Status of simulation in health care education: an international survey

Qayumi, Karim; Pachev, George; Zheng, Bin; Ziv, Amitai; Koval, Valentyna; Badiei, Sadia; Cheng, Adam

doi:10.2147/amep.s65451

Cited by 78 publications

(75 citation statements)

References 27 publications

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“…These somewhat conservative approaches used in trials to date are surprising given the dynamic growth of simulation technologies, scientific studies, peer-reviewed dissemination, simulation-learned societies and interest groups, educational resources, curricula and policies; all evidence that "clinical simulation science is thus past its early developmental stages" (Sevdalis, Nestel, Kardong-Edgren, & Gaba, 2016) and that it has "matured over the past 40 years on substantive and methodological grounds" (McGaghie, Issenberg, Petrusa, & Scalese, 2010). A demonstration of superior outcomes could justify the investment required to overcome the identified physical and human infrastructure barriers (Bogossian et al, 2017) to providing sustainable financial support and dedicated simulation specialists to advance simulation in healthcare education (Qayumi et al, 2014).…”

Section: Evidence For Proportional Substitution Replacement Ratiosmentioning

confidence: 99%

Locating “gold standard” evidence for simulation as a substitute for clinical practice in prelicensure health professional education: A systematic review

Bogossian

Cant

Ballard

et al. 2019

Journal of Clinical Nursing

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Aims and objectives To extract, examine and report the highest available levels of evidence from healthcare disciplines in the use of simulation‐based education as substitution for clinical placement in prelicensure programmes. Background Simulation is widely employed across prelicensure health professional education to create safe, realistic clinical learning experiences for students. Whether simulation can be employed to substitute for actual clinical placement, and if so, in what proportion, replacement ratio and duration, is unclear. Methods A systematic review and quality appraisal of primary studies related to prelicensure students in all health disciplines, guided by the PRISMA checklist. Results Ten primary studies were included, representing 2,370 students from three health disciplines in four countries. Nine studies were experimental and quasi‐experimental and methodological quality was assessed as moderate to high with good to very good inter‐rater agreement. Direct substitution of simulation for clinical practice ranged from 5% to 50%. With one exception, replacement ratios were 1:1 and duration of replacement ranged from 21 hr–2 years. Levels of evaluation included measures of reaction, knowledge and behaviour transfer; no negative outcomes were reported. We appraised practicalities for design of substitution, design limitations and knowledge transfer to accreditation standards for prelicensure programmes. Conclusions This review synthesised highest levels and quality of available evidence for substitution of simulation for clinical placement in health professional education. Included studies were heterogenous in simulation interventions (proportion, ratio and duration) and in the evaluation of outcomes. Future studies should incorporate standardised simulation curricula, widen the health professions represented and strengthen experimental designs. Relevance to clinical practice Current evidence for clinical educational preparation does not appear to be translated into programme accreditation standards governing clinical practice experience for prelicensure programmes in relevant jurisdictions. Overall, a stronger evidence base is necessary to inform future curricula and policy development, to strengthen clinical practice in health.

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Section: Evidence For Proportional Substitution Replacement Ratiosmentioning

confidence: 99%

Locating “gold standard” evidence for simulation as a substitute for clinical practice in prelicensure health professional education: A systematic review

Bogossian

Cant

Ballard

et al. 2019

Journal of Clinical Nursing

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show abstract

“…In order to improve the uptake of simulation training, the need for formal curricula has been suggested . Despite advancements in simulation technology, progress in curriculum development lags .…”

Section: Introductionmentioning

confidence: 99%

Improved laparoscopic skills in gynaecology trainees following a simulation‐training program using take‐home box trainers

Wilson

Janssens

McLindon

et al. 2018

Aust NZ J Obst Gynaeco

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“…Programs on the menu may be generic in nature or targeted toward specific disciplines or specialties. This is highly relevant when the center is a part of an AMC or larger institution[1718192021] [Table 2]. …”

Section: Training and Curriculum Developmentmentioning

confidence: 99%

The 2019 WACEM expert document on the framework for setting up a simulation centre

Lateef

Yin

Suppiah

2019

J Emerg Trauma Shock

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Status of simulation in health care education: an international survey

Cited by 78 publications

References 27 publications

Locating “gold standard” evidence for simulation as a substitute for clinical practice in prelicensure health professional education: A systematic review

Locating “gold standard” evidence for simulation as a substitute for clinical practice in prelicensure health professional education: A systematic review

Improved laparoscopic skills in gynaecology trainees following a simulation‐training program using take‐home box trainers

The 2019 WACEM expert document on the framework for setting up a simulation centre

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