了成品铸造模具。骨样本被放置在模具内，模具逐渐充满凝胶甘油化合物，硬化后模拟人体软组织。结果:制作了一个用于不稳定骨盆骨折伴伤包装置教学的医学模拟器原型。结论:该仿真器解剖精度高，易于维护，具有良好的批量生产潜力，可广泛应用于专家教育培训。

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

N.N. Priorov Journal of Traumatology and Orthopedics

CiteScore

0.30

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0.00%

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