This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Afonso S, O’Brien GS (1970) Inhibition of cardiovascular metabolic and hemodynamic effects of adenosine by aminophylline. Am J Physiol 219: 1672–1674
Akizuki S, Yoshida S, Chambers DE, Eddy LJ, Parmley LF, Yellon DM, Downey JM (1984) Infarct size reduction by the xanthine oxidase inhibitor, allopurinol, in closedchest dogs. Basic Res Cardiol (to be published )
Alella A (1954) Beziehungen zwischen arterieller Sauerstoffsattigung, Sauerstoffsattigung im Sinus coronarius und Sauerstoffausnutzung im Myokard unter Beriicksichtigung von Sauerstoffkapazitat und arteriellem Druck. Pfliigers Arch 259: 436–453
Anrep GV (1926) The regulation of the coronary circulation. Physiol Rev 6: 596–629
Arbogast R, Bourassa MG (1973) Myocardial function during atrial pacing in patients with angina pectoris and normal coronary arteriograms. Am J Cardiol 32: 257
Bassenge E (1984) Physiologie der Koronardurchblutung. In: Roskaum H (ed) Koronarerkrankungen. Springer, Berlin Heidelberg New York Tokyo, pp 1448 (Handbuch der inneren Medizin, 5th edn., vol 9/3)
Berne RM (1963) Cardiac nucleotides in hypoxia: possible role in regulation of coronary blood flow. Am J Physiol 204: 317–322
Berne RM (1980) The role of adenosine in the regulation of coronary blood flow. Circ Res 74: 807–813
Bing RJ, Wayland H, Rickart A, Hellberg K (1972) Studies on the coronary microcirculation by direct visualization. In: Maseri A (ed) Myocardial blood flow in man. Torino, Italy, p 23
Bird JWC, Carter JH, Triemer RE, Brooks RM, Spanier AM (1980) Proteinases in cardiac and skeletal muscle. Fed Proc 39: 20–25
Borgers M, Schaper J, Schaper W (1971) Adenosine-producing sites in the mammalian heart: a cytochemical study. J Mol Cell Cardiol 3: 287–296
Brake ET, Will PC, Cook JS (1975) Characterization of HeLa cell 5’nucleotidase: a stable plasma membrane marker. Membr Biochem 2: 17–46
Braunwald E, Maroko PR (1979) Protection of the ischemic myocardium. In: Schaper W (ed) The pathophysiology of myocardial perfusion. Elsevier/North-Holland Biomedical, Amsterdam, pp 379–413
Bretschneider HJ (1964) Uberlebenszeit und Wiederbelebungszeit des Herzens bei Normound Hypothermic. Verh Dtsch Ges Kreislauffsch 30: 11–34
Bretschneider HJ, Frank A, Bernard U, Kochsiek K, Scheler F (1959) Die Wirkung eines Pyrimido-pyrimidin Derivates auf die Sauerstoffversorgung des Herzmuskels. Arzneimittelforsch 9: 49–59
Buffa P, Pasquali-Ronchetti I (1977) Biochemical lesions of respiratory enzymes and configurational changes of mitochondria in vivo. II. Early ultrastructural modifications correlated to the biochemical lesion induced by fluoroacetate. Cell Tiss Res 183: 1–23
Buffington CW, Feigl EO (1981) Adrenergic coronary vasoconstriction in the presence of coronary stenosis in the dog. Circ Res 48: 416–423
Bugge-Asperheim B, Leraand S, Kill F (1969) Local dimensional changes of the myocardium measured by ultrasonic technique. Scand J Clin Invest 24: 361–371
Burdette WJ (1956) Adenosine nucleotide levels in cardiac arrest. Am Heart J 52: 193–197
Burger RM, Lowenstein JM (1975) 5’-nucleotidase from smooth muscle of small intestine and from brain. Inhibition by nucleotides. Biochemistry 14: 2362–2366
Carafoli E, Roman I (1980) Mitochondria and disease. Mol Aspects Med 3: 295–429
Chang I (1938) Effect of asphyxia on the adenosine triphosphate content of the rabbit heart. Q J Exp Physiol 28: 3
Chierchia S, Marchesi C, Maseri A (1978) Evidence of angina not caused by increased metabolic demand and patterns of electrocardiography and hemodynamic alterations during “primary” angina. In: Maseri A, Klassen GA, Lesch M (eds) Primary and secondary angina pectoris. Grune and Stratton, New York
Chilian WM, Boatwright RB, Shoji T, Griggs DM Jr (1981) Evidence against significant resting sympathetic coronary vasoconstrictor tone in the conscious dog. Circ Res 49: 866 - 876
Coelho JLC, Vercesi AE (1980) Retention of Ca2 + by rat liver and rat mitochondria: effect of phosphate, Mg2 +, and NAD(P) redox state. Arch Biochem Biophys 204: 141–147
