Tapping into Efficient Learning: An Exploration of the Impact of Sequential Learning on Skill Gains and Learning Curves in Central Venous Catheterization Simulator Training.

IF 2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES

Journal of Medical Education and Curricular Development Pub Date : 2024-10-22 eCollection Date: 2024-01-01 DOI:10.1177/23821205241271541

Haroula Tzamaras, Dailen Brown, Jason Moore, Scarlett R Miller

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引用次数: 0

Abstract

Objective: Medical residents learn how to perform many complex procedures in a short amount of time. Sequential learning, or learning in stages, is a method applied to complex motor skills to increase skill acquisition and retention but has not been widely applied in simulation-based training (SBT). Central venous catheterization (CVC) training could benefit from the implementation of sequential learning. CVC is typically taught with task trainers such as the dynamic haptic robotic trainer (DHRT). This study aims to determine the impact of sequential learning on skill gains and learning curves in CVC SBT by implementing a sequential learning walkthrough into the DHRT.

Methods: 103 medical residents participated in CVC training in 2021 and 2022. One group (N = 44) received training on the original DHRT system while the other group (N = 59) received training on the DHRT^sequential with interactive videos and assessment activities. All residents were quantitatively assessed on (e.g. first trial success rate, distance to vein center, overall score) the DHRT or DHRT^sequential systems.

Results: Residents in the DHRT^sequential group exhibited a 3.58 times higher likelihood of successfully completing needle insertion on their first trial than those in the DHRT only group and required significantly fewer trials to reach a pre-defined mastery level of performance. The DHRT^sequential group also had fewer significant learning curves compared to the DHRT only group.

Conclusion: Implementing sequential learning into the DHRT system significantly benefitted CVC training by increasing the efficiency of initial skill gain, reducing the number of trials needed to complete training, and flattening the slope of the subsequent learning curve.

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挖掘高效学习：探索顺序学习对中心静脉导管置入模拟器培训中技能获得和学习曲线的影响。

目的：住院医师需要在短时间内学习如何完成许多复杂的手术。顺序学习或分阶段学习是一种适用于复杂运动技能的方法，可提高技能的掌握和保持率，但尚未广泛应用于模拟培训（SBT）。中心静脉导管插入术（CVC）培训可以从顺序学习的实施中获益。CVC 通常使用任务训练器（如动态触觉机器人训练器 (DHRT)）进行教学。本研究旨在通过在 DHRT 中实施序列学习演练，确定序列学习对 CVC SBT 技能提高和学习曲线的影响。一组（N = 44）接受了原始 DHRT 系统的培训，另一组（N = 59）接受了带有互动视频和评估活动的 DHRTsequential 培训。所有住院医师都接受了 DHRT 或 DHRTsequential 系统的量化评估（如首次试验成功率、到静脉中心的距离、总分）：结果：DHRT 顺序组住院医师在首次试验中成功完成插针的可能性是仅使用 DHRT 组住院医师的 3.58 倍，达到预定掌握水平所需的试验次数也明显减少。与仅使用 DHRT 组相比，DHRT 顺序学习组的显著学习曲线也更少：结论：在 DHRT 系统中实施序列学习能显著提高 CVC 培训的效率，减少完成培训所需的试验次数，并使后续学习曲线的斜率趋于平缓。

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

Journal of Medical Education and Curricular Development EDUCATION, SCIENTIFIC DISCIPLINES-

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8 weeks