Kasey Davis scite author profile

IntroductionAs the SARS-CoV-2 virus spread across the globe, hospitals around the USA began preparing for its arrival. Building on previous experience with alternative care sites (ACS) during surge events, Texas Children’s Hospital (TCH) opted to redeploy their mobile paediatric emergency response teams. Simulation-based clinical systems testing (SbCST) uses simulation to test preoccupancy spaces and new processes. We developed rapid SbCST with social distancing for our deployed ACS, with collaboration between emergency management, paediatric emergency medicine and the simulation team.MethodsA two-phased approach included an initial virtual tabletop activity followed by SbCST at each campus, conducted simultaneously in-person and virtually. These activities were completed while also respecting the need for social distancing amidst a pandemic response. Each activity’s discussion was facilitated using Promoting Excellence and Reflective Learning in Simulation (PEARLS) for systems integration debriefing methodology and was followed by compilation of a failure mode and effects analysis (FMEA), which was then disseminated to campus leaders.ResultsWithin a 2-week period, participants from 20 different departments identified 109 latent safety threats (LSTs) across the four activities, with 71 identified as being very high or high priority items. Very high and high priority threats were prioritised in mitigation efforts by hospital leadership.DiscussionSbCST can be rapidly implemented to hone pandemic responses and identify LSTs. We used SbCST to allow for virtual participation and social distancing within a rapidly accelerated timeline. With prioritised FMEA reporting, leadership was able to mitigate concerns surrounding the four Ss of surge capacity: staff, stuff, structure and systems.

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Nursing practice leaders’ perspectives on continuing challenges related to the Doctor of Nursing Practice Degree

Pappas

Davis

Dubree

et al. 2023

Nursing Outlook

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A Decade Later—Progress and Next Steps for Pediatric Simulation Research

et al. 2021

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Summary StatementA decade ago, at the time of formation of the International Network for Pediatric Simulation-based Innovation, Research, and Education, the group embarked on a consensus building exercise. The goal was to forecast the facilitators and barriers to growth and maturity of science in the field of pediatric simulation-based research. This exercise produced 6 domains critical to progress in the field: (1) prioritization, (2) research methodology and outcomes, (3) academic collaboration, (4) integration/implementation/sustainability, (5) technology, and (6) resources/support/advocacy. This article reflects on and summarizes a decade of progress in the field of pediatric simulation research and suggests next steps in each domain as we look forward, including lessons learned by our collaborative grass roots network that can be used to accelerate research efforts in other domains within healthcare simulation science.

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Kasey Davis

Twelve tips for creating an escape room activity for medical education

Rapidly building surge capacity within a pandemic response using simulation-based clinical systems testing

Nursing practice leaders’ perspectives on continuing challenges related to the Doctor of Nursing Practice Degree

A Decade Later—Progress and Next Steps for Pediatric Simulation Research

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