Affiliations: Nuclear Medicine Center of the National Council of Research (CNR), Dept. of Biomorphological Funct. Sci., Univ. Federico II, Naples, Italy
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Veerkamp, J.H., van Moerkerk, H.T., Fatty acid-binding protein and its relation to fatty acid oxidation (1993) Mol Cell Biochem, 123, pp. 101-106
Schelbert, H.R., Henze, E., Schon, H., Carbon-11 palmitate for the noninvasive evaluation of regional myocardial fatty acid metabolism with positron computed tomography. III. In vivo demonstration of the effects of substrate availability on myocardial metabolism (1983) Am Heart J, 105, pp. 492-504
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Zaret, B.L., Wackers, F.J.T., Soufer, R., Nuclear cardiology (1992), 1, pp. 276-311. , Braunwald E, editor. Heart disease: A textbook of cardiovascular medicine. 4th ed. Philadelphia: W.B. SaundersKahn, J.K., McGhie, I., Akers, M.S., Quantitative rotational tomography with Tl-201 and Tc-99m 2-methoxy-isobutyl-isonitrile. A direct comparison in normal individuals and patients with coronary artery disease (1989) Circulation, 79, pp. 1282-1293
Sridhara, B.S., Braat, S., Rigo, P., Itti, R., Cload, P., Lahiri, A., Comparison of myocardial perfusion imaging with technetium-99m tetrofosmin versus thallium-201 in coronary artery disease (1993) Am J Cardiol, 72, pp. 1015-1019
Dilsizian, V., Rocco, T.P., Strauss, H.W., Boucher, C.A., Technetium-99m isonitrile myocardial uptake at rest. I. Relation to severity of coronary artery stenosis (1989) J Am Coll Cardiol, 14, pp. 1673-1677
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Holman, M.L., Moore, S.C., Shulkin, P.M., Kirsch, C.M., English, R.J., Hill, T.C., Quantification of perfused myocardial mass through thallium-201 and emission computed tomography (1983) Invest Radiol, 4, pp. 322-326
Udelson, E.J., Coleman, P.S., Metheral, J., Predicting recovery of severe regional ventricular dysfunction. Comparison of resting scintigraphy with 201Tl and 99mTc-sestamibi (1994) Circulation, 89, pp. 2552-2561
Sciagrà, R., Santoro, G.M., Bisi, B., Pedenovi, P., Fazzini, P.F., Pupi, A., Restredistribution thallium-201 SPECT to detect myocardial viability (1998) J Nucl Med, 39, pp. 385-390
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Kayden, D.S., Mattera, J.A., Zaret, B.L., Wackers, F.J.Th., Demonstration of reperfusion after thrombolysis with technetium-99m isonitrile myocardial imaging (1988) J Nucl Med, 29, pp. 1865-1867
Brown, K.A., Boucher, C.A., Okada, R.G., Prognostic value of exercise thallium-201 imaging in patients presenting for evaluation of chest pain (1983) J Am Coll Cardiol, 1, pp. 994-1001
Ladenhein, M.L., Pollock, B.H., Rozanski, A., Extent and severity of myocardial hypoperfusion as predictors of prognosis in patients with suspected coronary artery disease (1986) J Am Coll Cardiol, 7, pp. 464-471
Iskandrian, A.S., Chae, S.C., Heo, J., Stanberry, C.D., Wasserlzeben, V., Cave, V., Independent and incremental prognostic value of exercise single-photon emission computed tomography (SPECT) thallium imaging in coronary artery disease (1993) J Am Coll Cardiol, 22, pp. 665-670
Petretta, M., Cuocolo, A., Capinelli, A., Prognostic value of myocardial hypoperfusion indexes in patients with suspected or known coronary artery disease (1994) J Nucl Cardiol, 1, pp. 325-337
Fagan, L.F., Shaw, L., Kong, B.A., Caralis, D.G., Wiens, R.D., Chaitman, B.R., Prognostic value of exercise thallium scintigraphy in patients with good exercise tolerance and a normal or abnormal exercise electrocardiogram and suspected or confirmed coronary artery disease (1992) Am J Cardiol, 69, pp. 607-611
Berman, D.S., Hachamovitch, R., Kiat, H., Incremental value of prognostic testing in patients with known or suspected ischemic heart disease: A basis for optimal utilization of exercise technetium-99m sestamibi myocardial perfusion single-photon emission computed tomography (1995) J Am Coll Cardiol, 26, pp. 639-647
Pohost, G. M., Zir, L. M., Moore, L. M., Differentiation of transiently ischemic from infarcted myocardium by serial imaging after a single dose of thallium-201 (1979) Circulation, 55, pp. 294-302
Zaret, B. L., Rigo, P., Wackers, F. J. T., Myocardial perfusion imaging with Tc-99m tetrofosmin. Comparison to TI-201 imaging and coronary angiography in a phase III multicenter trial (1995) Circulation, 91, pp. 313-319
Nichols, A. B., Weiss, W. B., Sciacca, R. R., Cannon, P. J., Blood, D. K., Relationship between segmental thallium-201 uptake and regional myocardial blood flow in patients with coronary artery disease (1983) Circulation, 68, pp. 310-320
DePuey, E. G., Berman, D. S., Garcia, E. V., (1996), p. 159. , Cardiac SPECT imaging. Philadelphia: Lippincott-RavenOkada, R. D., Glover, D., Gaffney, T., Williams, S., Myocardial kinetics of technetium-99m hexakis-2methoxy-2-methylpropyl-isonitril (1988) Circulation, 77, pp. 491-498