Cox JL, McLaughlin VW, Flowers NC, Horan LG (1968) The ischemic zone surrounding acute myocardial infarction: its morphology as detected by dehydrogenase staining. Am Heart J 76: 650
Danforth WH, Naegele S, Bing RJ (1960) Effect of ischemia and reoxygenation on glycolytic reactions and adenosine triphosphate in heart muscle. Circ Res 7: 965–971
DeBoer LMV, Ingwall JS, Kloner RA, Braunwald E (1980) Prolonged derangements of canine myocardial purine metabolism after a brief coronary artery occlusion not associated with anatomic evidence of necrosis. Proc Natl Acad Sci USA 77: 5471–5474
DeJong JW (1979) Biochemistry of acutely ischemic myocardium. In: Schaper W (ed) The pathophysiology of myocardial perfusion. Elsevier/North-Holland Biomedical, Amsterdam, pp 719–750
DePierre JW, Karnowski ML (1974) Ecto-enzymes of the guinea pig polymorphonuclear leucocyte. J Biol Chem 249: 7121–7129
Decker RS, Poole AR, Griffen EE, Dingle JT, Wildenthal K (1977) Altered distribution of lysosomal cathepsin D in ischemic myocardium. J Clin Invest 59: 911
Decker RS, Poole AR, Dingle JT, Wildenthal K (1979) Lysosomal alterations in autolyzing rabbit heart. J Mol Cell Cardiol 11: 189–196
Denton RM, McCormack JG, Edgell NJ (1980) Role of calcium ions in the regulations of intramitochondrial metabolism. Biochem J 190: 107–117
Dhalla NS, Ziegelhoffer A, Harrow J AC (1977) Regulatory role of membrane systems in heart function. Can J Physiol Pharmacol 55: 1211–1234
Dhalla NS, Das PK, Sharma GP (1978) Subcellular basis of cardiac contractile failure. J Mol Cell Cardiol 10: 363 - 385
Drury AN, Szent-Gyorgi A (1929) The physiological activity of adenine compounds with special reference to their action upon the mammalian heart. J Physiol (Lond) 28: 213–237
Edwards CHII, Rankin JS, McHale PA, Ling D, Anderson RW (1981) Effects of ischemia on left ventricular regional function in the conscious dog. Am J Physiol 240: H413 - H420
Feigl EO (1983) Coronary physiology. In: Feigl EO (ed) Physiological Reviews. American Physiological Society, Washington, pp 1–205
Fleckenstein A (1983) History of calcium antagonists. Circ Res 52 [Suppl I]: 3–16
Fleckenstein A (1983) Calcium antagonism in heart and smooth muscle. Wiley, New York
Franklin DL, Kemper WS, Patrick T, McKown D (1973) Technique for continuous measurement of regional myocardial segment dimensions in chronic animal preparations. Fed Proc 32: 343 (abstract)
Frick GP, Lowenstein JM (1978) Vectorial production of adenosine by 5-nucleotidase in the perfused rat heart. J Biol Chem 253: 1240–1244
Furchgott RJ, De Gubareff T (1958) High energy phosphate content of cardiac muscle under various experimental conditions which alter contractility. J Pharmacol Exp Ther 124: 203–218
Gallagher KP, Osakada G, Hess OM, Koziol JA, Kemper WS, Ross J Jr (1982) Subepicardial segmental function during coronary stenosis and the role of myocardial fiber orientation. Circ Res 50: 352–359
Ganote CE, Jennings RB, Hill ML, Grochonski EC (1976) Experimental myocardial injury. II. Effect of in vivo ischemia on dog heart slice function in vitro. J Mol Cell Cardiol 8: 189–204
Gensini GG (1978) Incidence of documented myocardial ischemia, angina and infarction in patients with normal coronary arteriograms. In: Maseri A, Klassen GA, Lesch M (eds) Primary and secondary angina pectoris. Grune and Stratton, New York
Gerlach E, Deuticke B, Dreisbach RH (1963) Der Nucleotid-Abbau im Herzmuskel bei Sauerstoffmangel und seine mogliche Bedeutung fur die Coronardurchblutung. Naturwissenschaften 50: 228–229
Gevers W (1977) Generation of protons by metabolic processes in heart cells. J Mol Cell Cardiol 9: 867–874
Glower DD, Hoffmeister M, Newton JR, Wolfe JA, Spratt JA, Tyson GS, Swain JL, Rankin JS (1983) Relationship between altered diastolic properties and systolic function after reversible ischemic injury. Circulation 68 [Suppl III]: III–253 (abstract)
Glower DD, Tyson GS, Spratt J A, Wolfe J A, Newton JR, Rankin JS (1983) Linearity of the Frank-Starling relationship in the intact heart. Circulation 68 [Suppl III]: III–371 (abstract)
