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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Supplemental oxygen is often required in the treatment of critically ill patients. The impact of
hyperoxia
on pulmonary host defense is not well-established. We hypothesized that
hyperoxia
directly impairs pulmonary host defense, beyond effects on alveolar wall barrier function. C57BL/6 mice were kept in an atmosphere of >95% O(2) for 4 days followed by return to room air. This exposure does not lead to mortality in mice subsequently returned to room air. Mice kept in room air served as controls. Mice were intratracheally inoculated with Klebsiella pneumoniae and followed for survival. Alveolar macrophages (AM) were harvested by bronchoalveolar lavage after 4 days of in vivo
hyperoxia
for ex vivo experiments. Mortality from pneumonia increased significantly in mice exposed to
hyperoxia
compared with infected mice in room air. Burden of organisms in the lung and dissemination of infection were increased in the
hyperoxia
group whereas accumulation of inflammatory cells in the lung was impaired.
Hyperoxia
alone had no impact on AM numbers, viability, or ability to phagocytize latex microbeads. However, following in vivo
hyperoxia
, AM phagocytosis and killing of Gram-negative bacteria and production of TNF-alpha and IL-6 in response to LPS were significantly reduced. AM surface expression of Toll-like receptor-4 was significantly decreased following in vivo
hyperoxia
. Thus sublethal
hyperoxia
increases Gram-negative
bacterial pneumonia
mortality and has a significant adverse effect on AM host defense function. Impaired AM function due to high concentrations of supplemental oxygen may contribute to the high rate of ventilator-associated pneumonia seen in critically ill patients.
...
PMID:Sublethal hyperoxia impairs pulmonary innate immunity. 1284 67
Apoptosis is a mode of cell death currently thought to occur in the absence of inflammation. In contrast, inflammation follows unscheduled events such as acute tissue injury which results in necrosis, not apoptosis. We examined the relevance of this paradigm in three distinct models of acute lung injury;
hyperoxia
, oleic acid, and
bacterial pneumonia
. In every case, it was found that apoptosis is actually a prominent component of the acute and inflammatory phase of injury. Moreover, using strains of mice that are differentially sensitive to hyperoxic lung injury we observed that the percent of apoptotic cells was well correlated with the severity of lung injury. These observations suggest that apoptosis may be one of the biological consequences during acute injury and the failure to remove these apoptotic cells may also contribute to the inflammatory response.
...
PMID:Unscheduled apoptosis during acute inflammatory lung injury. 1455 73
Lipid-protein complexes are the basis of pulmonary surfactants covering the respiratory surface and mediating gas exchange in lungs. Cardiolipin is a mitochondrial lipid overexpressed in mammalian lungs infected by
bacterial pneumonia
. In addition, increased oxygen supply (
hyperoxia
) is a pathological factor also critical in
bacterial pneumonia
. In this paper we fabricate a micrometer-size graphene-based sensor to measure oxygen permeation through pulmonary membranes. Combining oxygen sensing, X-ray scattering, and Atomic Force Microscopy, we show that mammalian pulmonary membranes suffer a structural transformation induced by cardiolipin. We observe that cardiolipin promotes the formation of periodic protein-free inter-membrane contacts with rhombohedral symmetry. Membrane contacts, or stalks, promote a significant increase in oxygen gas permeation which may bear significance for alveoli gas exchange imbalance in pneumonia.
...
PMID:Graphene-based sensing of oxygen transport through pulmonary membranes. 3210 76
