Postoperative Hyperoxia (60%) Worsens Hepatic Injury in Mice

BACKGROUND:Liver damage by ischemia and reperfusion injury is a risk factor for morbidity and mortality after liver surgery. Postoperative oxygen treatment is routinely applied in the postanesthesia and intensive care unit after liver surgery. The risks of aggravating the injury by increasing inspir...

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Bibliographic Details
Published in:Anesthesiology (Philadelphia) 2014-12, Vol.121 (6), p.1217-1225
Main Authors: Zangl, Quirin, Martignoni, André, Jackson, Sharon H, Ohta, Akio, Klaunberg, Brenda, Kaufmann, Ines, Lukashev, Dimitry, Ward, Jerrold M, Sitkovsky, Michail, Thiel, Manfred, Choukèr, Alexander
Format: Article
Language:English
Subjects:
Acute Lung Injury - etiology
Acute Lung Injury - pathology
Anesthesia
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Animals
Biological and medical sciences
Hepatocytes - pathology
Hyperoxia - complications
Hyperoxia - pathology
Kupffer Cells - metabolism
Kupffer Cells - pathology
Medical sciences
Mice
Mice, Inbred C57BL
Mice, Knockout
NADPH Oxidases - genetics
NADPH Oxidases - metabolism
Neutrophils - metabolism
Neutrophils - pathology
Oxygen - analysis
Postoperative Complications - pathology
Reactive Oxygen Species
Reperfusion Injury - pathology
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Summary:BACKGROUND:Liver damage by ischemia and reperfusion injury is a risk factor for morbidity and mortality after liver surgery. Postoperative oxygen treatment is routinely applied in the postanesthesia and intensive care unit after liver surgery. The risks of aggravating the injury by increasing inspiratory oxygen from 21 to 60% in the postoperative period were investigated in mice. METHODS:Parameters of liver injury were compared after induction of hepatic ischemia–reperfusion injury, by clamping the left liver lobe for 45 min, and reperfusion for 24 h either under normoxic (21% oxygen) or hyperoxic (60% oxygen) conditions (n = 22 per group). The extent of tissue injury and oxidative responses was analyzed in the presence or absence of polymorphonuclear leukocytes, functional Kupffer cells, and the p47phox unit of the nicotinamide adenine dinucleotide phosphate oxidase (n = 6 to 11 per group). RESULTS:Compared with postoperative normoxic conditions, hyperoxia increased cell damage (glutamate-pyruvate transaminase1,870 [±968 SD] vs. 60% 2,981 [±1,038 SD], 21 vs. 60% oxygen, in U/l as mean ± SD; P < 0.01), liver weights (341 ± 52 vs. 383 ± 44, 21 vs. 60% oxygen, in mg as mean ± SD; P = 0.02), damage scores (1.9 ± 0.8 vs. 3.1 ± 1.0, 21 vs. 60% oxygen, score as mean ± SD; P = 0.02), and reactive oxygen species (15.0 ± 12.0 vs. 30.4 ± 19.2, 21 vs. 60% oxygen, in μmol/l as mean ± SD; P < 0.05). The aggravation of the tissue damaging effects as a result of hyperoxia was not seen in mice with depletions of polymorphonuclear leukocytes or Kupffer cells, or with nonfunctioning nicotinamide adenine dinucleotide phosphate oxidase. CONCLUSION:Liver injury after ischemia was significantly aggravated by hyperoxia as a consequence of immune cell-mediated oxidative burst. Further studies are needed to elucidate whether routine delivery of high inspirational oxygen concentrations postoperatively should be limited.
ISSN:0003-3022
1528-1175
DOI:10.1097/ALN.0000000000000447