Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis

Veena Sheshadri; Isaac Wasserman; Alexander W Peters; Vatshalan Santhirapala; Shivani Mitra; Simone Sandler; Emma Svensson; David Ljungman; Regi George; Arundhathi Ambepu; Jithendranath Krishnan; Raman Kataria; Salim Afshar; John G Meara; Jerome T Galea; Peter Weinstock; Christopher Roussin; Matthew Taylor; Nandakumar Menon; Craig D McClain

doi:10.1136/bmjstel-2019-000577

Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis

Veena Sheshadri, Isaac Wasserman, Alexander W Peters, Vatshalan Santhirapala, Shivani Mitra, Simone Sandler, Emma Svensson, David Ljungman, Regi George, Arundhathi Ambepu, Jithendranath Krishnan, Raman Kataria, Salim Afshar, John G Meara, Jerome T Galea, Peter Weinstock, Christopher Roussin, Matthew Taylor, Nandakumar Menon, Craig D McClain

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Abstract

Introduction: The benefits of simulation-based medical training are well described. The most effective way to plant and scale simulation training in rural locations remains undescribed. We sought to plant simulation training programmes for anaesthesia emergencies in two rural Indian hospitals.

Methods: Two Indian consultant anaesthetists without experience in medical simulation underwent a 3-day course at the Boston Children’s Hospital’s (BCH) Simulator Program. They returned to their institutions and launched simulation programmes with an airway manikin and mock patient monitor. The 1-year experience was evaluated using individual, in-depth interviews of simulation facilitators. Three staff members (responsible for facilitating medical simulations over the prior year) at two rural hospitals in India were interviewed. None attended the BCH training; instead, they received on-the-job training from the BCH-trained, consultant anaesthetist colleagues.

Results: Successes included organisational adoption of simulation training with exercises 1 year after the initial BCH-training, increased interdisciplinary teamwork and improved clinical competency in managing emergencies. Barriers to effective, local implementation of simulation programmes fell into three categories: time required to run simulations, fixed and rigid roles, and variable resources. Thematic improvement requests were for standardised resources to help train simulation facilitators and demonstrate to participants a well-run simulation, in addition to context-sensitive scenarios.

Conclusion: An in-person training of simulation facilitators to promote medical simulation programmes in rural hospitals produced ongoing simulation programmes 1 year later. In order to make these programmes sustainable, however, increased investment in developing simulation facilitators is required. In particular, simulation facilitators must be prepared to formally train other simulation facilitators, too.

Original language	American English
Journal	BMJ Simulation and Technology Enhanced Learning
Volume	7
DOIs	https://doi.org/10.1136/bmjstel-2019-000577
State	Published - Jan 1 2021

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Social and Behavioral Sciences
Social Work

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Sheshadri, V., Wasserman, I., Peters, A. W., Santhirapala, V., Mitra, S., Sandler, S., Svensson, E., Ljungman, D., George, R., Ambepu, A., Krishnan, J., Kataria, R., Afshar, S., Meara, J. G., Galea, J. T., Weinstock, P., Roussin, C., Taylor, M., Menon, N., & McClain, C. D. (2021). Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis. BMJ Simulation and Technology Enhanced Learning, 7. https://doi.org/10.1136/bmjstel-2019-000577

Sheshadri, V, Wasserman, I, Peters, AW, Santhirapala, V, Mitra, S, Sandler, S, Svensson, E, Ljungman, D, George, R, Ambepu, A, Krishnan, J, Kataria, R, Afshar, S, Meara, JG, Galea, JT, Weinstock, P, Roussin, C, Taylor, M, Menon, N & McClain, CD 2021, 'Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis', BMJ Simulation and Technology Enhanced Learning, vol. 7. https://doi.org/10.1136/bmjstel-2019-000577

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title = "Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis",

abstract = " Introduction: The benefits of simulation-based medical training are well described. The most effective way to plant and scale simulation training in rural locations remains undescribed. We sought to plant simulation training programmes for anaesthesia emergencies in two rural Indian hospitals. Methods: Two Indian consultant anaesthetists without experience in medical simulation underwent a 3-day course at the Boston Children{\textquoteright}s Hospital{\textquoteright}s (BCH) Simulator Program. They returned to their institutions and launched simulation programmes with an airway manikin and mock patient monitor. The 1-year experience was evaluated using individual, in-depth interviews of simulation facilitators. Three staff members (responsible for facilitating medical simulations over the prior year) at two rural hospitals in India were interviewed. None attended the BCH training; instead, they received on-the-job training from the BCH-trained, consultant anaesthetist colleagues. Results: Successes included organisational adoption of simulation training with exercises 1 year after the initial BCH-training, increased interdisciplinary teamwork and improved clinical competency in managing emergencies. Barriers to effective, local implementation of simulation programmes fell into three categories: time required to run simulations, fixed and rigid roles, and variable resources. Thematic improvement requests were for standardised resources to help train simulation facilitators and demonstrate to participants a well-run simulation, in addition to context-sensitive scenarios. Conclusion: An in-person training of simulation facilitators to promote medical simulation programmes in rural hospitals produced ongoing simulation programmes 1 year later. In order to make these programmes sustainable, however, increased investment in developing simulation facilitators is required. In particular, simulation facilitators must be prepared to formally train other simulation facilitators, too.",

