Analytic Reviews : Detection of Viable Myocardium after Myocardial Infarction

Carmeliet E. Myocardial ischemia: reversible and irreversible changes. Circulation 1984;70:149-151

Khaw BA , Strauss HW , Phohost GM , et al. Relation of immediate and delayed thallium-201 distribution to localization of iodine-125 antimyosin antibody in acute experimental myocardial infarction. Am J Cardiol 1983;51:1428-1432

Liedtke AJ Alterations of carbohydrate and lipid metabolism in the acutely ischemic heart . Prog Cardiovasc Dis 1981;23:321-336

Corr PB , Gross RW , Sobel BE Amphipathic metabolites and membrane dysfunction in ischemic myocardium. Circ Res 1984;55:135-154

Kloner RA , Ellis SG , Carlson NV , Baunwald E. Coronary reperfusion for treatment of acute myocardial infarction: post-ischemic ventricular dysfunction. Cardiol 1983;70:233-246

Reimer KA , Lower JE , Rasmussen MN , Jennings RB The wavefront phenomenon of ischemic cell death. I. Myocardial infarct size vs. duration of coronary occlusion in dogs. Circulation 1977;56:786-794

Josephson MA , Brown G. , Hecht HS , et al. Noninvasive detection and localization of coronary stenoses in patients: comparison of resting dipyridamole and exercise thallium-201 myocardial perfusion imaging. Am Heart J 1982;103:1008-1018

Strauss HW , Harrison K. , Langan JK , et al. Thallium-201 for myocardial imaging. Relation of thallium-201 to regional myocardial perfusion. Circulation 1977:56:786-794

Maddahi J. , Ganz W. , Geft I. , et al. Intracoronary thrombolysis in acute myocardial infarction: assessment of efficacy by thallium-201 scintigraphy (abstract). Am J Cardiol 1982;49:973

Schofer J. , Mathey D. , Kuck KH , et al. Early assessment of salvaged myocardium after coronary artery recanalization by sequential intracoronary thallium-scintigraphy. Am J Cardiol 1982;49:962-972

Forman R. , Kirk ES Thallium-201 accumulation during reperfusion of ischemic myocardium: dependence on regional blood flow rather than viability. Am J Cardiol 1984;54:659-663

Okada Rd, Pohost GM. The use of preintervention and post-intervention thallium imaging for assessing the early and late effects of experimental coronary arterial reperfusion in dogs. Circulation 1984;69:1153-1160

Melin JA , Becker LC , Bulkley BH Differences in thallium-201 uptake in reperfused and nonreperfused myocardial infarction. Circ Res 1983;53:414-419

Schuler G. , Schwarz F. , Hofmann M. , et al. Thrombolysis in acute myocardial infarction using intracoronary streptokinase: assessment by thallium-201 scintigraphy. Circulation 1982;66:658-664

Granato JE , Flanagan TL , Watson DD , et al. Influence of timing of T1-201 administration in interpretation of changes in myocardial T1-201 activity after coronary reperfusion (abstract) . J Am Coll Cardiol 1985;5:452

Lew AS , Maddahi J. , Hod H. , et al. Utility of early post-reperfusion T1-201 scintigraphy to assess myocardial viability: implications for early coronary angioplasty (abstract) . Circulation 1986;74(suppl II):211

Liu P. , Mills L. , Houle S. , McLaughlin PR Could thallium kinetics be used to identify myocardial infarction during coronary reperfusion in the presence of a residual stenosis? (abstract) Circulation 1986;74(suppl II):511

Melin JA , Wigns W. , Keyeux A. , et al. Assessment of thallium-201 redistribution versus glucose utilization as predictors of viability after coronary occlusion and reperfusion (abstract) . Circulation 1986;74(suppl II):61

Schofer J. , Mathey DG , Montz R. , et al. Use of dual intracoronary scintigraphy with thallium-201 and technetium-99m pyrophosphate to predict improvement in left ventricular wall motion immediately after intracoronary thrombolysis in acute myocardial infarction . J Am Coll Cardiol 1983;2:737-744

Schofer J. , Sheehan FH , Spillmann R. , et al. Early intracoronary thallium/technetium-pyrophosphate scintigraphy is a reliable method to predict myocardial salvage. Circulation 1986;74(suppl II):273

Canby RC , Pohost GM Dependence of the distribution of a technetium isonitrile on myocardial viability after an ischemic insult (abstract). Circulation 1986;74(suppl II):296

Rocco TP , Dilsizian V. , Strauss HW , Boucher CA Technetium isonitrile in Q versus Non-Q wave infarction: relation to global and regional LV function. Circulation 1988 ;78(suppl II):192

Freeman I. , Grunwald A. , Moskowitz G. , et al. Effect of coronary occlusion and myocardial viability on uptake of TC-RP30. Circulation 1988;78(suppl II):386