Sinusas, A. J., Shi, Q. X., Saltzberg, M. T., Technetium-99m-tetrofosmin to assess myocardial blood flow: Experimental validation in an intact canine model of ischemia (1994) J Nucl Med, 35, pp. 664-671
Selwyn, A. P., Allan, R. M., L'Abbate, A., Relation between regional myocardial uptake of rubidium-82 and perfusion: Absolute reduction of cation uptake in ischemia (1982) Am J Cardiol, 50, pp. 112-121
Schelbert, H. R., Phelps, M. E., Huang, S. C., N-13 ammonia as an indicator of myocardial blood flow (1981) Circulation, 63, pp. 1259-1272
Bergmann, S. R., Fox, K. A. A., Rand, A. L., Quantification of regional myocardial blood flow in vivo with 0-15 water (1984) Circulation, 70, pp. 724-733
Veerkamp, J. H., van Moerkerk, H. T., Fatty acid-binding protein and its relation to fatty acid oxidation (1993) Mol Cell Biochem, 123, pp. 101-106
Schelbert, H. R., Henze, E., Schon, H., Carbon-11 palmitate for the noninvasive evaluation of regional myocardial fatty acid metabolism with positron computed tomography. III. In vivo demonstration of the effects of substrate availability on myocardial metabolism (1983) Am Heart J, 105, pp. 492-504
Christian, T. F., Miller, T. D., Bailey, K. R., Gibbons, R. J., Noninvasive identification of severe coronary artery disease using exercise tomographic thallium-201 imaging (1992) Am J Cardiol, 70, pp. 14-20
Zaret, B. L., Wackers, F. J. T., Soufer, R., Nuclear cardiology (1992), 1, pp. 276-311. , Braunwald E, editor. Heart disease: A textbook of cardiovascular medicine. 4th ed. Philadelphia: W. B. SaundersKahn, J. K., McGhie, I., Akers, M. S., Quantitative rotational tomography with Tl-201 and Tc-99m 2-methoxy-isobutyl-isonitrile. A direct comparison in normal individuals and patients with coronary artery disease (1989) Circulation, 79, pp. 1282-1293
Sridhara, B. S., Braat, S., Rigo, P., Itti, R., Cload, P., Lahiri, A., Comparison of myocardial perfusion imaging with technetium-99m tetrofosmin versus thallium-201 in coronary artery disease (1993) Am J Cardiol, 72, pp. 1015-1019
Bonow, R. O., Dilsizian, V., Thallium-201 for assessing myocardial viability (1991) Semin Nucl Med, 21, pp. 230-241
Holman, M. L., Moore, S. C., Shulkin, P. M., Kirsch, C. M., English, R. J., Hill, T. C., Quantification of perfused myocardial mass through thallium-201 and emission computed tomography (1983) Invest Radiol, 4, pp. 322-326
Udelson, E. J., Coleman, P. S., Metheral, J., Predicting recovery of severe regional ventricular dysfunction. Comparison of resting scintigraphy with 201Tl and 99mTc-sestamibi (1994) Circulation, 89, pp. 2552-2561
Sciagr, R., Santoro, G. M., Bisi, B., Pedenovi, P., Fazzini, P. F., Pupi, A., Restredistribution thallium-201 SPECT to detect myocardial viability (1998) J Nucl Med, 39, pp. 385-390
Kayden, D. S., Mattera, J. A., Zaret, B. L., Wackers, F. J. Th., Demonstration of reperfusion after thrombolysis with technetium-99m isonitrile myocardial imaging (1988) J Nucl Med, 29, pp. 1865-1867
Brown, K. A., Boucher, C. A., Okada, R. G., Prognostic value of exercise thallium-201 imaging in patients presenting for evaluation of chest pain (1983) J Am Coll Cardiol, 1, pp. 994-1001
Ladenhein, M. L., Pollock, B. H., Rozanski, A., Extent and severity of myocardial hypoperfusion as predictors of prognosis in patients with suspected coronary artery disease (1986) J Am Coll Cardiol, 7, pp. 464-471
Iskandrian, A. S., Chae, S. C., Heo, J., Stanberry, C. D., Wasserlzeben, V., Cave, V., Independent and incremental prognostic value of exercise single-photon emission computed tomography (SPECT) thallium imaging in coronary artery disease (1993) J Am Coll Cardiol, 22, pp. 665-670
Fagan, L. F., Shaw, L., Kong, B. A., Caralis, D. G., Wiens, R. D., Chaitman, B. R., Prognostic value of exercise thallium scintigraphy in patients with good exercise tolerance and a normal or abnormal exercise electrocardiogram and suspected or confirmed coronary artery disease (1992) Am J Cardiol, 69, pp. 607-611
Berman, D. S., Hachamovitch, R., Kiat, H., Incremental value of prognostic testing in patients with known or suspected ischemic heart disease: A basis for optimal utilization of exercise technetium-99m sestamibi myocardial perfusion single-photon emission computed tomography (1995) J Am Coll Cardiol, 26, pp. 639-647
Hesse B, Tagil K, Cuocolo A, Anagnostopoulos C, Bardies M, Bax J, Bengel F, Busemann Sokole E, Davies G, Dondi M, Edenbrandt L, Franken P, Kjaer A, Knuuti J, Lassmann M, Ljungberg M, Marcassa C, Marie PY, Mckiddie F, O'connor M, Prvuolovich E, Underwood R * 3. 0 T perfusion MR imaging(694 views) Rivista Di Neuroradiologia (ISSN: 1120-9976), 2004; 17(6): 807-812. Impact Factor:0.023 ViewExport to BibTeXExport to EndNote