失效模式与效应分析（FMEA），用于识别和减轻医院快速反应系统（RRS）中的故障。

Failure mode and effect analysis (FMEA) to identify and mitigate failures in a hospital rapid response system (RRS).

作者信息

Ullah Ehsan, Baig Mirza Mansoor, GholamHosseini Hamid, Lu Jun

机构信息

School of Science, Faculty of Health and Environmental Sciences, Auckland University of Technology, Private Bag 92006, Auckland 1142, New Zealand.

Clinical Governance Support Unit, Taranaki District Health Board, Private Bag Private Bag 2016, New Plymouth 4342, New Zealand.

出版信息

Heliyon. 2022 Feb 11;8(2):e08944. doi: 10.1016/j.heliyon.2022.e08944. eCollection 2022 Feb.

DOI:10.1016/j.heliyon.2022.e08944

PMID:35243066

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8857483/

Abstract

We performed FMEA on the existing RRS with the help of routine users of the RRS who acted as subject matter experts and evaluated the failures for their criticality using the Risk Priority Number approach based on their experience of the RRS. The FMEA found 35 potential failure modes and 101 failure mode effects across 13 process steps of the RRS. The afferent limb of RRS was found to be more prone to these failures (62, 61.4%) than the efferent limb of the RRS (39, 38.6%). Modification of calling criteria (12, 11.9%) and calculation of New Zealand Early Warning Scores (NZEWS) calculation (11, 10.9%) steps were found to potentially give rise to the highest number of these failures. Causes of these failures include human error and related factors (35, 34.7%), staff workload/staffing levels (30, 29.7%) and limitations due to paper-based charts and organisational factors (n = 30, 29.7%). The demonstrated electronic system was found to potentially eliminate or reduce the likelihood of 71 (70.2%) failures. The failures not eliminated by the electronic RRS require targeted corrective measures including scenario-based training and education, and revised calling criteria to include triggers for hypothermia and high systolic blood pressure.

摘要

我们在RRS的常规用户（担任主题专家）的帮助下，对现有的RRS进行了失效模式与效应分析（FMEA），并根据他们对RRS的经验，使用风险优先数方法评估了失效的关键性。FMEA在RRS的13个流程步骤中发现了35种潜在失效模式和101种失效模式影响。结果发现，RRS的传入环节比传出环节更容易出现这些失效（分别为62次，占61.4%和39次，占38.6%）。发现呼叫标准的修改（12次，占11.9%）和新西兰早期预警评分（NZEWS）计算步骤（11次，占10.9%）可能导致这些失效的数量最多。这些失效的原因包括人为错误及相关因素（35次，占34.7%）、工作人员工作量/人员配备水平（30次，占29.7%）以及纸质图表和组织因素造成的限制（n = 30次，占29.7%）。结果发现，已展示的电子系统可能消除或降低71次（占70.2%）失效的可能性。电子RRS未消除的失效需要有针对性的纠正措施，包括基于场景的培训和教育，以及修订呼叫标准以纳入体温过低和收缩压过高的触发因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff2b/8857483/94ec0b79f747/gr1.jpg

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失效模式与效应分析（FMEA），用于识别和减轻医院快速反应系统（RRS）中的故障。

Failure mode and effect analysis (FMEA) to identify and mitigate failures in a hospital rapid response system (RRS).

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