Changes in macromolecular permeability by intravascular generation of oxygen-derived free radicals

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%