What Goes Up, Must Come Down: A State-of-the-Art Electronic Health Record Downtime and Uptime Procedure in a Metropolitan Health Setting

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Abstract

Background Electronic health records (EHRs) are used at most hospitals around the world, and downtime events are inevitable and common. Downtime represents a risky time for patients because patient information and critical EHR functionality are unavailable. Many institutions have used EHRs for years, with health professionals less likely to be familiar or comfortable with paper-based processes, resulting in an increased risk of errors during downtimes. There is currently limited guidance available on how to develop and operationalize downtime procedure at a local level. In this paper, we fill this gap by describing our state-of-the-art downtime and uptime procedure and its evaluation.

Method A district-wide downtime and uptime procedure was revised and standardized based on lessons learned from other health care organizations. The procedure outlines downtime and uptime preparations including downtime drills, downtime viewer auditing, and downtime education; downtime response including activating downtime and tracking patient changes; and uptime recovery including medication reconciliation and uptime documentation.

Implementation We implemented our new procedure across the district during an 8-hour planned downtime. A district downtime planning committee was formed, and a virtual command center was established to coordinate the downtime and uptime events. During downtime and uptime, onsite support was provided by the district's health informatics teams and clinicians. Data recovery was completed safely and efficiently with the revised uptime process. Following the event, we gathered staff feedback and reflections on implementing the procedure which highlighted its success but also revealed some areas for further improvement.

Conclusion In this paper, we describe a state-of-the-art EHR downtime and uptime procedure and lessons learned from its implementation. The implementation was successful with staff well prepared and information reconciled efficiently ensuring safe continuity of care. It was only through extensive planning, significant commitment, and engagement of all stakeholders that this outcome was possible.

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Most cited references 8

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Review of Reported Clinical Information System Adverse Events in US Food and Drug Administration Databases.

Risa B Myers, Stephen L. Jones, Dean Sittig (2011)

BACKGROUND: The US FDA has been collecting information on medical devices involved in significant adverse advents since 1984. These reports have been used by researchers to advise clinicians on potential risks and complications of using these devices. OBJECTIVE: Research adverse events related to the use of Clinical Information Systems (CIS) as reported in FDA databases. METHODS: Three large, national, adverse event medical device databases were examined for reports pertaining to CIS. RESULTS: One hundred and twenty unique reports (from over 1.4 million reports) were found, representing 32 manufacturers. The manifestations of these adverse events included: missing or incorrect data, data displayed for the wrong patient, chaos during system downtime and system unavailable for use. Analysis of these reports illustrated events associated with system design, implementation, use, and support. CONCLUSION: The identified causes can be used by manufacturers to improve their products and by clinical facilities and providers to adjust their workflow and implementation processes appropriately. The small number of reports found indicates a need to raise awareness regarding publicly available tools for documenting problems with CIS and for additional reporting and dialog between manufacturers, organizations, and users.

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Contingency planning for electronic health record-based care continuity: a survey of recommended practices.

Dean Sittig, Daniel González González, Hardeep Singh (2014)

Reliable health information technology (HIT) in general, and electronic health record systems (EHRs) in particular are essential to a high-performing healthcare system. When the availability of EHRs are disrupted, alternative methods must be used to maintain the continuity of healthcare.

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Safety Assurance Factors for Electronic Health Record Resilience (SAFER): study protocol

Hardeep Singh, Joan S Ash, Dean Sittig (2013)

Background Implementation and use of electronic health records (EHRs) could lead to potential improvements in quality of care. However, the use of EHRs also introduces unique and often unexpected patient safety risks. Proactive assessment of risks and vulnerabilities can help address potential EHR-related safety hazards before harm occurs; however, current risk assessment methods are underdeveloped. The overall objective of this project is to develop and validate proactive assessment tools to ensure that EHR-enabled clinical work systems are safe and effective. Methods/Design This work is conceptually grounded in an 8-dimension model of safe and effective health information technology use. Our first aim is to develop self-assessment guides that can be used by health care institutions to evaluate certain high-risk components of their EHR-enabled clinical work systems. We will solicit input from subject matter experts and relevant stakeholders to develop guides focused on 9 specific risk areas and will subsequently pilot test the guides with individuals representative of likely users. The second aim will be to examine the utility of the self-assessment guides by beta testing the guides at selected facilities and conducting on-site evaluations. Our multidisciplinary team will use a variety of methods to assess the content validity and perceived usefulness of the guides, including interviews, naturalistic observations, and document analysis. The anticipated output of this work will be a series of self-administered EHR safety assessment guides with clear, actionable, checklist-type items. Discussion Proactive assessment of patient safety risks increases the resiliency of health care organizations to unanticipated hazards of EHR use. The resulting products and lessons learned from the development of the assessment guides are expected to be helpful to organizations that are beginning the EHR selection and implementation process as well as those that have already implemented EHRs. Findings from our project, currently underway, will inform future efforts to validate and implement tools that can be used by health care organizations to improve the safety of EHR-enabled clinical work systems.

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Author and article information

Journal

Journal ID (nlm-ta): Appl Clin Inform

Journal ID (iso-abbrev): Appl Clin Inform

Journal ID (doi): 10.1055/s-00035026

Title: Applied Clinical Informatics

Publisher: Georg Thieme Verlag KG (Rüdigerstraße 14, 70469 Stuttgart, Germany )

ISSN (Electronic): 1869-0327

Publication date (Electronic): 05 July 2023

Publication date Collection: May 2023

Publication date PMC-release: 1 July 2023

Volume: 14

Issue: 3

Pages: 513-520

Affiliations

[1 ]Digital Health and Innovation, Sydney Local Health District, NSW Health, Sydney, NSW, Australia

[2 ]Department of Pharmacy, Sydney Local Health District, NSW Health, Sydney, NSW, Australia

[3 ]Biomedical Informatics and Digital Health, School of Medical Sciences, Faculty of Medicine and Health, The University of Sydney, Sydney, NSW, Australia

Author notes

Address for correspondence Melissa Baysari, PhD Room 132 RC Mills Building (A26), The University of Sydney, Sydney, New South Wales 2006Australia Melissa.baysari@ 123456sydney.edu.au

Article

Publisher ID: ACI-2022-12-SOA-0329

DOI: 10.1055/s-0043-1768995

PMC ID: 10322225

PubMed ID: 37406674

SO-VID: 6ad4a24f-883d-44e1-b3c5-580bf596ab84

Copyright © The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. ( https://creativecommons.org/licenses/by-nc-nd/4.0/ )

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives License, which permits unrestricted reproduction and distribution, for non-commercial purposes only; and use and reproduction, but not distribution, of adapted material for non-commercial purposes only, provided the original work is properly cited.

History

Date received : 31 January 2023

Date accepted : 19 March 2023

Funding

Funding None.

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