STRESS-TEST (10) Coronary Angiography (7) Thallium Radioisotopes (5) Thallium Radioisotopes/diagnostic use (5) Angiography (4) Heart/radionuclide imaging (4) Dipyridamole (4) DYPIRIDAMOLE (3) Myocardial Infarction/diagnosis (2) NEW-DIRECTION (2) MI (2) Heart Rate (2) Blood Pressure (2) SCINTIGRAPHY (2) Action Potentials (1) Heart Ventricles/physiopathology (1) Myocardial Contraction (1) Coronary Vessels/physiopathology (1) Heart Ventricles/physiopathology/radiography (1) Exertion (1) INVASIVE-CONTROL (1) Myocardial Contraction/physiology (1) DEPOLARIZATION-EFFECT (1) DEPARTURE-MAPS (1) Risk Factors (1) Technetium Tc 99m Sestamibi (1) Organotechnetium Compounds (1) Cardiac Pacing, Artificial (1) Organotechnetium Compounds/diagnostic use (1) Coronary Circulation/physiology (1) DEPARTURE-MAP (1) Body Surface Area (1) Angiocardiography (1) Diagnostic Errors (1) REPOLARIZATION (1) Electrocardiography/drug effects (1) Diagnosis, Differential (1) Algorithms (1) Discriminant Analysis (1) Cohort Studies (1)
J Electrocardiol 1986 Jul;19(3):213-23.
Non-invasive detection of coronary artery disease by body surface
electrocardiographic mapping after dipyridamole infusion.
Ikeda K, Kawashima S, Kubota I, Igarashi A, Yamaki M, Yasumura S, Tsuiki K, Yasui S,
NIL
Can J Cardiol 1986 Jul;Suppl A:99A-106A.
Can body surface mapping improve the diagnostic power of standard
electrocardiography in effort myocardial ischemia?
Tavazzi L, Guagliumi G, Galli M, Tosto A, Imparato A, Minuco G,
NIL
Am Heart J 1987 Nov;114(5):1120-8.
ST segment changes in exercise body surface mapping after myocardial
infarction in patients with isolated left anterior descending coronary
artery disease.
Yasumura S, Kubota I, Ikeda K, Yamaki M, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1987 Dec;76(6):1290-7.
Detection and localization of coronary artery disease with body surface
mapping in patients with normal electrocardiograms.
Green LS, Lux RL, Haws CW,
Nora Eccles Harrison Cardiovascular Research and Training Institute,
University of Utah School of Medicine, Salt Lake City 84112.
Am Heart J 1988 May;115(5):1013-21.
ST-T isointegral analysis of exercise stress body surface mapping for
identifying ischemic areas in patients with angina pectoris.
Nakajima T, Kawakubo K, Toda I, Mashima S, Ohtake T, Iio M, Sugimoto T,
Second Department of Internal Medicine, Faculty of Medicine, University of
Tokyo, Japan.
Jpn Circ J 1989 Jul;53(7):695-706.
Spatial distribution of exercise-induced ST-segment depression and U-wave
inversion in identifying the ischemic site in patients with coronary
artery disease.
Ikeda K, Yamaki M, Matsui M, Hanashima K, Nakamura K, Tonooka I, Meguro M, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1990 Feb;81(2):461-9.
Relation between localization of coronary artery disease and local
abnormalities in ventricular activation during exercise tests.
Igarashi H, Yamaki M, Kubota I, Ikeda K, Matsui M, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine Japan.
Chest 1990 Jun;97(6):1333-42.
Exercise body surface potential mapping in single and multiple coronary
artery disease.
Montague TJ, Witkowski FX, Miller RM, Johnstone DE, MacKenzie RB, Spencer CA, Horacek BM,
Heritage Cardiovascular Research Group, University of Alberta, Edmonton,
Canada.
Am Heart J 1990 Sep;120(3):554-61.
The clinical significance of exercise-induced ST segment changes in
patients with previous inferior myocardial infarction.
Hosoya Y, Ikeda K, Yamaki M, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Circulation 1991 Apr;83(4 Suppl):II115-27.
Electrocardiographic markers of ischemia during mental stress testing in
postinfarction patients. Role of body surface mapping.
Bosimini E, Galli M, Guagliumi G, Giubbini R, Tavazzi L,
Centro Medico di Riabilitazione, Veruno, Italy.
Orv Hetil 1991 May 12;132(19):1019-26.
[Clinical value of body surface mapping in the diagnosis of ischemic heart
disease]
Preda I, Antaloczy Z, Balogh I, Szilvasi I, Kozmann G, Rochlitz T, Pasztor F, Berentey E,
Orvostovabbkepzo Egyetem, Budapest, II. sz. Belgyogyaszati Klinika.
Intern Med 1992 Feb;31(2):147-53.
Dipyridamole electrocardiography test for the detection of severe coronary
artery stenoses.
Ikeda K, Kubota I, Yamaki M, Kato N, Honma K, Hosoya Y, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Jpn Circ J 1992 Mar;56(3):223-34.
Dipyridamole electrocardiography test for the assessment of the severity
of coronary artery disease.
Ikeda K, Kubota I, Yamaki M, Kato N, Hosoya Y, Tomoike H, Yasui S,
First Department of Internal Medicine, Yamagata University School of
Medicine, Japan.
Can J Cardiol 1994 Nov;10(9):913-9.
Enhanced glucose oxidation in exercise-induced myocardial ischemia.
Montague T, DeAlmeida J, Lopaschuk G, Witkowski F, Walker D, Ackman M, Humen D, Dzavik V, Teo K,
Department of Medicine, University of Alberta, Edmonton.
J Electrocardiol 2002 Jul;35(3):181-91.
Dipyridamole body surface potential mapping: noninvasive differentiation
of syndrome X from coronary artery disease.
Boudik F, Anger Z, Aschermann M, Vojacek J, Tomeckova M,
second Department of Internal Medicine, Charles University Hospital,
Prague, Czech Republic. fboud@lfl.cuni.cz
J Electrocardiol 2003 Apr;36(2):89-98.
ST-T integral and T-wave amplitude in detection of exercise-induced
myocardial ischemia evaluated with body surface potential mapping.
Hanninen H, Takala P, Rantonen J, Makijarvi M, Virtanen K, Nenonen J, Katila T, Toivonen L,
Division of Cardiology, Helsinki University Central Hospital, Helsinki,
Finland. hahannin@sci.fi