Gollwitzer-Meier K, Kroetz C (1940) KranzgefaBdurchblutung und Gaswechsel des innervierten Herzens. Klin Wochenschr 19: 580–583
Gottwik MG (1982) Myokardprotektion durch KollateralgefaBe: Experimenteller Nachweis und klinische Befunde. Habilitationsschrift, Fachbereich Humanmedizin, Universitat GieBen
Gregg DE (1950) Coronary circulation in health and disease. Lea and Febiger, Philadelphia
Gregg DE, Fisher LC (1963) Blood supply to the heart. In: Hamilton WF (ed) Circulation. Am Physiol Soc, Washington, pp 1517–1584 (Handbook of physiology, vol 2 )
Grochowski E, Ganote CE, Hill ML, Jennings RB (1976) Experimental myocardial ischemic injury. I. A comparison of Stadie-Riggs and free-hand slicing techniques on tissue ultrastructure, water and electrolytes during in vitro incubation. J Mol Cell Cardiol 8: 173–187
Gudbjarnason S, Mathes P, Ravens KG (1970) Functional compartimentation of ATP and creatine phosphate in heart muscle. J Mol Cell Cardiol 1: 325–339
Hackenbrock CR (1968) Ultrastructural bases for metabolically linked mechanical activity in mitochondria. II. Electron transport linked ultrastructural transformations in mitochondria. J Cell Biol 37: 345–369
Hackenbrock CR (1981) Energy-linked condensed-orthodox ultrastructural transformations in mitochondria. Chemotherapy 27: 21–26
Hagl S, Heimisch W, Meisner H, Erben R, Baum M, Mendler N, Sebening F (1976) Direkte Messung der Funktion der Papillarmuskeln des linken Ventrikels wahrend acuter Koronarokklusion beim Hund. Thorac Cardiovasc Surg 24: 303–308
Hagl S, Meisner H, Heimisch W, Sebening F (1978) Acute effects of aortocoronary bypass surgery on left ventricular function and regional myocardial mechanics: a clinical study. Ann Thorac Surg 26: 548
Harris EJ (1977) The uptake and release of calcium by heart mitochondria. Biochem J 168: 447–456
Heimisch W, Hagl S, Janeczka I, Mendler N, Meisner H, Sebening F (1981) Regional differences in left ventricular wall motion. Eur Surg Res 13: 85 (abstract)
Henquell L, Honig CR (1976) Intercapillary distances and capillary reserve in right and left ventricles: significance for control of tissue p02. Microvasc Res 12: 35–41
Henrichs KJ, Matsuoka H, Schaper W (1982) Modulation of myocardial reactive hyperemia by homocysteine. Circulation 66 [Suppl II]: II–154
Henrichs KJ, Matsuoka H, Schaper W (1984 a) Extra- und intrazellulare Akkumulation von Adenosin wahrend myokardialer Ischamie-Wirkung von Dipyridamol. Z Kardiol 73:22 (abstr 59)
Henrichs KJ, Matsuoka H, Schaper W (1984 b) Dipyridamole and salvage of purine bodies (to be published)
Heyndrickx GR, Millard RW, McRitchie RJ, Maroko PR, Vatner SF (1975) Regional myocardial functional and electrophysiological alterations after brief coronary artery occlusion in conscious dogs. J Clin Invest 56: 978–983
Heyndrickx GR, Baig H, Nellens P, Leusen I, Fishbein MC, Vatner SF (1978) Depression of regional blood flow and wall thickening after brief coronary occlusions. Am J Physiol 234: H653–H659
Hill RC, Kleinman LH, Chitwood WR, Wechsler AS (1978) Segmental mid-wall myocardial dimensions in man recorded by sonomicrometry. J Thorac Cardiovasc Surg 76: 235–243
Hirche HJ, Franz Chr, Bos L, Bissig R, Lang R, Schramm M (1980) Myocardial extracellular K+ and H+ increase and noradrenaline release as possible cause of early arrhythmias following acute coronary artery occlusion in pigs. J Mol Cell Cardiol 12: 579–593
Hirzel HO, Sonnenblick EH, Kirk ES (1977) Absence of a lateral border zone of intermediate creatine phosphokinase depletion surrounding a central infarct 24 hours after acute coronary artery occlusion in the dog. Circ Res 41: 673 - 683
Hochachka PW, Dressendorfer RH (1976) Succinate accumulation in man during exercise. Eur J Applied Physiol 35: 235–242
Hochachka P, Owen TG, Allen JF, Whittow GC (1975) Multiple end products of anaerobiosis in diving vertebrates. Comp Biochem Physiol 508: 17–22
Hoffmeister HM, Mauser M, Schaper W (1983 a) Regional function during accelerated ATP repletion after myocardial ischemia. Circulation 68 [Suppl III]III–770 (abstract)
