Lipid peroxidation during myocardial ischaemia induced by pacing.

Burrell CJ, Blake DR. Reactive oxygen metabolites and the human myocardium. Br Heart J 1989;61:4-8.

McCord JM. Oxygen-derived free radicals and reperfusion injury (pp 533-35). In: Cross CE, moderator. Oxygen radicals and human disease. Ann Intern Med 1987;107:526-45.

Uraizee A, Reimer KA, Murray CE, Jennings RB. Failure of superoxide dismutase to limit size ofmyocardial infarction after 40 minutes of ischemia and 4 days of reperfusion in dogs. Circulation 1987;75:1237-48.

Wems SW, Shea MJ, Mitsos SE, et al. Reduction of the size of infarction by allopurinol in the ischemic-reperfused canine heart. Circulation 1986;73:518-24.

Reimer KA, Jennings RB. Failure of the xanthine oxidase inhibitor allopurinol to limit infarct size after ischemia and reperfusion in dogs. Circulation 1985;71:1069-75.

Ambrosio G, Weisfeldt ML, Jacobus WE, Flaherty JT. Evidence for a reversible oxygen radical-mediated component of reperfusion injury: reduction by recombinant human superoxide dismutase administered at the time of reflow. Circulation 1987;75:282-91.

Corr PB, Gross RW, Sobel BE. Amphipathic metabolites and membrane dysfunction in ischemic myocardium. Circ Res 1984;55:135-54.

Slater TF. Free radical mechanisms in tissue injury. Biochem J 1984;222:1-15.

Knight JA, Smith SE, Kinder VE, Anstall HB. Reference intervals for plasma lipoperoxides: age-, sex-, and specimen-related variations. Clin Chem 1987;33:2289-91.

Dianzani MU. Biochemical effects of saturated and unsaturated aldehydes. In: McBrien DCH, Slater TF, eds. Free radicals, lipid peroxidation and cancer. London and New York: Academic Press, 1982:129-58.

Esterbauer H. Lipid peroxidation products: formation, chemical properties and biological activities. In: Poli G, Cheeseman KV, Dianzani MU, Slater TF, eds. Free radicals in liver injury. Oxford and Washington DC: IRL Press, 1987:29-47.

Herman MV, Elliot WC, Gorlin R. An electrocardiographic, anatomic and metabolic study of zonal myocardial ischemia in coronary heart disease. Circulation 1967;35:834-46.

Santos MT, Valles J, Aznar J, Vilches J. Determination of plasma malondialdehyde-like material and its clinical application in stroke patients. J Clin Pathol 1980;33: 973-6.

Parker JO, West RO, Case RB, Chiong MA. Temporal relationships of myocardial lactate metabolism, left ventricular function and ST segment depression during angina precipitated by exercise. Circulation 1969;40: 97-111.

Opie LH, Owen P, Riemersma RA. Relative rates of oxidation of glucose and free fatty acids by ischaemic and non ischaemic myocardium after coronary artery ligation in the dog. Eur J Clin Invest 1973;3:419-35.

Cobbe SM, Poole-Wilson PA. Continuous coronary sinus and arterial pH monitoring during pacing-induced ischaemia in coronary artery disease. Br Heart J 1982;47:369-74. 1.9 Lewis DH, Del Maestro RF. Free radicals in medicine and biology. Acta Physiol Scand fSuppl 11980;492:1-168.

Bolli R. Oxygen-derived free radicals and postischemic myocardial dysfunction ("stunned myocardium"). J Am Coll Cardiol 1988;12:239-49.

Jewett SL, Eddy LJ, Hochstein P. Is the autoxidation of catecholamines involved in ischemia-reperfusion injury? Free Radic Biol Med 1989;6:185-8.

Simpson PJ, Lucchesi BR. Free radicals and myocardial ischemia and reperfusion injury. J Lab Clin Med 1987;1 10:13-30.

Rosson RD, Swain JL, Michael LH, Weakley S, Giannini E, Entman ML. Selective accumulation of the first component ofcomplement and leukocytes in ischemic canine heart muscle. A possible initiatior of an extra-myocardial mechanism of ischemic injury. Circ Res 1985;57:119-30.

Downey JM, Hearse DJ, Yellon DM. The role of xanthine oxidase during myocardial ischaemia in several species including man. J Mol Cell Cardiol 1988;20(suppl II): 55-63.

Muxfeldt M, Schaper W. The activity of xanthine oxidase in heart of pigs, guinea pigs, rabbits, rats and humans. Basic Res Cardiol 1987;82:486-92.

Liu J, Simon LM, Philips JR, Robin ED. Superoxide dismutase in hypoxic mammalian systems. J Appl Physiol 1977;42: 107-10.

Guarnieri C, Flamigni F, Caldarera CM. Role of oxygen in the cellular damage induced by reoxygenation of the hypoxic heart. J Mol Cell Cardiol 1980;12:797-808.

Aznar J, Santos MT, Valles J, Sala J. Serum malondialdehyde-like material (MDA-LM) in acute myocardial infarction. J Clin Pathol 1983;36:712-5.

Sato Y, Hotta N, Sakamoto N, Matsouka S, Ohishi N, Yagi K. Lipid peroxide levels in plasma of diabetic patients. Biochem Med 1979;21:104-7.

Knight JA, Pieper RK, McClellan L. Specificity of the thiobarbituric acid reaction: its use in studies of lipid peroxidation. Clin Chem 1988;34:2433-8.

Aust SD. Lipid peroxidation. In: Greenwauld RA, ed. CRC handbook of methods for oxygen radical research. London: CRC Press, 1985:203-7.

Barrowcliffe TW, Gutteridge JM, Gray E. Oxygen radicals, lipid peroxidation and the coagulation system. Agents Actions 1987;22:347-8.

Goto Y. Lipid peroxides as a cause of vascular disease. In: Yagi K, ed. Lipid peroxides in biology and medicine. New York: Academic Press, 1982:295-303.

Stringer MD, Gorog PG, Freeman A, Kakkar VV. Lipid peroxides and atherosclerosis. Br Med J 1989;298:281-4.

Weiner JM, Apstein CS, Arthur JH, Pirzada FA, Hood WB Jr. Persistence of myocardial injury following brief periods of coronary occlusion. Cardiovasc Res 1976;10:678-86.

Homans DC, Sublett E, Dai XZ, Bache RB. Persistence of regional left ventricular dysfunction after exerciseinduced myocardial ischaemia. J Clin Invest 1986;77: 66-73.