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P102: A quality improvement project: identifying and managing latent safety threats though a zone wide emergency department in-situ multidiscipline simulation program

Published online by Cambridge University Press:  11 May 2018

L. Mews*
Affiliation:
University of Alberta, Edmonton, AB
D. O’Dochartaigh
Affiliation:
University of Alberta, Edmonton, AB
M. Chan
Affiliation:
University of Alberta, Edmonton, AB
T. Brown
Affiliation:
University of Alberta, Edmonton, AB
A. Robb
Affiliation:
University of Alberta, Edmonton, AB
W. Ma
Affiliation:
University of Alberta, Edmonton, AB
*
*Corresponding author

Abstract

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Introduction: High fidelity in-situ simulation has been found to detect system deficiencies, equipment failures, and conditions predisposing to medical errors, also known as latent safety threats (LST). What is not well reported is whether these LSTs are effectively managed. As a part of an ongoing quality improvement project, multidisciplinary, in-situ simulations were conducted across emergency departments (ED) in the Edmonton zone with the aim to identify LST and subsequently manage them to improve patient care. Methods: In 2017 simulations were conducted at EDs in the Edmonton Zone (N=10). Following each simulation, a cross sectional, survey based assessment tool, was completed by participants to identify LST. These LST were shared with the site clinical nurse educator and/or site manager and a management plan made. Two to six months follow-up was made to track progress. For reporting, LST were grouped into themes, progress on LST were coded as either resolved, ongoing, or not managed. Results: A total of 112 LST were identified through 18 separate simulations. The most commonly identified LTS were: resuscitation resource required (n 23), lack of staff training (21), equipment not immediately available (20), IT resource required (8), medication not immediately available (6), staff requiring familiarization (5), medication resource required (5), IT issue (4), large equipment needed (4), small equipment needed (4), lack of staff resource (3), medication needed, (3), equipment malfunction (2), Environment cluttered (2), non-appropriate resource removed (2). Site follow-up identified a total of 52 LST that where resolved, and 60 LST that had ongoing work to manage them. No occurrences of LST not being managed were identified. Conclusion: Simulation was used to effectively identify LST. Creating a structured plan and follow up allowed many LST to be resolved and effectively managed. In 2018 simulation will reassess if LST remain.

Type
Poster Presentations
Copyright
Copyright © Canadian Association of Emergency Physicians 2018