Need for a systems integration methodology for effective implementation of simulation-based training

Peter Anto Johnson1, John Christy Johnson2
1 Department of Medicine, Faculty of Medicine and Dentistry, University of Alberta, Edmonton, Alberta, Canada
2 Department of Biomedical Engineering, Faculty of Medicine and Dentistry, University of Alberta, Edmonton, Alberta, Canada

Date of Submission24-Aug-2020Date of Decision25-Aug-2020Date of Acceptance02-Nov-2020Date of Web Publication14-Jan-2021

Correspondence Address:
Peter Anto Johnson
Department of Medicine, Faculty of Medicine and Dentistry, University of Alberta, Edmonton, Alberta
Canada
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DOI: 10.4103/atm.ATM_518_20

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How to cite this article:
Johnson PA, Johnson JC. Need for a systems integration methodology for effective implementation of simulation-based training. Ann Thorac Med 2021;16:126

Sir,

We read with great interest the article entitled, “Simulation role in preparing for COVID-19” by Aldekhyl and Arabi.[1] The paper highlights the usefulness of simulation-based training (SBT) as an alternative, feasible, and flexible design for education amid the pandemic. However, while SBT provides an operational framework within educational programs to reduce the risk of transmission, its real-time efficacy can only be established using preparedness testing and comparative analysis with established in-person training programs.

We believe that strong SBT significantly relies on effective implementation of a systems integration methodology. Where healthcare and delivery system integration is quite common in knowledge synthesis protocols,[2] more recently, its utility for SBT programs and preparedness testing has been explored.[3] As such, a key element of SBT testing should focus on the apposite selection and identification of systems domain salient to the training regimen. The specific targeting of major systems domains, including environment, personnel, and communication, can allow for effective testing and considerations for variables that are typically overlooked.

For example, a systems domain analysis may recommend in situ walkthroughs to identify physical constraints in a clinical setting and for environmental assessments. This may be of notable importance within the context of programs such as the MNGHA's “Right Care, Right Now” infection control initiative described by Aldekhyl and Arabi.[1] Translating SBT from a “point-of-care” laboratory to a resuscitation setting, for example, may require additional route planning to ensure that equipment does not obstruct the clinical team, the adaptive identification of personal protective equipment donning and doffing areas to choreograph workflow, and elicit real-world biological hazards, such as blood splatter and other infectious risk factors, for unexpected scenarios difficult to replicate in mannequins. We believe that such considerations will prove effective in streamlining SBT and promote an overall systemic effect in enhancing healthcare delivery planning.

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Nil.

Conflicts of interest

There are no conflicts of interest.

 

   References Top
1.Aldekhyl SS, Arabi YM. Simulation role in preparing for COVID-19. Ann Thorac Med 2020;15:134-7.  Back to cited text no. 1
  [Full text]  2.Oelke ND, Suter E, da Silva Lima MA, Van Vliet-Brown C. Indicators and measurement tools for health system integration: A knowledge synthesis protocol. Syst Rev 2015;4:99.  Back to cited text no. 2
    3.Lababidi HMS, Alzoraigi U, Almarshed AA, Alharbi W, AlAmar M, Arab AA, et al. Simulation-based training programme and preparedness testing for COVID-19 using system integration methodology. BMJ Simulation and Technology Enhanced Learning. Published Online First: 27 May 2020. doi: 10.1136/bmjstel-2020-000626.  Back to cited text no. 3
    

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