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Changes in macromolecular permeability by intravascular generation of oxygen-derived free radicals
Klaus Ley
, Karl E. Arfors
Research output
:
Contribution to journal
›
Article
›
peer-review
60
Scopus citations
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Medicine & Life Sciences
polyethylene glycol-superoxide dismutase
100%
Free Radicals
80%
Permeability
73%
Xanthine Oxidase
69%
Microinjections
63%
Oxygen
61%
Superoxides
57%
Cheek
57%
fluorescein isothiocyanate dextran
39%
Venules
34%
Capillary Permeability
31%
Hydroxyl Radical
31%
Control Groups
30%
Microcirculation
30%
Cricetinae
29%
Microvessels
28%
Hydrogen Peroxide
28%
Intravenous Infusions
27%
Reperfusion Injury
27%
Intravenous Injections
27%
Superoxide Dismutase
26%
Reading
25%
Ischemia
21%
Radiation
21%
Light
20%
Chemical Compounds
Free Radical
68%
Permeability
68%
Xanthine
48%
Superoxide
20%
Radical Anion
20%
Poly(ethylene Glycol)
17%
Hydrogen Peroxide
16%
Dioxygen
10%