Hoffmeister HM, Mauser M, Schaper W (1983 b) Regionale systolische Myokardfunktion und ATP-Gehalt nach wiederholten Koronarokklusionen. Z Kardiol 72 [Suppl 2]:86 (abstract)
Hoffmeister HM, Mauser M, Schaper W (1984) Verzogerter Abfall im Myokard wahrend multipler Koronarokklusionen unter Adenosinakkumulation. Z Kardiol 73: 21 (abstract 56)
Holtz J, Bassenge E, Mayer E (1976) Regional sympathectomy of canine ventricle: effect on distribution of myocardial blood flow. Verh Dtsch Ges Kreislaufforsch 42: 297–301
Holtz J, Mayer E, Bassenge E (1977) Demonstration of alpha-adrenergic coronary control in different layers of canine myocardium by regional myocardial sympathectomy. Pfliigers Arch 372: 187–194
Honig CR, Bourdeau-Martini J (1973) Role of 02 in control of the coronary capillary reserve. Adv Exp Med Biol 39: 55–71
Honig CR, Bourdeau-Martini J (1973) Role of 02 in control of the coronary capillary reserve. Adv Exp Med Biol 39: 55–71
Honig CR, Odoroff CL, Frierson JL (1980) Capillary recruitment in exercise: rate, extent, uniformity, and relation to blood flow. Am J Physiol 238 (Heart Circ Physiol 7): H31–42
Hort W (1979) Anatomy and physiology of the human coronary circulation. In: Schaper W (ed) The pathophysiology of myocardial perfusion. Elsevier/North-Holland Biomedical, Amsterdam, pp 247–282
Hiilsman WC, Stam H (1979) Lipolysis in heart and adipose tissue; effects of inhibition of glycogenolysis and uncoupling of oxidative phosphorylation. Biochem Biophys Res Comm 88: 867–872
Jakobus WE, Ingwall JS (1981) General introduction. Myocardial energy transport: current concepts of the problem. In: heart creatine kinase. Williams and Wilkins, Baltimore
Jennings RB (1969) Early phase of myocardial ischemic injury and infarctions. Am J Cardiol 24: 753
Jennings RB (1976 a) Cell volume regulation in acute myocardial ischemic injury. Acta Med Scand 587:83
Jennings RB ( 1976 b) Relationship of acute ischemia to functional defects and irreversibility. In: Braunwald E (ed) Protection of the ischemic myocardium. Am Heart Assoc Inc, Dallas
Jennings RB (1979) Biology of experimental acute ischemia and infarction. In: Hearse DJ (ed) Enzymes in cardiology. Wiley, New York, pp 21–59
Jennings RB, Ganote CE (1972) Ultrastructural changes in acute myocardial ischemia. In: Oliver MF, Julian DG, Donals KW (eds) Effect of acute ischaemia on myocardial function. Churchill Livingstone, Edinburgh, pp 50–74
Jennings RB, Reimer KA (1981) Lethal myocardial ischemic injury. Am J Pathol 102: 241–255
Jennings RB, Sommer HM (1960) Myocardial necrosis induced by temporary occlusion of coronary artery in the dog. Arch Pathol 70: 68
Jennings RB, Sommers HM, Kaltenbach JP, West J J (1964) Elektrolyte alterations in acute myocardial ischemic injury. Circ Res 14: 260
Jennings RB, Baum JH, Herdson PB (1965) Fine structural changes in myocardial ischemic injury. Arch Pathol 79: 135
Jennings RB, Sommers HM, Herdson PB, Kaltenbach JP (1969) Ischemic injury of myocardium. Ann NY Acad Sci 156: 61
Kadatz R (1969) Sauerstoffdruck und Durchblutung im gesunden und koronarinsuffizienten
Myokard des Hundes und ihre Beeinflussung durch koronarerweiternde Pharmaka. Arch Kreislaufforsch 58:263–293
Kalbfleisch H (1975) Eine Methode zur post mortalen GroBenbestimmung der Versorgungsgebiete einzelner Koronararterien. Z Kardiol 64: 987
Katz AM (1977) Physiology of the heart. Raven, New York
Loss of canine myocardial nicotinamide adenine dinucleotides determines the transition from reversible to irreversible ischemic damage in myocardial cells. Basic Res Cardiol 76:612
Loss of canine myocardial nicotinamide adenine dinucleotides determines the transition from reversible to irreversible ischemic damage in myocardial cells. Basic Res Cardiol 76:612
Kloner RA, DeBoer LWY, Darsee JR, Ingwall JS, Hale S, Tumas J, Braunwald E (1981) Prolonged abnormalities of myocardium salvaged by reperfusion. Am J Physiol 241: H591–H599
Kiibler W, Spieckermann PG (1970) Regulation of glycolysis in the ischemic and the anoxic myocardium. J Mol Cell Cardiol 1: 351–377
