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Alveolar epithelium permeability to small solutes: Developmental changes
B. E. Goodman, Douglas Wangensteen
Integrative Biology and Physiology
Research output
:
Contribution to journal
›
Article
›
peer-review
17
Scopus citations
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Keyphrases
Developmental Changes
100%
Alveolar Epithelium
100%
Permeable Surface
100%
Small Solutes
100%
Lipids
75%
L-glucose
75%
Lung
50%
Solute
50%
Mannitol
50%
D-glucose
50%
Erythritol
50%
Urea
25%
Small Waters
25%
Recirculating
25%
Trachea
25%
Lipid Membrane
25%
Ringer
25%
Water-filling
25%
Non-selective
25%
Ringer's Solution
25%
Special Process
25%
Relative Permeability
25%
Bulk Process
25%
Perfused Lung
25%
Blood-gas Barrier
25%
Permeability Decline
25%
Absolute Permeability
25%
Urea Transport
25%
Permeability-surface Area Product
25%
Agricultural and Biological Sciences
Alveolar Epithelium
100%
Surface Area
100%
L-Glucose
60%
Lung
60%
Leporidae
40%
Glucose
40%
Mannitol
40%
Erythritol
40%
Trachea
20%
Blood Gas
20%
Membrane Lipid
20%
Volume
20%
Medicine and Dentistry
Lung
100%
Alveolar Epithelium
100%
Glucose
66%
Erythritol
66%
Mannitol
66%
Trachea
33%
Ringer Solution
33%
Blood Gas
33%
Membrane Lipid
33%
Pharmacology, Toxicology and Pharmaceutical Science
Leporidae
100%
Erythritol
100%
Glucose
100%
Mannitol
100%
Ringer Solution
50%
Membrane Lipid
50%
Earth and Planetary Sciences
Surface Area
100%
Glucose
40%
Mannitol
40%