Soufer R. , Zohgbi S. , Vaivoda D. , et al. Isonitrile myocardial uptake following prolonged occlusion and reperfusion. Overestimates flow in the infarct zone. Circulation 1988;78(suppl II):386

Gutman J. , Berman DS , Freeman M. , et al. Time to completed redistribution of thallium-201 in exercise myocardial scintigraphy: relation to the degree of coronary artery stenosis . Am Heart J 1983;106:989-995

Nesto RW , Cohn LH , Collins JJ , et al. Inotropic contractile reserve: a useful predictor of increased 5-year survival and improved postoperative left ventricular function in patients with coronary artery disease and reduced ejection fraction. Am J Cardiol 1982;50:39-44

Gibson RS , Watson DD , Taylor GJ , et al. Prospective assessment of surgery by quantitative thallium-201 scintigraphy. J Am Coll Cardiol 1983;1:804-815

Braunwald E. , Rutherford JD Reversible ischemic left ventricular dysfunction: evidence for the "hibernating" myocardium. J Am Coll Cardiol 1985;8:1467-1470

Rozanski A. , Berman DS , Gray R. , et al. Use of thallium-201 redistribution scintigraphy in the preoperative differentiation of reversible and nonreversible myocardial asynergy. Circulation 1981;64:936-940

Breisblatt WM , Brown DL , Weiland FL Reversibility of longstanding left ventricular aneurysm predicted by thallium-201 imaging. J Am Coll Cardiol 1986;7:1162-166

Liu P. , Keiss MC , Okada RD , et al. The persistent defect on exercise thallium imaging and its face after myocardial revascularization: does it represent scar or ischemia? Am Heart J 1985;110:996-1001

Kaul S. , Pohost GM , Chesler DA , Boucher CA What does visually assessed redistribution really mean? (abstract) Circulation 1985;72(suppl III):467

Pohost GM , Zir LM , Moore RH , et al. Differentiation of transiently ischemic from infarcted myocardium by serial imaging after a single dose of thallium-201. Circulation 1977;55:294-302

Manyari DE , Knudtson M. , Kloiber R. , Roth D. Sequential thallium-201 myocardial perfusion studies after successful percutaneous transluminal coronary angioplasty: delayed resolution of exercise-induced scintigraphic abnormalities. Circulation 1988 ;77:86-95

Sheehan FH , Mathey DG , Schofer J. , et al. Effect of interventions in salvaging left ventricular function in acute myocardial infarction: a study of intracoronary streptokinase. Am J Cardiol 1983;52:431-438

Sheehan FH , Doerr R. , Schmidt W. , et al. Early recovery of left ventricular function after thrombolytic therapy for acute MI: an important determinant of survival. J Am Coll Cardiol 1988;12:289-300

Cribier AS , Berland J. , Champoud O. , et al. Intracoronary thrombolysis in evolving myocardial infarction. Sequential angiographic analysis of left ventricular performance. Br Heart J 1983;50:401-410

Rentrop KP , Blande H. , Karsch KR , Kreuzer H. Initial experience with transluminal recanalization of the recently occluded infarct-related coronary artery in acute myocardial infarction: comparison with conventionally treated patients. Clin Cardiol 1979;2:92-105

Azancot I. , Beaufils P. , Masquet C. , et al. Detection of residual myocardial function in acute transmural infarction using post-extrasystolic potentiation. A computerized angiography study. Circulation 1981;64:46-53

O'Neill WW , Laufer N. , Bourdillon Pdv , et al. Prediction of reversible asynergy prior to coronary thrombolysis in man (abstract). J Am Coll Cardiol 1986;3:601

Popio KA , Gorlin R. , Bechtel D. , Levine JA Postextrasystolic potentiation as a predictor of potential myocardial viability: preoperative analyses compared with studies after coronary bypass surgery . Am J Cardiol 1977;39:944-953

Buda AJ , Dubbin JD , Meindok H. Radionuclide assessment of regional left ventricular function in acute myocardial infarction. Am Heart J 1986;111:36-41

Reduto LA , Freund GC , Gaeta JM , et al. Coronary artery reperfusion in acute myocardial infarction: beneficial effects of intracoronary streptokinase on left ventricular salvage and performance. Am Heart J 1981;102:1168-1177

Helfant RH Natural history of contractile abnormalities after acute myocardial infarction in man: severity and response to nitroglycerin as a function of time. Circulation 1981;63:731-738

Kayden DS , Chesebro JH , Verani MS , et al. After thrombolysis, is residual stunned myocardium still present by hospital discharge? A serial radionuclide study (abstract). Circulation 1986;74(suppl II):212

