A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation

A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation

Abstract Background Different mechanical ventilation settings are known to affect lung preservation for lung transplantation. Measurement of particle flow in exhaled air may allow online assessment of the impact of ventilation before changes in the tissue can be observed. We hypothesized that by ana...

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Main Authors: Ellen Broberg, Martiné Wlosinska, Lars Algotsson, Anna-Carin Olin, Darcy Wagner, Leif Pierre, Sandra Lindstedt
Format: Article
Language:English
Published: SpringerOpen 2018-07-01
Series:Intensive Care Medicine Experimental
Online Access:http://link.springer.com/article/10.1186/s40635-018-0188-z
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spelling doaj-10f95d3b869d4e01bda05c7c36f794e42020-11-25T02:34:35ZengSpringerOpenIntensive Care Medicine Experimental2197-425X2018-07-016111910.1186/s40635-018-0188-zA new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantationEllen Broberg0Martiné Wlosinska1Lars Algotsson2Anna-Carin Olin3Darcy Wagner4Leif Pierre5Sandra Lindstedt6Department of Cardiothoracic Anaesthesia and Intensive Care, Skåne University Hospital, Lund UniversityDepartment of Cardiothoracic Surgery, Skåne University Hospital, Lund UniversityDepartment of Cardiothoracic Anaesthesia and Intensive Care, Skåne University Hospital, Lund UniversityOccupational and Environmental Medicine, Department of Public Health and Community Medicine, Institute of Medicine, Sahlgrenska Academy, University of GothenburgExperimental Medical Sciences, Lung Bioengineering and Regeneration, Lund UniversityDepartment of Cardiothoracic Surgery, Skåne University Hospital, Lund UniversityDepartment of Cardiothoracic Surgery, Skåne University Hospital, Lund UniversityAbstract Background Different mechanical ventilation settings are known to affect lung preservation for lung transplantation. Measurement of particle flow in exhaled air may allow online assessment of the impact of ventilation before changes in the tissue can be observed. We hypothesized that by analyzing the particle flow, we could understand the impact of different ventilation parameters. Methods Particle flow was monitored in vivo, post mortem, and in ex vivo lung perfusion (EVLP) in six porcines with the Pexa (particles in exhaled air) instrument. Volume-controlled ventilation (VCV) and pressure-controlled ventilation (PCV) were used to compare small versus large tidal volumes. The surfactant lipids dipalmitoylphosphatidylcholine (DPPC) and phosphatidylcholine (PC) were quantified by mass spectrometry. Results In vivo the particle mass in VCV1 was significantly lower than in VCV2 (p = 0.0186), and the particle mass was significantly higher in PCV1 than in VCV1 (p = 0.0322). In EVLP, the particle mass in VCV1 was significantly higher than in PCV1 (p = 0.0371), and the particle mass was significantly higher in PCV2 than in PCV1 (p = 0.0127). DPPC was significantly higher in EVLP than in vivo. Conclusions Here, we introduce a new method for measuring particle flow during mechanical ventilation and confirm that these particles can be collected and analyzed. VCV resulted in a lower particle flow in vivo but not in EVLP. In all settings, large tidal volumes resulted in increased particle flow. We found that DPPC was significantly increased comparing in vivo with EVLP. This technology may be useful for developing strategies to preserve the lung and has a high potential to detect biomarkers.http://link.springer.com/article/10.1186/s40635-018-0188-z
collection DOAJ
language English
format Article
sources DOAJ
author Ellen Broberg
Martiné Wlosinska
Lars Algotsson
Anna-Carin Olin
Darcy Wagner
Leif Pierre
Sandra Lindstedt
spellingShingle Ellen Broberg
Martiné Wlosinska
Lars Algotsson
Anna-Carin Olin
Darcy Wagner
Leif Pierre
Sandra Lindstedt
A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
Intensive Care Medicine Experimental
author_facet Ellen Broberg
Martiné Wlosinska
Lars Algotsson
Anna-Carin Olin
Darcy Wagner
Leif Pierre
Sandra Lindstedt
author_sort Ellen Broberg
title A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
title_short A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
title_full A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
title_fullStr A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
title_full_unstemmed A new way of monitoring mechanical ventilation by measurement of particle flow from the airways using Pexa method in vivo and during ex vivo lung perfusion in DCD lung transplantation
title_sort new way of monitoring mechanical ventilation by measurement of particle flow from the airways using pexa method in vivo and during ex vivo lung perfusion in dcd lung transplantation
publisher SpringerOpen
series Intensive Care Medicine Experimental
issn 2197-425X
publishDate 2018-07-01
description Abstract Background Different mechanical ventilation settings are known to affect lung preservation for lung transplantation. Measurement of particle flow in exhaled air may allow online assessment of the impact of ventilation before changes in the tissue can be observed. We hypothesized that by analyzing the particle flow, we could understand the impact of different ventilation parameters. Methods Particle flow was monitored in vivo, post mortem, and in ex vivo lung perfusion (EVLP) in six porcines with the Pexa (particles in exhaled air) instrument. Volume-controlled ventilation (VCV) and pressure-controlled ventilation (PCV) were used to compare small versus large tidal volumes. The surfactant lipids dipalmitoylphosphatidylcholine (DPPC) and phosphatidylcholine (PC) were quantified by mass spectrometry. Results In vivo the particle mass in VCV1 was significantly lower than in VCV2 (p = 0.0186), and the particle mass was significantly higher in PCV1 than in VCV1 (p = 0.0322). In EVLP, the particle mass in VCV1 was significantly higher than in PCV1 (p = 0.0371), and the particle mass was significantly higher in PCV2 than in PCV1 (p = 0.0127). DPPC was significantly higher in EVLP than in vivo. Conclusions Here, we introduce a new method for measuring particle flow during mechanical ventilation and confirm that these particles can be collected and analyzed. VCV resulted in a lower particle flow in vivo but not in EVLP. In all settings, large tidal volumes resulted in increased particle flow. We found that DPPC was significantly increased comparing in vivo with EVLP. This technology may be useful for developing strategies to preserve the lung and has a high potential to detect biomarkers.
url http://link.springer.com/article/10.1186/s40635-018-0188-z
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