Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis

Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis

Supplemental oxygen is a supportive treatment in patients with sepsis to balance tissue oxygen delivery and demand in the tissues. However, hyperoxia may induce some pathological effects. We sought to assess organ damage associated with hyperoxia and its correlation with the production of reactive o...

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Main Authors: M. Isabel García-Laorden, Raquel Rodríguez-González, José L. Martín-Barrasa, Sonia García-Hernández, Ángela Ramos-Nuez, H. Celeste González-García, Jesús M. González-Martín, Robert M. Kacmarek, Jesús Villar
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:Mediators of Inflammation
Online Access:http://dx.doi.org/10.1155/2020/5101834
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spelling doaj-b08219e9f7fd4265bdd7dc510213c9832020-11-25T03:56:34ZengHindawi LimitedMediators of Inflammation0962-93511466-18612020-01-01202010.1155/2020/51018345101834Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal SepsisM. Isabel García-Laorden0Raquel Rodríguez-González1José L. Martín-Barrasa2Sonia García-Hernández3Ángela Ramos-Nuez4H. Celeste González-García5Jesús M. González-Martín6Robert M. Kacmarek7Jesús Villar8CIBER de Enfermedades Respiratorias, Instituto de Salud Carlos III, Monforte de Lemos 3-5, Pabellón 11, 28029 Madrid, SpainDepartment of Psychiatry, Radiology, Public Health, Nursing and Medicine, School of Nursing, University of Santiago de Compostela, Avda. Xoán XXIII s/n, 15782 Santiago de Compostela, SpainMultidisciplinary Organ Dysfunction Evaluation Research Network, Research Unit, Hospital Universitario de Gran Canaria Dr. Negrín, Barranco de la Ballena s/n, 35019 Las Palmas de Gran Canaria, SpainDepartment of Pathology, Hospital Universitario de Canarias, Carretera Cuesta Taco 0, 38320 Sta. Cruz de Tenerife, SpainCIBER de Enfermedades Respiratorias, Instituto de Salud Carlos III, Monforte de Lemos 3-5, Pabellón 11, 28029 Madrid, SpainDepartment of Pathology, Hospital Universitario de Canarias, Carretera Cuesta Taco 0, 38320 Sta. Cruz de Tenerife, SpainMultidisciplinary Organ Dysfunction Evaluation Research Network, Research Unit, Hospital Universitario de Gran Canaria Dr. Negrín, Barranco de la Ballena s/n, 35019 Las Palmas de Gran Canaria, SpainDepartment of Respiratory Care, Massachusetts General Hospital, 55 Fruit Street, Boston, MA 02114, USACIBER de Enfermedades Respiratorias, Instituto de Salud Carlos III, Monforte de Lemos 3-5, Pabellón 11, 28029 Madrid, SpainSupplemental oxygen is a supportive treatment in patients with sepsis to balance tissue oxygen delivery and demand in the tissues. However, hyperoxia may induce some pathological effects. We sought to assess organ damage associated with hyperoxia and its correlation with the production of reactive oxygen species (ROS) in a preclinical model of intra-abdominal sepsis. For this purpose, sepsis was induced in male, Sprague-Dawley rats by cecal ligation and puncture (CLP). We randomly assigned experimental animals to three groups: control (healthy animals), septic (CLP), and sham-septic (surgical intervention without CLP). At 18 h after CLP, septic (n=39), sham-septic (n=16), and healthy (n=24) animals were placed within a sealed Plexiglas cage and randomly distributed into four groups for continuous treatment with 21%, 40%, 60%, or 100% oxygen for 24 h. At the end of the experimental period, we evaluated serum levels of cytokines, organ damage biomarkers, histological examination of brain and lung tissue, and ROS production in each surviving animal. We found that high oxygen concentrations increased IL-6 and biomarkers of organ damage levels in septic animals, although no relevant histopathological lung or brain damage was observed. Healthy rats had an increase in IL-6 and aspartate aminotransferase at high oxygen concentration. IL-6 levels, but not ROS levels, are correlated with markers of organ damage. In our study, the use of high oxygen concentrations in a clinically relevant model of intra-abdominal sepsis was associated with enhanced inflammation and organ damage. These findings were unrelated to ROS release into circulation. Hyperoxia could exacerbate sepsis-induced inflammation, and it could be by itself detrimental. Our study highlights the need of developing safer thresholds for oxygen therapy.http://dx.doi.org/10.1155/2020/5101834
collection DOAJ
language English
format Article
sources DOAJ
author M. Isabel García-Laorden
Raquel Rodríguez-González
José L. Martín-Barrasa
Sonia García-Hernández
Ángela Ramos-Nuez
H. Celeste González-García
Jesús M. González-Martín
Robert M. Kacmarek
Jesús Villar
spellingShingle M. Isabel García-Laorden
Raquel Rodríguez-González
José L. Martín-Barrasa
Sonia García-Hernández
Ángela Ramos-Nuez
H. Celeste González-García
Jesús M. González-Martín
Robert M. Kacmarek
Jesús Villar
Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
Mediators of Inflammation
author_facet M. Isabel García-Laorden
Raquel Rodríguez-González
José L. Martín-Barrasa
Sonia García-Hernández
Ángela Ramos-Nuez
H. Celeste González-García
Jesús M. González-Martín
Robert M. Kacmarek
Jesús Villar
author_sort M. Isabel García-Laorden
title Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
title_short Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
title_full Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
title_fullStr Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
title_full_unstemmed Systemic Effects Induced by Hyperoxia in a Preclinical Model of Intra-abdominal Sepsis
title_sort systemic effects induced by hyperoxia in a preclinical model of intra-abdominal sepsis
publisher Hindawi Limited
series Mediators of Inflammation
issn 0962-9351
1466-1861
publishDate 2020-01-01
description Supplemental oxygen is a supportive treatment in patients with sepsis to balance tissue oxygen delivery and demand in the tissues. However, hyperoxia may induce some pathological effects. We sought to assess organ damage associated with hyperoxia and its correlation with the production of reactive oxygen species (ROS) in a preclinical model of intra-abdominal sepsis. For this purpose, sepsis was induced in male, Sprague-Dawley rats by cecal ligation and puncture (CLP). We randomly assigned experimental animals to three groups: control (healthy animals), septic (CLP), and sham-septic (surgical intervention without CLP). At 18 h after CLP, septic (n=39), sham-septic (n=16), and healthy (n=24) animals were placed within a sealed Plexiglas cage and randomly distributed into four groups for continuous treatment with 21%, 40%, 60%, or 100% oxygen for 24 h. At the end of the experimental period, we evaluated serum levels of cytokines, organ damage biomarkers, histological examination of brain and lung tissue, and ROS production in each surviving animal. We found that high oxygen concentrations increased IL-6 and biomarkers of organ damage levels in septic animals, although no relevant histopathological lung or brain damage was observed. Healthy rats had an increase in IL-6 and aspartate aminotransferase at high oxygen concentration. IL-6 levels, but not ROS levels, are correlated with markers of organ damage. In our study, the use of high oxygen concentrations in a clinically relevant model of intra-abdominal sepsis was associated with enhanced inflammation and organ damage. These findings were unrelated to ROS release into circulation. Hyperoxia could exacerbate sepsis-induced inflammation, and it could be by itself detrimental. Our study highlights the need of developing safer thresholds for oxygen therapy.
url http://dx.doi.org/10.1155/2020/5101834
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