Wackers FJ , Berger HJ , Weinberg MA , Zaret BL Spontaneous changes in left ventricular function over the first 24 hours of acute myocardial infarction: implications for evaluating early therapeutic interventions. Circulation 1982;66:748-754

Charuzi Y. , Beeder C. , Marshall LA , et al. Improvement in regional and global left ventricular function after intracoronary thrombolysis: assessment with two-dimensional echocardiography . Am J Cardiol 1984;53:662-665

Topel EJ , Weiss JL , Brinker JA , et al. Regional wall motion improvement after coronary thrombolysis with recombinant tissue plasminogen activator: importance of coronary angioplasty . J Am Coll Cardiol 1985;6:426-433

Haendchen RV , Lang DT , Noordsij J. , et al. The earliest appropriate time to assess myocardial salvage following reperfusion by measurements of regional contraction abnormalities (abstract). J Am Coll Cardiol 1984;3:522

Haendchen, RV , Ong K. , Wood F. , et al. Increased regional end-diastolic wall thickness and subendocardial echo intensities early after reperfusion: relationship to ultimate myocardial necrosis (abstract). J Am Coll Cardiol 1984;3:514

Lieberman AN , Weiss JL , Jugdutt BI , et al. Two-dimensional echocardiography and infarct size: relationship of regional wall motion and thickening to the extent of myocardial infarction in the dog. Circulation 1981;63:739-746

Chandrasekaran K. , Chu A. , Greenleaf JF , et al. 2D echo quantitative texture analysis of acutely ischemic myocardium (abstract). Circulation 1986;74(suppl II):271

Kaul S. , Pandian NE , Gillam LD , et al. Contrast echocardiography in acute myocardial ischemia. III. An in vivo comparison of the extent of abnormal wall motion with the area at risk for necrosis. J Am Coll Cardiol 1986 ;7:382-392

Brunken RC , Schwaiger M. , Schelbert HR PET detection of residual, viable tissue in acute MI. Appl Radiol 1985;14:82-86

Marshall RC , Tillisch JH , Phelps ME , et al. Identification and differentiation of resting myocardial ischemia and infarction in man with positron tomography. F-labeled fluorodeoxyglucose and N-13 ammonia. Circulation 1983;67:766-778

deLandsheere CM , Raets D. , Peirard LA , et al. Fibrinolysis and viable myocardium after an acute infarction: a study of regional perfusion and glucose utilization with positron emission tomography. Circulation 1985;72(suppl III):393

Schwaiger M. , Schelbert HR , Ellison D. , et al. Sustained regional abnormalities in cardiac metabolism after transient ischemia in the chronic dog model. J Am Coll Cardiol 1985;6:336-347

Rellas JS , Corbett JR , Kulkarni PV , et al. Iodine-123 phenylpentadecanoic acid: detection of acute myocardial infarction and injury in dogs using an iodinated fatty acid and single-photon emission tomography. Am J Cardiol 1983;52:1326-1332

Visser FC , Westera G. , van Eenige MJ , et al. Free fatty acid scintigraphy in patients with successful thrombolysis after acute myocardial infarction. Clin Nucl Med 1985;10:35-39

Miller DD , Gill JB , Livni E. , et al. Fatty acid analog accumulation: a marker of myocyte viability in ischemic-reperfused myocardium. Cir Res 1988;63:681-692

Dilzizian V. , Rocco TP , Fischman AJ , et al. Modified fatty acid uptake and exercise: relation to perfusion assessed by thallium-201. Circulation 1988;78(suppl II):323

Johnston DL , Liu P. , Rose BR , et al. In vivo detection of reperfused myocardium by nuclear magnetic resonance imaging. J Am Coll Cardiol 1987;9:127-135

Askenase AD , Thickman DI , Brown T. , et al. Time sequence for reversal by reperfusion of ischemic changes seen with MRI in excised canine hearts. Circulation 1986;74(suppl II):318

Peshock RM , Malloy CR , Buja LM , et al. Magnetic resonance imaging of acute myocardial infarction: gadolinium-DTPA as a marker of reperfusion. Circulation 1986 ;74:1434-1440

Miller DD , Rosen, BR, Dragotakes D. , et al. NMR detection of increased lipid in the ischemic border of reperfused myocardial infarction by 3-D chemical shift imaging (abstract). Clin Res 1987;35:306A

Bottomley PA Noninvasive study of high-energy phosphate metabolism in human heart by depth-resolved 31P NMR spectroscopy. Science 1985;229:769-772

Kantor HL , Briggs RW , Balaban RS In vivo 31P nuclear magnetic resonance measurements in canine heart using a catheter-coil. Circ Res 1984;55:261-266

Cannon PJ , Maudsley AA , Hilal SK , et al. Sodium nuclear magnetic resonance imaging of myocardial time of dogs after coronary artery occlusion and reperfusion. J Am Coll Cardiol 1986;7:573-579