The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model

The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model

Abstract Background Acute respiratory distress syndrome causes a heterogeneous lung injury with normal and acutely injured lung tissue in the same lung. Improperly adjusted mechanical ventilation can exacerbate ARDS causing a secondary ventilator-induced lung injury (VILI). We hypothesized that a pe...

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Main Authors: Sumeet V. Jain, Michaela Kollisch-Singule, Joshua Satalin, Quinn Searles, Luke Dombert, Osama Abdel-Razek, Natesh Yepuri, Antony Leonard, Angelika Gruessner, Penny Andrews, Fabeha Fazal, Qinghe Meng, Guirong Wang, Louis A. Gatto, Nader M. Habashi, Gary F. Nieman
Format: Article
Language:English
Published: SpringerOpen 2017-05-01
Series:Intensive Care Medicine Experimental
Subjects:
Acute lung injury
Over-distension
Stress
Strain
Heterogeneous lung
Atelectasis
Online Access:http://link.springer.com/article/10.1186/s40635-017-0138-1
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spelling doaj-4c47d7e6c18140fa80153cb84c48400e2020-11-24T23:29:03ZengSpringerOpenIntensive Care Medicine Experimental2197-425X2017-05-015111810.1186/s40635-017-0138-1The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury modelSumeet V. Jain0Michaela Kollisch-Singule1Joshua Satalin2Quinn Searles3Luke Dombert4Osama Abdel-Razek5Natesh Yepuri6Antony Leonard7Angelika Gruessner8Penny Andrews9Fabeha Fazal10Qinghe Meng11Guirong Wang12Louis A. Gatto13Nader M. Habashi14Gary F. Nieman15Department of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Pediatrics, University of Rochester Medical CenterDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Trauma Critical Care Medicine, R Adams Cowley Shock Trauma Center, University of Maryland School of MedicineDepartment of Pediatrics, University of Rochester Medical CenterDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Surgery, SUNY Upstate Medical UniversityDepartment of Trauma Critical Care Medicine, R Adams Cowley Shock Trauma Center, University of Maryland School of MedicineDepartment of Surgery, SUNY Upstate Medical UniversityAbstract Background Acute respiratory distress syndrome causes a heterogeneous lung injury with normal and acutely injured lung tissue in the same lung. Improperly adjusted mechanical ventilation can exacerbate ARDS causing a secondary ventilator-induced lung injury (VILI). We hypothesized that a peak airway pressure of 40 cmH2O (static strain) alone would not cause additional injury in either the normal or acutely injured lung tissue unless combined with high tidal volume (dynamic strain). Methods Pigs were anesthetized, and heterogeneous acute lung injury (ALI) was created by Tween instillation via a bronchoscope to both diaphragmatic lung lobes. Tissue in all other lobes was normal. Airway pressure release ventilation was used to precisely regulate time and pressure at both inspiration and expiration. Animals were separated into two groups: (1) over-distension + high dynamic strain (OD + HDS, n = 6) and (2) over-distension + low dynamic strain (OD + LDS, n = 6). OD was caused by setting the inspiratory pressure at 40 cmH2O and dynamic strain was modified by changing the expiratory duration, which varied the tidal volume. Animals were ventilated for 6 h recording hemodynamics, lung function, and inflammatory mediators followed by an extensive necropsy. Results In normal tissue (NT), OD + LDS caused minimal histologic damage and a significant reduction in BALF total protein (p < 0.05) and MMP-9 activity (p < 0.05), as compared with OD + HDS. In acutely injured tissue (ALIT), OD + LDS resulted in reduced histologic injury and pulmonary edema (p < 0.05), as compared with OD + HDS. Conclusions Both NT and ALIT are resistant to VILI caused by OD alone, but when combined with a HDS, significant tissue injury develops.http://link.springer.com/article/10.1186/s40635-017-0138-1Acute lung injuryOver-distensionStressStrainHeterogeneous lungAtelectasis
collection DOAJ
language English
format Article
sources DOAJ
author Sumeet V. Jain
Michaela Kollisch-Singule
Joshua Satalin
Quinn Searles
Luke Dombert
Osama Abdel-Razek
Natesh Yepuri
Antony Leonard
Angelika Gruessner
Penny Andrews
Fabeha Fazal
Qinghe Meng
Guirong Wang
Louis A. Gatto
Nader M. Habashi
Gary F. Nieman
spellingShingle Sumeet V. Jain
Michaela Kollisch-Singule
Joshua Satalin
Quinn Searles
Luke Dombert
Osama Abdel-Razek
Natesh Yepuri
Antony Leonard
Angelika Gruessner
Penny Andrews
Fabeha Fazal
Qinghe Meng
Guirong Wang
Louis A. Gatto
Nader M. Habashi
Gary F. Nieman
The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
Intensive Care Medicine Experimental
Acute lung injury
Over-distension
Stress
Strain
Heterogeneous lung
Atelectasis
author_facet Sumeet V. Jain
Michaela Kollisch-Singule
Joshua Satalin
Quinn Searles
Luke Dombert
Osama Abdel-Razek
Natesh Yepuri
Antony Leonard
Angelika Gruessner
Penny Andrews
Fabeha Fazal
Qinghe Meng
Guirong Wang
Louis A. Gatto
Nader M. Habashi
Gary F. Nieman
author_sort Sumeet V. Jain
title The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
title_short The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
title_full The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
title_fullStr The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
title_full_unstemmed The role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
title_sort role of high airway pressure and dynamic strain on ventilator-induced lung injury in a heterogeneous acute lung injury model
publisher SpringerOpen
series Intensive Care Medicine Experimental
issn 2197-425X
publishDate 2017-05-01
description Abstract Background Acute respiratory distress syndrome causes a heterogeneous lung injury with normal and acutely injured lung tissue in the same lung. Improperly adjusted mechanical ventilation can exacerbate ARDS causing a secondary ventilator-induced lung injury (VILI). We hypothesized that a peak airway pressure of 40 cmH2O (static strain) alone would not cause additional injury in either the normal or acutely injured lung tissue unless combined with high tidal volume (dynamic strain). Methods Pigs were anesthetized, and heterogeneous acute lung injury (ALI) was created by Tween instillation via a bronchoscope to both diaphragmatic lung lobes. Tissue in all other lobes was normal. Airway pressure release ventilation was used to precisely regulate time and pressure at both inspiration and expiration. Animals were separated into two groups: (1) over-distension + high dynamic strain (OD + HDS, n = 6) and (2) over-distension + low dynamic strain (OD + LDS, n = 6). OD was caused by setting the inspiratory pressure at 40 cmH2O and dynamic strain was modified by changing the expiratory duration, which varied the tidal volume. Animals were ventilated for 6 h recording hemodynamics, lung function, and inflammatory mediators followed by an extensive necropsy. Results In normal tissue (NT), OD + LDS caused minimal histologic damage and a significant reduction in BALF total protein (p < 0.05) and MMP-9 activity (p < 0.05), as compared with OD + HDS. In acutely injured tissue (ALIT), OD + LDS resulted in reduced histologic injury and pulmonary edema (p < 0.05), as compared with OD + HDS. Conclusions Both NT and ALIT are resistant to VILI caused by OD alone, but when combined with a HDS, significant tissue injury develops.
topic Acute lung injury
Over-distension
Stress
Strain
Heterogeneous lung
Atelectasis
url http://link.springer.com/article/10.1186/s40635-017-0138-1
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