Kiibler W, Spieckermann PG, Bretschneider HJ (1970) Influence of dipyridamole on myocardial adenosine metabolism. J Mol Cell Cardiol 1: 23–38
Kumada T, Karliner JS, Pouleur H, Gallagher KP, Shirato K, Ross J Jr (1979) Effects of coronary occlusion on early ventricular diastolic events in conscious dogs. Am J Physiol 237: H542–H549
Leaf A (1970) Regulation of intracellular fluid volume and disease. Am J Med 49: 291
Lehninger AL (1982) Principles of biochemistry. Worth, New York
Lew W, Chen Z, Le Winter M, Guth B, Co veil J (1983) Mechanism of augmented shortening in normal areas during acute ischemia in the canine left ventricle. Circulation 68 [Suppl III]: III–254 (abstract)
LeWinter MM, Kent RS, Kroener JM, Carew TE, Covell JW (1975) Regional differences
in myocardial performance in the left ventricle of the dog. Circ Res 37:191–199
Lima JA, Melin J, Becker LC, Kallman C, Weisfeldt ML, Weiss JL (1982) Impaired thickening of non-ischemic myocardium during acute regional transmural ischemia in the dog. Circulation 66 [Suppl II]: II–1
Lochner W, Nasserie M (1959) Uber den venosen Sauerstoffdruck, die Einstellung der Coronardurchblutung und den Kohlenhydratstoffwechsel des Herzens bei Muskelarbeit. Pfliigers Arch 269: 407–416
Lochner W, Mercker H, Schurmeyer E (1956) Die Wirkung vasoaktiver Pharmaka auf die Sauerstoffsattigung des Coronarsinusblutes. Arch Exp Pathol Pharmakol 227: 373–382
Logan SE (1975) On the fluid mechanics of human coronary artery stenoses. IEEE Trans Biomed Eng 22: 327–334
Matsuoka H, Schaper W (1984) Failure of dipyridamole in reducing myocardial infarct size using a double vessel model in anesthetized dogs. Basic Res Cardiol (to be published)
Mauser M, Hoffmeister HM, Schaper W (1984) Influence of ribose, adenosine and AICAR on the rate of myocardial tissue ATP synthesis during reperfusion after coronary artery occlusion in the dog. Circ Res (accepted for publication)
McCord JM (1983) The biochemistry and pathophysiology of superoxide. Physiologist 26: 156
Mudge GH Jr, Mills RM Jr, Taegtmeyer H, Gorlin R, Lesch M (1976) Alterations of myocardial amino-acid metabolism in chronic ischemic heart disease. J Clin Invest 58: 1185–1192
Neely JR, Rovetto MJ, Whithmer JT, Morgan HE (1973) Effect of ischemia on function and metabolism of the isolated working rat heart. Am J Physiol 225: 651–658
Neely JR, Jeffrey T, Whitmer JT, Rovetto MJ (1975) Effect of coronary blood flow on glycolytic flux and intracellular pH in isolated rat hearts. Circ Res 37: 733–741
Nees S, Gerbes AL, Willershausen-Zonnchen B, Gerlach E (1980) Purine metabolism in cultured coronary endothelial cells. Adv Exp Med Biol 122B: 125-130 NIH (1984) 4-centre contract study.
Nishioka K, Jarmakain JM (1982) Effect of ischemia on mechanical function and high-energy phosphates in rabbit myocardium. Am J Physiol 242: H1077–H1083
Nishioka K, Jarmakain JM (1982) Effect of ischemia on mechanical function and high-energy phosphates in rabbit myocardium. Am J Physiol 242: H1077–H108
Ohara H, Kanaide H, Yoshimura R, Okada M, Nakamura M (1981) A protective effect of coenzyme Q10 on ischemia and reperfusion on the isolated perfused rat heart. J Mol Cell Cardiol 13: 65–74
Oliver MF (1975) The vulnerable ischaemic myocardium and its metabolism. In: Oliver MF (ed) Trends in cardiology. Butterworths, London
Oliver MG (1976) Metabolic interventions in acute ischemia. Proc R Soc Med 69: 207–211
Olsson R, Gewirtz (1984). Am J Physiol (to be published)
Opie LH (1980) Myocardial infarct size. I. Basic considerations. Am Heart J 100: 355–372
Pandian NG, Kerber RE (1982) Two-dimensional echocardiography in experimental coronary stenosis. I. Sensitivity and specificity in detecting transient myocardial dyskinesis: comparison with sonomicrometers. Circulation 66: 59–602
Paterson ARP, Kolassa N, Cass CE (1981) Transport of nucleoside drugs in animal cells. Pharmacol Ther 12: 515 - 536
Paul RJ (1980) Chemical energetics of vascular smooth muscle. In: Bohr DF, Somlyo AP,
Sparks HV Jr (eds) The cardiovascular system II, American Physiological Society, Bethesda, pp 201–236
