Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model

Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model

Background Airway obstruction remains a preventable cause of death on the battlefield. Surgical cricothyroidotomy is an essential skill for immediate airway management in trauma. Training for surgical cricothyroidotomy has been undertaken using simulators, cadavers or animal models. The ideal approa...

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Main Authors: Elliott R Haut, Vinciya Pandian, William Robert Leeper, Christian Jones, Kristy Pugh, Gayane Yenokyan, Mark Bowyer
Format: Article
Language:English
Published: BMJ Publishing Group 2020-12-01
Series:Trauma Surgery & Acute Care Open
Online Access:https://tsaco.bmj.com/content/5/1/e000431.full
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spelling doaj-0d8c7c84846f4300b06aace1032c9d912021-02-01T17:00:28ZengBMJ Publishing GroupTrauma Surgery & Acute Care Open2397-57762020-12-015110.1136/tsaco-2019-000431Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin modelElliott R Haut0Vinciya Pandian1William Robert Leeper2Christian Jones3Kristy Pugh4Gayane Yenokyan5Mark Bowyer6Surgery, Johns Hopkins University, Baltimore, Maryland, USADepartment of Nursing Faculty, Johns Hopkins School of Nursing, Baltimore, Maryland, United StatesDepartment of Surgery, London Health Sciences Centre, Victorial Hospital, London, Ontario, CanadaDepartment of Surgery, Johns Hopkins School of Medicine, Baltimore, Maryland, United StatesDepartment of Surgery, Uniformed Services University of the Health Sciences, Bethesda, Maryland, United StatesDepartment of Biostatistics, Johns Hopkins School of Public Health, Baltimore, Maryland, United StatesDepartment of Surgery, Uniformed Services University of the Health Sciences, Bethesda, Maryland, United StatesBackground Airway obstruction remains a preventable cause of death on the battlefield. Surgical cricothyroidotomy is an essential skill for immediate airway management in trauma. Training for surgical cricothyroidotomy has been undertaken using simulators, cadavers or animal models. The ideal approach to training for this low volume and high-risk procedure is unknown. We hypothesized that current simulation technology provides an equal or better education for surgical cricothyroidotomy when compared with animal tissue training.Methods We performed a prospective randomized controlled study comparing training for surgical cricothyroidotomy using hands-on training on swine versus inanimate manikin. We enrolled medical students who had never performed or had formal instruction on surgical cricothyroidotomy. We randomized their instruction to use either a swine model or the inanimate version of the Operative Experience Inc. advanced surgical manikin. Participants’ skills were then evaluated on human cadavers and on an advanced robotic manikin. Tests were scored using checklists modified from Objective Structured Assessment of Technical Skills and Tactical Combat Casualty Care. We compared scores between the groups using Wilcoxon rank sum tests and generalized linear models.Results Forty-eight participants were enrolled and trained; 30 participants completed the first testing session; 25 completed the second testing session. The mean time to establish an airway from the incision until the cuff was blown up was 95±52 s. There were no significant differences in any of the outcome measures between the two training groups.Discussion Measured performance was not different between subjects trained to perform surgical cricothyroidotomy on an animal model or a high fidelity manikin. The use of an advanced simulator has the potential to replace live tissue for this procedure mitigating concerns over animal rights.Levels of evidence Ihttps://tsaco.bmj.com/content/5/1/e000431.full
collection DOAJ
language English
format Article
sources DOAJ
author Elliott R Haut
Vinciya Pandian
William Robert Leeper
Christian Jones
Kristy Pugh
Gayane Yenokyan
Mark Bowyer
spellingShingle Elliott R Haut
Vinciya Pandian
William Robert Leeper
Christian Jones
Kristy Pugh
Gayane Yenokyan
Mark Bowyer
Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
Trauma Surgery & Acute Care Open
author_facet Elliott R Haut
Vinciya Pandian
William Robert Leeper
Christian Jones
Kristy Pugh
Gayane Yenokyan
Mark Bowyer
author_sort Elliott R Haut
title Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
title_short Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
title_full Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
title_fullStr Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
title_full_unstemmed Comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
title_sort comparison of surgical cricothyroidotomy training: a randomized controlled trial of a swine model versus an animated robotic manikin model
publisher BMJ Publishing Group
series Trauma Surgery & Acute Care Open
issn 2397-5776
publishDate 2020-12-01
description Background Airway obstruction remains a preventable cause of death on the battlefield. Surgical cricothyroidotomy is an essential skill for immediate airway management in trauma. Training for surgical cricothyroidotomy has been undertaken using simulators, cadavers or animal models. The ideal approach to training for this low volume and high-risk procedure is unknown. We hypothesized that current simulation technology provides an equal or better education for surgical cricothyroidotomy when compared with animal tissue training.Methods We performed a prospective randomized controlled study comparing training for surgical cricothyroidotomy using hands-on training on swine versus inanimate manikin. We enrolled medical students who had never performed or had formal instruction on surgical cricothyroidotomy. We randomized their instruction to use either a swine model or the inanimate version of the Operative Experience Inc. advanced surgical manikin. Participants’ skills were then evaluated on human cadavers and on an advanced robotic manikin. Tests were scored using checklists modified from Objective Structured Assessment of Technical Skills and Tactical Combat Casualty Care. We compared scores between the groups using Wilcoxon rank sum tests and generalized linear models.Results Forty-eight participants were enrolled and trained; 30 participants completed the first testing session; 25 completed the second testing session. The mean time to establish an airway from the incision until the cuff was blown up was 95±52 s. There were no significant differences in any of the outcome measures between the two training groups.Discussion Measured performance was not different between subjects trained to perform surgical cricothyroidotomy on an animal model or a high fidelity manikin. The use of an advanced simulator has the potential to replace live tissue for this procedure mitigating concerns over animal rights.Levels of evidence I
url https://tsaco.bmj.com/content/5/1/e000431.full
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