author = "Veena Sheshadri and Isaac Wasserman and Peters, {Alexander W} and Vatshalan Santhirapala and Shivani Mitra and Simone Sandler and Emma Svensson and David Ljungman and Regi George and Arundhathi Ambepu and Jithendranath Krishnan and Raman Kataria and Salim Afshar and Meara, {John G} and Galea, {Jerome T} and Peter Weinstock and Christopher Roussin and Matthew Taylor and Nandakumar Menon and McClain, {Craig D}",

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doi = "10.1136/bmjstel-2019-000577",

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T1 - Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis

AU - Sheshadri, Veena

AU - Wasserman, Isaac

AU - Peters, Alexander W

AU - Santhirapala, Vatshalan

AU - Mitra, Shivani

AU - Sandler, Simone

AU - Svensson, Emma

AU - Ljungman, David

AU - George, Regi

AU - Ambepu, Arundhathi

AU - Krishnan, Jithendranath

AU - Kataria, Raman

AU - Afshar, Salim

AU - Meara, John G

AU - Galea, Jerome T

AU - Weinstock, Peter

AU - Roussin, Christopher

AU - Taylor, Matthew

AU - Menon, Nandakumar

AU - McClain, Craig D

PY - 2021/1/1

Y1 - 2021/1/1

N2 - Introduction: The benefits of simulation-based medical training are well described. The most effective way to plant and scale simulation training in rural locations remains undescribed. We sought to plant simulation training programmes for anaesthesia emergencies in two rural Indian hospitals. Methods: Two Indian consultant anaesthetists without experience in medical simulation underwent a 3-day course at the Boston Children’s Hospital’s (BCH) Simulator Program. They returned to their institutions and launched simulation programmes with an airway manikin and mock patient monitor. The 1-year experience was evaluated using individual, in-depth interviews of simulation facilitators. Three staff members (responsible for facilitating medical simulations over the prior year) at two rural hospitals in India were interviewed. None attended the BCH training; instead, they received on-the-job training from the BCH-trained, consultant anaesthetist colleagues. Results: Successes included organisational adoption of simulation training with exercises 1 year after the initial BCH-training, increased interdisciplinary teamwork and improved clinical competency in managing emergencies. Barriers to effective, local implementation of simulation programmes fell into three categories: time required to run simulations, fixed and rigid roles, and variable resources. Thematic improvement requests were for standardised resources to help train simulation facilitators and demonstrate to participants a well-run simulation, in addition to context-sensitive scenarios. Conclusion: An in-person training of simulation facilitators to promote medical simulation programmes in rural hospitals produced ongoing simulation programmes 1 year later. In order to make these programmes sustainable, however, increased investment in developing simulation facilitators is required. In particular, simulation facilitators must be prepared to formally train other simulation facilitators, too.

AB - Introduction: The benefits of simulation-based medical training are well described. The most effective way to plant and scale simulation training in rural locations remains undescribed. We sought to plant simulation training programmes for anaesthesia emergencies in two rural Indian hospitals. Methods: Two Indian consultant anaesthetists without experience in medical simulation underwent a 3-day course at the Boston Children’s Hospital’s (BCH) Simulator Program. They returned to their institutions and launched simulation programmes with an airway manikin and mock patient monitor. The 1-year experience was evaluated using individual, in-depth interviews of simulation facilitators. Three staff members (responsible for facilitating medical simulations over the prior year) at two rural hospitals in India were interviewed. None attended the BCH training; instead, they received on-the-job training from the BCH-trained, consultant anaesthetist colleagues. Results: Successes included organisational adoption of simulation training with exercises 1 year after the initial BCH-training, increased interdisciplinary teamwork and improved clinical competency in managing emergencies. Barriers to effective, local implementation of simulation programmes fell into three categories: time required to run simulations, fixed and rigid roles, and variable resources. Thematic improvement requests were for standardised resources to help train simulation facilitators and demonstrate to participants a well-run simulation, in addition to context-sensitive scenarios. Conclusion: An in-person training of simulation facilitators to promote medical simulation programmes in rural hospitals produced ongoing simulation programmes 1 year later. In order to make these programmes sustainable, however, increased investment in developing simulation facilitators is required. In particular, simulation facilitators must be prepared to formally train other simulation facilitators, too.

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VL - 7

JO - BMJ Simulation and Technology Enhanced Learning

JF - BMJ Simulation and Technology Enhanced Learning

ER -

Simulation Capacity Building in Rural Indian Hospitals: a 1-year Follow-up Qualitative Analysis

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