Peachey LD (1964) Electron microscopic observations on the accumulation of divalent cations in intramitochondrial granules. J Cell Biol 20: 95–109
Pine MP, Bing OHL, Weintraub R, Abelman WH (1979) Dissociation of cell volume regulation and sodium-potassium exchange pump activity in dog myocardium in vitro. J Mol Cell Cardiol 11: 585–590
Piper H (1980) Production of lactate acid in heavy exercise and as a balance. In: Moret PR, Weber J, Haissly J-Cl, Denolin H (eds) Lactate, physiologic and pathologic approach, Berlin, Springer
Podzuweit T, Dalby AJ, Cherry GW, Opie LH (1978) Cyclic AMP levels in ischaemic and non-ischaemic myocardium following coronary artery ligation: relation to ventricular fibrillation. J Mol Cell Cardiol 10: 81–94
Rahn KH (1981) Betarezeptorenblocker. In: Krayenbuhl HP, Kiibler W (eds) Kardiologie in Klinik und Praxis, vol II. Thieme, Stuttgart, pp 63.1–63. 11
Rankin JS, Arentzen CE, Ring WS, Edwards CH II, McHale PA, Anderson RW (1980) The diastolic mechanical properties of the intact left ventricle. Fed Proc 39: 141–147
Reibel DK, Rovetto MJ (1978) Myocardial ATP synthesis and mechanical function following oxygen deficiency. Am J Physiol 234: H620–H624
Reimer KA, Lowe JE, Rasmussen MM, Jennings RB (1977) The wavefront phenomenon of ischemic cell death. I. Myocardial infarct size vs duration of coronary occlusion in dogs. Circulation 56: 786
Reimer KA, Hill ML, Jennings RB (1981) Prolonged depletion of ATP and of the adenine nucleotide pool due to delayed resynthesis of adenine nucleotides following reversible myocardial ischemic injury in dogs. J Mol Cell Cardiol 13: 229–240
Rentrop P, Blanke H, Karsch KR, Kaiser H, Koestering H, Leitz K (1981) Selective intracoronary thrombolysis in acute myocardial infarction and unstable angina pectoris. Circulation 63: 307–317
Rona G, Boutet M, Hiittner I (1975) Membrane permeability alterations as manifestation of early cardiac muscle cell injury. In: Fleckenstein A, Rona G (eds) Recent adv studies cardiac structure and metabolism. Urban and Schwarzenberg, Munich
Rubio R, Berne RM (1980) Localization of purine and pyrimidine nucleoside phosphorylases in heart, kidney, and liver. Am J Physiol 239 (Heart Circ Physiol 8): H721–H730
Rushmer RF, Franklin DL, Ellis RM (1956) Left ventricular dimensions recorded by sonocardiometry. Circ Res 4: 684 - 688
Sabbah HN, Marzilli M, Stein PD (1981) The relative role of subendocardium and subepicardium in left ventricular mechanics. Am J Physiol 240: H920–H926
Sabina RL, Kernstine KH, Boyd RL, Holmes EW, Swain JL (1982) Metabolism of 5-amino-4-imidazole carboxamide riboside in cardiac and sceletal muscle. J Biol Chem 257: 10183–10187
Saetersdal T, Engedal H, Reli J, Myklebust R (1980) Calcium and magnesium levels in isolated mitochondria from human cardiac biopsies. Histochemistry 68: 1–8
Saetersdal T, Engedal H, Roli J, Jodalen H, Rotevatn S (1981) Calcium and magnesium levels in isolated cardiac mitochondria from mice injected with Isoproterenol. Cell Tissue Res 215: 13–19
Sasayama S, Osakada G, Takahashi M, Shimada T, Kawai C (1980) Modification of regional function of ischaemic myocardium by the alteration of arterial pressure in dogs. CardiovascRes 14: 93–102
Schaeffer HJ, Johnson RN, Schwartz MA, Schwender CF (1974) Enzyme inhibitors 26. Bridging hydrophobic and hydrophilic regions of adenosine deaminase with some 9-(2-Hydroxy-3-alkyl) adenines. J Med Chem 17: 6–8
Schaper W ( 1979 a) Residual perfusion of acutely ischemic heart muscle. In: Schaper W (ed) The pathophysiology of myocardial perfusion. Elsevier/North-Holland Biomedical, Amsterdam, pp 345 - 378
Schaper J ( 1979 b) Ultrastructure of the myocardium in acute ischemia. In: Schaper W (ed) Pathophysiology of myocardial perfusion. Elsevier/Nort-Holland Biomedical, Amsterdam, pp 581–673
Schaper J (1984) Ultrastructural characteristics of regional ischemia and infarction in the canine heart. Eur Heart J (in press)
Schaper J, Schaper W (1981) Wechselwirkungen zwischen GefaBwand und Blutzellen. Hamostaseologie 1: 3 - 26
