References
- Heymann M A., Ivamoto H S., Rudolph A M. Factors affecting changes in the neonatal systemic circulation. Ann Rev Physiol 1981; 43: 371–83
- Philips J B., III, Lyrene R K. Prostaglandins, related compounds, and the perinatal pulmonary circulation. Symposium on Neonatal Pulmonary Hypertension. Clin Perinatol 1984; 11: 565–79
- Cassin S. Role of prostaglandins, thromboxanes and leukotrienes in the control of the pulmonary circulation in the fetus and newborn. Semin Perinatol 1987; 11: 53–63
- Moncada S, Vane J R. The discovery of prosta-cyclin-a fresh insight into arachidonic acid metabolism. Biochemical Aspects of Prostaglandins and Thromboxanes, N Kharasch, J Fried. Academic Press, New York 1977; 155–77
- Salzman P M., Salmon J A., Moncada S. Prostacyclin and TXA2 synthesis by rabbit pulmonary artery. J Pharmacol Exp Ther 1980; 215: 240–7
- Zijlstra F J., Vincent J E., Bonta I L. The effects of leukotrienes, thromboxanes A2 and phospholipase A2 on human, porcine and guinea pig lung parenchyma. Agent Actions 1984; 14: 88–92
- Hyman A L., Kadowitz P J. Pulmonary vasodilator activity of prostacyclin (PGI2) in the cat. Circ Res 1970; 45: 404–9
- Kadowitz P J., Chapnic B M., Feigen L P., et al. Pulmonary and systemic vasodilator effects of the newly discovered prostaglandin PGI2. J Appl Physiol 1978; 45: 408–13
- Fridovich I. Quantitative aspects of the production of superoxide anion radical by milk xanthine oxidase. J Biol Chem 1970; 245: 4053–7
- McCord J M., Fridovich I. The reduction of cytochrome c by milk xanthine oxidase. J Biol Chem 1968; 243: 5753–60
- Saugstad O D. Hypoxanthine as an indicator of hypoxia: Its role in health and disease through free radical production. Ped Res 1988; 23: 143–50
- Granger D N., Rutili G, McCord J M. Superoxide radicals in feline intestinal ischemia. Gastroenterology 1981; 81: 22–9
- Crapo J D., Tierny D F. Superoxide dismutase and pulmonary oxygen toxicity. Am J Physiol 1974; 226: 1401–7
- Saugstad O D. Oxygen radicals and pulmonary damage. Ped Pulmonol 1985; 1: 167–75
- Saugstad O D., Hallman M, Abraham J L., Epstein B, Cochrane C, Gluck L. Hypoxanthine and oxygen induced long injury: A possible basic mechanism of tissue injury?. Ped Res 1984; 18: 501–4
- Sanderud J, Norstein J, Saugstad O D. Reactive oxygen metabolites produce pulmonary vasoconstriction in young pigs. Ped Res 1991; 29: 543–7
- Panganamala R V., Sharma H M., Sprecher H, Geer J C., Cornwell D G. A suggested role for hydrogen peroxide in the biosynthesis of prostaglandins. Prostaglandins 1974; 8: 3–11
- Kellog E W., Fridovich I. Superoxide, hydrogen peroxide, and singlet oxygen in lipid peroxidation by a xanthine oxidase system. J Biol Chem 1975; 250: 8812–7
- Fridovich S E., Porter N A. Oxidation of arachidonic acid in micelles by superoxide and hydrogen peroxide. J. Biol Chem 1981; 256: 260–5
- Tate R M., Morris H G., Schroeder W R., Repine J E. Oxygen metabolites stimulate thromboxane production and vasoconstriction in isolated saline-perfused rabbit lungs. Am Rev Resp Dis 1984; 126: 802–6
- Seeger W, Suttorp N, Schmidt F, Neuhof H. The glutathione redox cycle as a defence system against hydrogen-peroxide-induced prostanoid formation and vasoconstriction in rabbit lungs. Am Rev Resp Dis 1986; 133: 1029–36
- Gurtner G H., Farrukh I S., Adkinson N J., Jr., Sciuto A M., Jacobson J M., Michael J R. The role of arachi-donate mediators in peroxide-induced lung injury. Am Rev Resp Dis 1987; 136: 480–3
- Greenwald R A., Moy W W. Inhibition of collagen gelation by action of the superoxide radical. Arthritis Rheum 1979; 22: 251–5
- Aasen A O., Kierulf P, Strømme J H. Methodological considerations on chromogenic peptide substrate assays and application on automated analyzers. Acta Chir Scand 1982; 509: 17–22
- Aune S, Aasen A O., Kierulf P, Strómme J H. Quantitative determination of endotoxin in plasma by means of a new chromogenic peptide substrate. A methodological study. Acta Chir Scand 1982; 509: 55–7
- Bjøro K, Stokke K T., Stray-Pedersen S. Formation of prostanoids in human umbilical vessels perfused in vitro. Prostaglandins 1986; 31: 683–97
- Freeman B A., Crapo J D. Free radicals and tissue injury. Lab Invest 1982; 47: 412–26
- Meerzon F Z., Kagan V E., Kozlov Y P., Belkina L M., Arkkhipenko Y V. The role of lipid peroxidation in pathogenesis of ischemic and the antioxidant protection of the heart. Basic Res Cardiol 1982; 77: 465–85
- Del Maestro R F., Bjork J, Arfors K E. Increase in microvascular permeability induced by enzyma-tically generated free radicals. II. Role of superoxide anion radical, hydrogen peroxide and hydroxyl radical. Microvasc Res 1981; 22: 255–70
- Lee D SC, McCallum E A., Olson D M. Efifects of reactive oxygen species on prostacyclin production in perinatal rat lung cells. J Appl Physiol 1989; 66: 1321–7
- Burghuber O, Mathias M M., McMurtry I F., Reeves J T., Voelkel N F. Lung edema due to hydrogen peroxide is independent of cyclooxygenase products. J Appl Physiol 1984; 56: 900–5
- Rubanyi G M., Vanhoutte P M. Superoxide anions and hyperoxia inactivate endothelium-derived relaxing factor. Am J Physiol 1986; 250: H822–7
- Ignarro L J., Byrns R E., Buga G M., Wood K S. Endothelium-derived relaxing factor from pulmonary artery and vein possesses pharmacologic and chemical properties identical to those of nitric oxide radical. Circ Res 1987; 61: 866–79
- Benedetto C, Rey L, Tavella A M., Pettiti E, Barbero M, Massobrio M, Slater T M. Production of prostacyclin, 6-keto-PGFla and thromboxane B2 by incubated samples of umbilical vessels: a comparison of methods for expressing the results on dry weight, protein or DNA bases. Prostaglandins 1984; 28: 195–204