Simulation device for shoulder reductions: overview of prototyping, testing, and design instructions.

IF 2.8 Q2 HEALTH CARE SCIENCES & SERVICES Advances in simulation (London, England) Pub Date : 2023-03-09 DOI:10.1186/s41077-023-00246-3
Sorab Taneja, Will Tenpas, Mehul Jain, Peter Alfonsi, Abhinav Ratagiri, Ann Saterbak, Jason Theiling
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Abstract

Background: Shoulder dislocations are common occurrences, yet there are few simulation devices to train medical personnel on how to reduce these dislocations. Reductions require a familiarity with the shoulder and a nuanced motion against strong muscle tension. The goal of this work is to describe the design of an easily replicated, low-cost simulator for training shoulder reductions.

Materials and methods: An iterative, stepwise engineering design process was used to design and implement ReducTrain. A needs analysis with clinical experts led to the selection of the traction-countertraction and external rotation methods as educationally relevant techniques to include. A set of design requirements and acceptance criteria was established that considered durability, assembly time, and cost. An iterative prototyping development process was used to meet the acceptance criteria. Testing protocols for each design requirement are also presented. Step-by-step instructions are provided to allow the replication of ReducTrain from easily sourced materials, including plywood, resistance bands, dowels, and various fasteners, as well as a 3D-printed shoulder model, whose printable file is included at a link in the Additional file 1: Appendix.

Results: A description of the final model is given. The total cost for all materials for one ReducTrain model is under US $200, and it takes about 3 h and 20 min to assemble. Based on repetitive testing, the device should not see any noticeable changes in durability after 1000 uses but may exhibit some changes in resistance band strength after 2000 uses.

Discussion: The ReducTrain device fills a gap in emergency medicine and orthopedic simulation. Its wide variety of uses points to its utility in several instructional formats. With the rise of makerspaces and public workshops, the construction of the device can be easily completed. While the device has some limitations, its robust design allows for simple upkeep and a customizable training experience.

Conclusion: A simplified anatomical design allows for the ReducTrain model to serve as a viable training device for shoulder reductions.

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模拟装置肩部减少:原型,测试和设计说明概述。
背景:肩关节脱位是常见的现象,但很少有模拟设备来培训医务人员如何减少这些脱位。减少需要熟悉肩膀和细致的动作对抗强烈的肌肉紧张。这项工作的目标是描述一个易于复制的低成本模拟器的设计,用于训练肩部复位。材料和方法:采用迭代的、逐步的工程设计过程来设计和实现ReducTrain。与临床专家的需求分析导致选择牵引-反牵引和外旋方法作为教育相关技术。建立了一套设计要求和验收标准,考虑了耐久性、装配时间和成本。一个迭代的原型开发过程被用来满足验收标准。给出了每个设计要求的测试协议。提供分步说明,允许从易于采购的材料复制ReducTrain,包括胶合板,电阻带,榫和各种紧固件,以及3d打印的肩部模型,其可打印文件包含在附加文件1的链接中:附录。结果:给出了最终模型的描述。一个ReducTrain模型的所有材料的总成本在200美元以下,组装大约需要3小时20分钟。根据反复测试,在使用1000次后,设备的耐用性不会有任何明显的变化,但在使用2000次后,电阻带强度可能会出现一些变化。讨论:ReducTrain装置填补了急诊医学和骨科模拟的空白。它的广泛用途指出了它在几种教学格式中的实用性。随着创客空间和公共工作坊的兴起,设备的建造可以很容易地完成。虽然该设备有一些限制,但其坚固的设计允许简单的维护和可定制的培训体验。结论:简化的解剖设计允许ReducTrain模型作为可行的肩部复位训练装置。
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CiteScore
5.70
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审稿时长
12 weeks
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