References
- Silver M. J., Hoch W., Kocsis J. J., Ingerman C. M., Smith J. B. Arachidonic acid causes sudden death in rabbits. Science 1974; 183: 1085–1087
- Dipasqualle G., Mellace D. Inhibition of arachidonic acid induced mortality in rabbits with several non-steroidal anti-inflammatory agents. Agents and actions 1977; 7: 481–485
- Lefer A. M., Roth D. Actions of a protease inhibitor in arachidonate induced suddena death in rabbits. Pharmacology Resemch Communications 1982; 14: 121–130
- Lefer A. M., Burke S. E., Smith J. B. Role of thromboxanes and protaglandin endoperoxides in the pathogenesis of eicosanoid induced sudden death. Thrombosis Research 1983; 32: 311–320
- Roth D. M., Burke S. E., Lefer A. M. Protective actions of ibuprofen in arachidonate-induced sudden death. Pharmacology 1983; 27: 169–175
- Kohler C., Wooding W., Ellenbogen L. lntravenou arachidonate in the mouse: A model for the evaluation of antithrombotic drugs. Thrombosis Research 1976; 9: 67–80
- Sakai K., Yamazaki T., Nakamura Y., Sugimoto T. Protective effects of the antianginal agent nicorandil on arachidonate-induced sudden death in rats: Comparison with several antianginal agents and cyclooxygenase inhibitors. Japanese Journal of Pharmacology 1985; 37: 124–128
- Haworth D., Carey F. Thromboxane synthax inhibition: Implications for prostaglandin endoperoxide metabolism. Prostaglandins 1986; 31: 33–44
- Rafflebeul D., Zbinden G. Circulating platelet aggregates and thrombocytopcnia induced by intravenous of arachidonic and lauric acids in guinea pigs. Acta Haematologica 1977; 57: 87–95
- Hyman A. L., Spannhake W. E., Kodawitz P. J. Divergent responses to arachidonic acid in the feline pulmonary vascular bed. American Journal of Physiology 1980; 239: H40–H46
- Garcia Rafanell J., From J. Intravenous arachidonate-induced respiratory distress: Comparative study of the in vivo models for the measurement of antithrombotic activity. Journal of Pharmacological Methoak 1982; 7: 231–238
- Al-Ubaidi F., Bakhle Y. S. Differences in biological activation of arachidonic acid in perfused lungs from guinea pig, rat and man. European Journal of Pharmacology 1980; 62: 89–96
- Al-Ubaidi F., Bakhle Y. S. Metabolism of 14C-arachidonate in rat isolated lung. Prostaglandins 1980; 19: 747–759
- Puig-Parellada P., Planas J. M. Action of selective inhibitor of thromboxane synthetase on experimental thrombosis induced by arachidonic acid in rabbits. The Lancet 1977; 11: 40
- Kontos H. A., Wei E. P., Povlishock J. T., Christman C. W. Oxygen radicals mediate the cerebral arteriolar dilation from arachidonate and bradykinin in cats. Circulation Research 1984; 55: 295–303
- Smith W. L., Lands W. E. M. Oxygenation of unsaturated fatty acids by soybean lipooxy, genase. Journal Biological Chemistry 1972; 247: 1038–1047
- Powell W. S., Solomon S. Biosynthesis of prostaglandins and thromboxane B2 by fetal lung homogenates. Prostaglandins 1978; 15: 351–365
- Carey F., Haworth D. Thromboxane synthase inhibition: Implications for prostaglandin endoperoxide metabolism. Prostaglandins 1986; 31: 47–57
- Lowrie D. B., Aber V. R. Superoxide production by rabbit pulmonary alveolar macro-phages. Life Science 1977; 21: 1575–1584
- Hocking W. G., Golde D. W. The pulmonary-alveolar niacrophage. New England Journal of Medicitre 1979; 301: 580–587, 639–645
- Adams D. O., Hamilton T. A. The cell biology of macrophage activation. Annual Review of Immunology 1984; 2: 283–318
- Johnson K. J. Neutrophil-independent oxygen radical-mediated tissue injury. Physiology of Oxygen Radicals, A. E. Taylor, S. Matalon, P. Ward, 1986; 151–162, American Physiological Society, Bethesda, Maryland
- Bromberg Y., Pick E. Unsaturated fatty acids as second messengers of superoxide generation by macrophages. Cellular Immunology 1983; 79: 240–252
- Bellavite P. The superoxide-forming enzymatic system of phagocytes. Free Radical in Biological Medicine 1988; 4: 225–261
- Curnutte J. T., Badwey J. A., Robinson J. M., Karnovskyand M. J., Karnovsky M. L. Studies on the mechanism of superoxide releise from human neutrophils stimulated with arachidonate. Journal of Biological Chemistry 1984; 259: 11851–11857
- McPhail L. C., Clayton C. C., Snyderman R. A potential second messenger role for unsaturated fatty acids: Activation of Ca+2 dependent protein kinase. Science 1984; 224: 622–625
- Townsley M. I., Taylor A. E. Role of oxygen radicals in free fatty acid-induced lung injury. Physiology of Oxygen Radicals, A. E. Taylor, S. Matalon, P. Ward, 1986; 169–186, American Physiological Society. kthesda, Markdnd.
- Tsundwdki S., Nathan C. F. Release of ardchidondle and reduction of oxygen. Journal of Biological Chemistry 1986; 261: 11563–11570
- Kuehl F. A., Jr, Humcs J. L., Torchiana M. L., Ham E. A., Egan R. W. Oxygen-centcred radicals in inflammatory processes. Advances in Inflammation Research 1979; 1: 419–430
- Warso M. A., Lands W. E. M. Lipid peroxidalion in relation to prostacyclin and thromboxane physiology and pathophysiology. British Medical Bulletin 1983; 39: 277–280