Schaper J, Schaper W (1983) Reperfusion of ischemic myocardium: ultrastructural and histochemical aspects. J Am Coll Cardiol 1: 1037–1046
Schaper W, Xhonneux R, Jageneau A, Janssen A (1966) The cardiovascular pharmacology of lidoflazin a long-acting coronary vasodilator. J Pharmacol Exp Therap 152: 265
Schaper W, Remijsen P, Xhonneux R (1969) The size of myocardial infarction after experimental coronary artery ligation. Z Kreislaufforseh 58: 904
Schaper W, Flameng W, Winkler B, Wusten B, Tiirschmann W, Neugebauer G, Carl M (1976) Quantification of collateral resistance in acute and chronic experimental coronary occlusion in the dog. Circ Res 39: 371–377
Schaper W, Frenzel H, Hort W ( 1979 a) Experimental coronary artery occlusion. I. Measurement of infarct size. Basic Res Cardiol 74: 46–53
Schaper W, Frenzel H, Hort W, Winkler B ( 1979 b) Experimental coronary artery occlusion. II. Spatial and temporal evolution of infarcts in the dog heart. Basic Res Cardiol 74: 233–239
Schaper W, Frenzel H, Hort W, Winkler B ( 1979 b) Experimental coronary artery occlusion. II. Spatial and temporal evolution of infarcts in the dog heart. Basic Res Cardiol 74: 233–239
Schaper J, Pinkowski E, Froede R (1982) Ultrastructural changes of mitochondria in ischemic and reperfused canine myocardium. J Mol Cell Cardiol 14 [Suppl 1]: 59
Schelbert HR, Covell JW, Burns JW, Maroko PR, Ross J Jr (1971) Observations on factors affecting local forces in the left ventricular wall during acute myocardial ischemia. Circ Res 29: 306
Schlesinger MJ (1938) An injection plus dissection study of coronary artery occlusions and anastomoses. Am Heart J 15: 528
Schrader J, Nees S, Gerlach E (1977) Evidence for a cell surface adenosine receptor on coronary myocytes and atrial muscle cells. Studies with an adenosine derivative of high molecular weight. Pfliigers Arch 369: 251–257
Schrader J, Schiitz W, Bardenheuer H (1981) Role of S-adenosyl-homocysteine hydrolase in adenosine metabolism in mammalian heart. Biochem J 196: 65–70
Schiitz W, Schrader J, Gerlach E (1981) Different sites of adenosine formation in the heart. Am J Physiol 240 (Heart Circ Physiol 9): H963–H970
Shug AL, Shrago E, Bittar N, Folts JD, Kokes JR (1975) Long chain Co A inhibition of adenine nucleotide translocation in the ischemic myocardium. Am J Physiol 228: 689
Sjostrand FS (1979) The arrangement of mitochondrial membranes and a new structural feature of the inner mitochondrial membranes. J Ultrastruct Res 59: 292–319
Sordahl LA (1979) Role of mitochondria in heart cell function. Tex Rep Biol Med 39: 5–18
Steinhausen M, Tillmanns H, Thederan H (1978) Microcirculation of the epimyocardial layer of the heart. Pfliigers Arch 378: 9–14
Swain JL, Hines JJ, Sabina RL, Holmes EW (1982) Accelerated repletion of ATP and GTP pools in postischemic canine myocardium using a precursor of purine do novo synthesis. Circ Res 51: 102–105
Taegtmeyer H (1978) Metabolic response to cardiac hypoxia. Increased production of succinate by rabbit papillary muscle. Circ Res 43: 808–815
Tennant R, Wiggers CJ (1935) The effect of coronary occlusion on myocardial contraction. Am J Physiol 112: 351–361
Theroux P, Franklin D, Ross J Jr, Kemper WS (1974) Regional myocardial function during acute coronary artery occlusion and its modification by pharmacologic agents in the dog. Circ Res 35: 896–908
Theroux P, Ross J Jr, Franklin D, Kemper WS, Sasayama S (1976) Coronary arterial reperfusion. III. Early and late effects on regional myocardial function and dimensions in conscious dogs. Am J Cardiol 38: 599–606
Tillmanns H, Bing RJ, Steinhausen M (1976) Tierexperimentelle Untersuchungen iiber die Mikrozirkulation der Ventrikelmuskulatur. Verh Dtsch Ges Kreislaufforseh 42: 290–293
Tosteson DC, Hofmann JF (1960) Regulation of cell volume by active cation transport in high and low potassium sheep red cells. J Gen Physiol 44: 169–194
Trach V (1984) Untersuchungen zum Zusammenhang von Lipolyse und Glykolyse bei Ichaemie an isolierten Rattenherzen. Doctoral Thesis, Department of Medicine, University of Giessen
