Use of a novel “Split” ventilation system in bench and porcine modeling of acute respiratory distress syndrome

Pierce Geoghegan; Jennifer Clarke; Grace Hogan; Aoife Keogh; Hannah Marsh; Karen Donnelly; Natalie McEvoy; Aoife Doolan; Stephen F. Madden; Ignacio Martin‐Loeches; Michael Power; John G. Laffey; Gerard F. Curley

doi:10.14814/phy2.15452

Physiological Reports (Sep 2022)

Use of a novel “Split” ventilation system in bench and porcine modeling of acute respiratory distress syndrome

Pierce Geoghegan,
Jennifer Clarke,
Grace Hogan,
Aoife Keogh,
Hannah Marsh,
Karen Donnelly,
Natalie McEvoy,
Aoife Doolan,
Stephen F. Madden,
Ignacio Martin‐Loeches,
Michael Power,
John G. Laffey,
Gerard F. Curley

Affiliations

Pierce Geoghegan: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Jennifer Clarke: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Grace Hogan: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Aoife Keogh: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Hannah Marsh: Beaumont Hospital Dublin Ireland
Karen Donnelly: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Natalie McEvoy: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland
Aoife Doolan: Tallaght Hospital Dublin Ireland
Stephen F. Madden: Data Science Centre Royal College of Surgeons in Ireland Dublin Ireland
Ignacio Martin‐Loeches: Department of Intensive Care St. James Hospital Dublin Ireland
Michael Power: Beaumont Hospital Dublin Ireland
John G. Laffey: Department of Anaesthesia and Critical Care Galway University Hospital Galway Ireland
Gerard F. Curley: Department of Anaesthesia and Critical Care Royal College of Surgeons in Ireland Dublin Ireland

DOI: https://doi.org/10.14814/phy2.15452
Journal volume & issue: Vol. 10, no. 17
pp. n/a – n/a

Abstract

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Abstract Split ventilation (using a single ventilator to ventilate multiple patients) is technically feasible. However, connecting two patients with acute respiratory distress syndrome (ARDS) and differing lung mechanics to a single ventilator is concerning. This study aimed to: (1) determine functionality of a split ventilation system in benchtop tests, (2) determine whether standard ventilation would be superior to split ventilation in a porcine model of ARDS and (3) assess usability of a split ventilation system with minimal specific training. The functionality of a split ventilation system was assessed using test lungs. The usability of the system was assessed in simulated clinical scenarios. The feasibility of the system to provide modified lung protective ventilation was assessed in a porcine model of ARDS (n = 30). In bench testing a split ventilation system independently ventilated two test lungs under conditions of varying compliance and resistance. In usability tests, a high proportion of naïve operators could assemble and use the system. In the porcine model, modified lung protective ventilation was feasible with split ventilation and produced similar respiratory mechanics, gas exchange and biomarkers of lung injury when compared to standard ventilation. Split ventilation can provide some elements of lung protective ventilation and is feasible in bench testing and an in vivo model of ARDS.

Published in Physiological Reports

ISSN: 2051-817X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/2051817x

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Abstract

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