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Text
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URL Address
<a href="http://doi.org/10.1152/physrev.00003.2002" target="_blank" rel="noreferrer noopener">http://doi.org/10.1152/physrev.00003.2002</a>
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Pages
569-600
Issue
3
Volume
82
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Dublin Core
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Title
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Lung epithelial fluid transport and the resolution of pulmonary edema
Publisher
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Physiological Reviews
Date
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2002
2002-07
Subject
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Physiology; sodium transport; tumor-necrosis-factor; alveolar liquid clearance; respiratory-distress syndrome; adenovirus-mediated transfer; active; aquaporin water channels; beta-adrenergic receptors; pseudomonas-aeruginosa pneumonia; sensitive na+ channel; surface fluorescence method
Creator
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Matthay M A; Folkesson H G; Clerici C
Description
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The discovery of mechanisms that regulate salt and water transport by the alveolar and distal airway epithelium of the lung has generated new insights into the regulation of lung fluid balance under both normal and pathological conditions. There is convincing evidence that active sodium and chloride transporters are expressed in the distal lung epithelium and are responsible for the ability of the lung to remove alveolar fluid at the time of birth as well as in the mature lung when pathological conditions lead to the development of pulmonary edema. Currently, the best described molecular transporters are the epithelial sodium channel, the cystic fibrosis transmembrane conductance regulator, Na+-K+-ATPase, and several aquaporin water channels. Both catecholamine-dependent and -independent mechanisms can upregulate isosmolar fluid transport across the distal lung epithelium. Experimental and clinical studies have made it possible to examine the role of these transporters in the resolution of pulmonary edema.
Identifier
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<a href="http://doi.org/10.1152/physrev.00003.2002" target="_blank" rel="noreferrer noopener">10.1152/physrev.00003.2002</a>
Format
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Journal Article or Conference Abstract Publication
2002
Active
adenovirus-mediated transfer
alveolar liquid clearance
aquaporin water channels
beta-adrenergic receptors
Clerici C
Folkesson H G
Journal Article or Conference Abstract Publication
Matthay M A
Physiological Reviews
Physiology
pseudomonas-aeruginosa pneumonia
respiratory-distress syndrome
sensitive na+ channel
sodium transport
surface fluorescence method
tumor-necrosis-factor