Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model

Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model

Abstract Mechanical ventilation is the cornerstone of the Intensive Care Unit. However, it has been associated with many negative consequences. Recently, ventilator-induced brain injury has been reported in rodents under injurious ventilation settings. Our group wanted to explore the extent of brain...

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Main Authors: Thiago G. Bassi, Elizabeth C. Rohrs, Karl C. Fernandez, Marlena Ornowska, Michelle Nicholas, Matt Gani, Doug Evans, Steven C. Reynolds
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-021-84440-1
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spelling doaj-648a6a24c0d54728b8a0e4a0eca8ddcb2021-03-11T12:24:36ZengNature Publishing GroupScientific Reports2045-23222021-03-0111111110.1038/s41598-021-84440-1Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical modelThiago G. Bassi0Elizabeth C. Rohrs1Karl C. Fernandez2Marlena Ornowska3Michelle Nicholas4Matt Gani5Doug Evans6Steven C. Reynolds7Simon Fraser UniversitySimon Fraser UniversitySimon Fraser UniversitySimon Fraser UniversitySimon Fraser UniversityLungpacer Medical, IncLungpacer Medical, IncSimon Fraser UniversityAbstract Mechanical ventilation is the cornerstone of the Intensive Care Unit. However, it has been associated with many negative consequences. Recently, ventilator-induced brain injury has been reported in rodents under injurious ventilation settings. Our group wanted to explore the extent of brain injury after 50 h of mechanical ventilation, sedation and physical immobility, quantifying hippocampal apoptosis and inflammation, in a normal-lung porcine study. After 50 h of lung-protective mechanical ventilation, sedation and immobility, greater levels of hippocampal apoptosis and neuroinflammation were clearly observed in the mechanically ventilated group, in comparison to a never-ventilated group. Markers in the serum for astrocyte damage and neuronal damage were also higher in the mechanically ventilated group. Therefore, our study demonstrated that considerable hippocampal insult can be observed after 50 h of lung-protective mechanical ventilation, sedation and physical immobility.https://doi.org/10.1038/s41598-021-84440-1
collection DOAJ
language English
format Article
sources DOAJ
author Thiago G. Bassi
Elizabeth C. Rohrs
Karl C. Fernandez
Marlena Ornowska
Michelle Nicholas
Matt Gani
Doug Evans
Steven C. Reynolds
spellingShingle Thiago G. Bassi
Elizabeth C. Rohrs
Karl C. Fernandez
Marlena Ornowska
Michelle Nicholas
Matt Gani
Doug Evans
Steven C. Reynolds
Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
Scientific Reports
author_facet Thiago G. Bassi
Elizabeth C. Rohrs
Karl C. Fernandez
Marlena Ornowska
Michelle Nicholas
Matt Gani
Doug Evans
Steven C. Reynolds
author_sort Thiago G. Bassi
title Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
title_short Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
title_full Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
title_fullStr Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
title_full_unstemmed Brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
title_sort brain injury after 50 h of lung-protective mechanical ventilation in a preclinical model
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2021-03-01
description Abstract Mechanical ventilation is the cornerstone of the Intensive Care Unit. However, it has been associated with many negative consequences. Recently, ventilator-induced brain injury has been reported in rodents under injurious ventilation settings. Our group wanted to explore the extent of brain injury after 50 h of mechanical ventilation, sedation and physical immobility, quantifying hippocampal apoptosis and inflammation, in a normal-lung porcine study. After 50 h of lung-protective mechanical ventilation, sedation and immobility, greater levels of hippocampal apoptosis and neuroinflammation were clearly observed in the mechanically ventilated group, in comparison to a never-ventilated group. Markers in the serum for astrocyte damage and neuronal damage were also higher in the mechanically ventilated group. Therefore, our study demonstrated that considerable hippocampal insult can be observed after 50 h of lung-protective mechanical ventilation, sedation and physical immobility.
url https://doi.org/10.1038/s41598-021-84440-1
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