一种在现场模拟中探索安全I和安全II视角的新方法——结构化假设功能共振分析方法。

A novel approach to explore Safety-I and Safety-II perspectives in in situ simulations-the structured what if functional resonance analysis methodology.

作者信息

MacKinnon Ralph James, Pukk-Härenstam Karin, Kennedy Christopher, Hollnagel Erik, Slater David

机构信息

Department of Learning, Informatics, Management and Ethics, Karolinska Institutet, Tomtebodavägen 18a, 171 65, Solna, Sweden.

Department of Paediatric Anaesthesia, Royal Manchester Children's Hospital, Manchester, UK.

出版信息

Adv Simul (Lond). 2021 Jun 5;6(1):21. doi: 10.1186/s41077-021-00166-0.

DOI:10.1186/s41077-021-00166-0

PMID:34090533

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8178899/

Abstract

OBJECTIVES

With ever increasingly complex healthcare settings, technology enhanced simulation (TES) is well positioned to explore all perspectives to enhance patient safety and patient outcomes. Analysis from a Safety-II stance requires identification of human adjustments in daily work that are key to maintaining safety. The aim of this paper is to describe an approach to explore the consequences of human variability from a Safety-II perspective and describe the added value of this to TES.

METHODS

The reader is guided through a novel application of functional resonance analysis methodology (FRAM), a method to analyse how a system or activity is affected by human variability, to explore human adaptations observed in in situ simulations (ISS). The structured applicability of this novel approach to TES is described by application to empirical data from the standardised ISS management of paediatric time critical head injuries (TCHI).

RESULTS

A case series is presented to illustrate the step-wise observation of key timings during ISSs, the construction of FRAM models and the visualisation of the propagation of human adaptations through the FRAM models. The key functions/actions that ensure the propagation are visible, as are the sequelae of the adaptations.

CONCLUSIONS

The approach as described in this paper is a first step to illuminating how to explore, analyse and observe the consequences of positive and negative human adaptations within simulated complex systems. This provides TES with a structured methodology to visualise and reflect upon both Safety-I and Safety-II perspectives to enhance patient safety and patient outcomes.

摘要

目标

随着医疗环境日益复杂，技术增强模拟（TES）非常适合从各个角度探索如何提高患者安全和改善患者预后。从安全-II的角度进行分析需要识别日常工作中对维持安全至关重要的人为调整。本文旨在描述一种从安全-II的角度探索人为变异性后果的方法，并阐述其对TES的附加价值。

方法

引导读者了解功能共振分析方法（FRAM）的一种新颖应用，FRAM是一种分析系统或活动如何受到人为变异性影响的方法，用于探索在现场模拟（ISS）中观察到的人类适应性。通过将这种新颖方法应用于小儿紧急颅脑损伤（TCHI）标准化ISS管理的实证数据，描述了该方法对TES的结构化适用性。

结果

呈现了一个案例系列，以说明在ISS期间对关键时间点的逐步观察、FRAM模型的构建以及人类适应性通过FRAM模型的传播可视化。确保传播的关键功能/行动以及适应性的后果都清晰可见。

结论

本文所述方法是阐明如何在模拟复杂系统中探索、分析和观察正负人为适应性后果的第一步。这为TES提供了一种结构化方法，以可视化和反思安全-I和安全-II的角度，从而提高患者安全和改善患者预后。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9f12/8178899/8a2dd829b421/41077_2021_166_Fig1_HTML.jpg

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一种在现场模拟中探索安全I和安全II视角的新方法——结构化假设功能共振分析方法。

A novel approach to explore Safety-I and Safety-II perspectives in in situ simulations-the structured what if functional resonance analysis methodology.

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出版信息

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