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医学生在超声引导下模拟神经阻滞的学习曲线

Learning curve of medical students in ultrasound-guided simulated nerve block.

作者信息

Kim Se-Chan, Hauser Stefan, Staniek Anja, Weber Stefan

机构信息

Department of Anesthesiology and Intensive Care Medicine, University Hospital of Bonn, Sigmund-Freud-Str. 25, 53127, Bonn, Germany.

出版信息

J Anesth. 2014 Feb;28(1):76-80. doi: 10.1007/s00540-013-1680-y. Epub 2013 Jul 27.

DOI:10.1007/s00540-013-1680-y
PMID:23893012
Abstract

BACKGROUND

Good hand-eye coordination is a prerequisite for safe ultrasound-guided peripheral nerve blocks. However, new skills have to be acquired when compared to the traditional nerve stimulation technique. We tested and mathematically described the learning curve of these skills in inexperienced ultrasound users employing a simple phantom of a peripheral nerve.

METHODS

A simple phantom made from a piece of spaghetti to simulate a nerve, within a starch core and embedded in gelatine was used for ultrasound-guided simulation of a peripheral nerve block. Eighteen medical students who were novices to ultrasound were enrolled. Serial time to successful injection was measured. Quality of injection was rated by two independent observers.

RESULTS

Time to successful injection improved from a median of 66.5 s (49.5-90) for the first trial to 37 s (23.5-53.5) for the 11th trial. A plateau of 30 s was reached for t 1/2 after 2.7 trials and 4 × t 1/2 after 7.8 trials when described as first-order exponential decay. Time to successful injection was significantly shortened after 5 trials. Quality of injection with numbers of trials followed a sigmoidal shape with 50 % of maximum quality after 3.6 trials and a plateau after 8.5 trials. Likewise, a significant improved quality of injection was reached after 5 trials.

CONCLUSION

Based on our mathematical analyses of the learning curve, inexperienced ultrasound users can improve their hand-eye coordination within 5 subsequent trials in a simple model of a peripheral nerve block.

摘要

背景

良好的手眼协调能力是安全进行超声引导下周围神经阻滞的前提条件。然而,与传统神经刺激技术相比,需要掌握新的技能。我们使用一个简单的周围神经模型,测试并从数学角度描述了无经验的超声使用者掌握这些技能的学习曲线。

方法

使用一段意大利面条制成的简单模型来模拟神经,将其置于淀粉芯中并嵌入明胶,用于超声引导下周围神经阻滞的模拟。招募了18名超声新手医学生。测量连续成功注射所需的时间。由两名独立观察者对注射质量进行评分。

结果

首次试验成功注射的时间中位数为66.5秒(49.5 - 90秒),第11次试验时缩短至37秒(23.5 - 53.5秒)。以一阶指数衰减描述时,在2.7次试验后t1/2达到30秒的平台期,在7.8次试验后达到4×t1/2。5次试验后,成功注射的时间显著缩短。注射质量随试验次数呈S形,在3.6次试验后达到最大质量的50%,在8.5次试验后达到平台期。同样,5次试验后注射质量有显著提高。

结论

基于我们对学习曲线的数学分析,无经验的超声使用者在简单的周围神经阻滞模型中,通过后续5次试验可改善其手眼协调能力。

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Simulation for training in ultrasound-guided peripheral nerve blockade.超声引导下周围神经阻滞训练的模拟
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超声和荧光镜引导下膝关节疼痛的膝神经冷循环射频消融技术
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Using ultrasonography to improve fluoroscopic needle navigation in PM&R residents and medical students; a Randomised study.利用超声检查改善物理医学与康复住院医师和医学生的透视针导航;一项随机研究。
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