ST8 Orthopaedic Registrar, Honorary Clinical Research Fellow, Imperial College London.
Orthopaedic senior trauma fellow, Imperial College Hospitals NHS Trust, London.
Injury. 2021 Nov;52(11):3420-3426. doi: 10.1016/j.injury.2021.02.090. Epub 2021 Mar 2.
Working time regulations, senior led service delivery and increasing complexity of surgical technology has led to significant strains in surgical training. Additionally, the current COVID-19 pandemic has placed substantial limitations on surgical training worldwide. Contact free, remote, web-based, validated learning tools which are easily accessible and allows repeated, sustained practice are the need of the hour. Cognitive Task Analysis (CTA) have been used extensively to train pilots and military personnel and has shown excellent early results within orthopaedic training. We designed a femoral nailing CTA tool which showed objective benefits in the enhancement of cognitive knowledge in medical students. The aim of this study was to evaluate the effectiveness of this CTA tool to enhance practical skills in orthopaedic trainees in a real time interactive simulation setting (Distributed Interactive Simulation (DIS)).
This was a double blinded, randomized controlled trial. 14 junior orthopaedic residents who met the inclusion criteria were recruited in the study. They were randomized into two equal groups. The intervention group were given the CTA learning tool, the control group were given a standard operative technique manual used for antegrade femoral intramedullary nailing. The participants were assessed on a high-fidelity phantom femur model with actual femoral nailing instruments in a simulation mobile operating theatre where the candidate had a simulation patient, an acting anesthetist and a scrub nurse (DIS). They were assessed using the modified Objective Structured Assessment of Technical Skills (OSATS) rating scale which has been validated for orthopaedic trauma.
The median OSATS score in the intervention group was 49 (±4.93, range 39-55) compared to 17 in the control group (±14.98, range 12-51). The median improvement was by 32 points (p = 0.02). The ICC between the two raters was 0.977.
This study has demonstrated objective benefits of a novel femoral nailing CTA tool in the enhancement of practical skills for junior trainees in the DIS setting. This adds to the growing evidence supporting the use of CTA in orthopaedic training. This tool can be accessed remotely, is contact free and allows repeated sustained practice which is key in simulation training.
工作时间规定、由资深医生主导的服务提供以及手术技术的日益复杂,给外科培训带来了巨大的压力。此外,当前的 COVID-19 大流行在全球范围内对外科培训造成了实质性的限制。无接触、远程、基于网络、经过验证的学习工具,易于获取且可重复、持续练习,是当前的迫切需求。认知任务分析(Cognitive Task Analysis,CTA)已广泛用于培训飞行员和军人,并在内科培训中取得了出色的早期成果。我们设计了一种股骨钉钉 CTA 工具,该工具在提高医学生认知知识方面显示出了客观的益处。本研究的目的是评估该 CTA 工具在真实的交互式模拟环境(分布式交互仿真(Distributed Interactive Simulation,DIS))中增强骨科受训者实践技能的有效性。
这是一项双盲、随机对照试验。研究纳入了 14 名符合纳入标准的初级骨科住院医师。他们被随机分为两组。干预组使用 CTA 学习工具,对照组使用用于顺行股骨髓内钉的标准手术技术手册。参与者在模拟移动手术室的高保真幻影股骨模型上进行评估,该模型使用实际的股骨钉钉仪器,候选者有模拟患者、模拟麻醉师和手术护士(DIS)。他们使用经过验证的用于骨科创伤的改良客观结构化评估技术技能(Objective Structured Assessment of Technical Skills,OSATS)评分量表进行评估。
干预组的 OSATS 评分中位数为 49(±4.93,范围 39-55),对照组为 17(±14.98,范围 12-51)。中位数提高了 32 分(p=0.02)。两位评分者之间的 ICC 为 0.977。
本研究表明,一种新型股骨钉钉 CTA 工具在增强 DIS 环境中初级受训者实践技能方面具有客观益处。这为 CTA 在骨科培训中的应用提供了更多的证据支持。该工具可远程访问,无接触,允许重复、持续练习,这是模拟培训的关键。