Trump BF, Berzesky JK, Collan J, Kahng MW, Mergner WJ (1976) Recent studies on the pathophysiology of ischemic cell injury. Beitr Pathol 158: 363–388
Trompler A, Zinser E, Schaper W (1983) Adenosin ist nicht der Mediator der hypoxischen Vasodilatation. Z Kardiol 72 [Suppl]: 17
Tyberg JV, Forrester JS, Wyatt HL, Goldner SJ, Parmley WW, Swan JHC (1974) An analysis of segmental ischemic dysfunction utilizing the pressure-length loop. Circulation 69: 748
Tyson GS, Olsen CO, Maier GW, Davis JW, Sethi GK, Scott SM, Sabiston DC, Rankin JS (1982) Dimensional characteristics of left ventricular function after coronary artery bypass grafting. Cardiovasc Surg 66: 112–118
Vary TC, Angelakos ET, Schaffer W (1979) Relationship between adenine nucleotide metabolism and irreversible ischemic tissue damage in isolated perfused rat heart. Circ Res 45: 218–225
Vater W, Kroneberg G, Hoffmeister F, Kaller H, Meng K, Oberdorf A, Puis W, SchloBmann K, Stoepel K (1972) Zur Pharmakologie von 4-(2-nitrophenyl)-2,6-dimethyl-l,4-dihydropyridin-3,5-dicarbonsauredimethylester (nifedipine, BAY a 1040). Arzneimittelforsch/Drug Res 22: 1
Vatner SF (1980) Correlation between acute reductions in myocardial blood flow and function in conscious dogs. Circ Res 47: 201 - 207
Vial C, Otokore A, Goldschmidt D, Gautheron DC (1978) Studies on the energy-linked Ca2+ accumulation in pig heart mitochondria. Role of Mg2+-ions. Biochemie [Suppl] 60: 159
Watts JA, Koch CD, La Noue KF (1980) Effects of Ca2+ antagonism on energy metabolism,
Ca2 + and heart function after ischemia. Am J Physiol 238:H909–H916
Weigelt H, Fuji T, Lubbers DW, Hauck G (1980) Specialized endothelial cells in the frog mesentery - attempt of an electrophysiological characterization. 11th Eur Conf Microcirculation. Bibl Anat 20: 89–93
Wenckebach KF (ed) (1924) Angina pectoris. Moritz Perles, Vienna
Wieland O, Syster M (1957) Glycerokinase: Isolierung und Eigenschaften des Enzyms. Biochem Z 329: 320-331
Wildenthal K (1978) Lysosomal alterations in ischemic myocardium: result or cause of myocellular damage? J Mol Cell Cardiol 10: 595–609
Wildenthal K, Decker RS, Poole AR, Dingle JT (1977) Age-related alterations in cardiac lysosomes. J Mol Cell Cardiol 9: 859–866
Willerson JT, Scales F, Mukberjee A, Piatt M, Templeton GH, Fink GS, Bujy LM (1977) Abnormal myocardial fluid retention as an early manifestation of ischemic injury. Am J Pathol 87: 159–188
Winkler B, Levin M, Stammler G, Schaper W (1981) Veranderungen der zellularen Ionenpermeabilitat von K +, Na+ und Tl+ nach totaler Blockierung der KNaATPase im isolierten Hundeherzen. Z Kardiol 70: 312
Wokowicz PE, McMillin-Wood J (1981) Glutamate-supported calcium movements in rat liver mitochondria: effects of anions and pH1. Arch Biochem Biophys 209: 408–422
Wollenberger A, Krause EG, Heier G (1969) Stimulation of 3’,5’-cyclic AMP formation in dog myocardium following arrest of blood flow. Biochem Biophys Res Commun 36: 664–670
Worku Y, Newby AC (1982) Nucleoside exchange catalysed by the cytoplasmic 5’-nucleotidase. Biochem J 205: 503
Xhonneux R, Schaper W (1969) The P02 in the coronary sinus. Correlation studies with other circulatory and respiratory parameters based on a population of 500 dogs. Prog Resp Res 3: 89
Zimmer HG (1980) Restitution of myocardial adenine nucleotides: acceleration by administration of ribose. J Physiol (Paris) 76: 769–775
Zimmer HG, Trendelenburg C, Kammermeier H, Gerlach E (1973) De novo synthesis of myocardial adenine nucleotides in the rat. Circ Res 32: 635–642
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1985 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Schaper, W., Schaper, J., Hoffmeister, H.M. (1985). Pathophysiology of Coronary Circulation and of Acute Coronary Insufficiency. In: Abshagen, U. (eds) Clinical Pharmacology of Antianginal Drugs. Handbook of Experimental Pharmacology, vol 76. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-69524-7_2
Download citation
DOI: https://doi.org/10.1007/978-3-642-69524-7_2
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-69526-1
Online ISBN: 978-3-642-69524-7
eBook Packages: Springer Book Archive