THORAX-CONDUCTOR (4) ISCHEMIA-DIAGNOSTIC (4) ECGI (3) Exercise Test (3) ANIMALS (2) Heart Conduction System/physiology (2) Heart Ventricles/physiopathology (2) REVIEW (2) STRESS-TEST (2) EMPHYSEMA (2) INVASIVE-CONTROL (2) Myocardial Contraction (2) Angiography (2) Electric Stimulation (1) PACE-MAPPING (1) Heart Ventricles/physiology (1) Action Potentials (1) Models, Biological (1) LOCAL-WARMING (1) Bundle-Branch Block/physiopathology (1) Purkinje Fibers/physiology (1) Disease Models, Animal (1) Skin/physiopathology (1) DELAYED-VENTRICULAR-ACTIVATION (1) Fourier Analysis (1) NORM-ACT (1) Risk (1) Infant, Newborn (1) CHILDREN (1) ARRHYTHMIA-PREDICTION (1) Benzazepines (1) Diltiazem (1) Heart Rate/drug effects (1) Coronary Disease/diagnosis (1) Blood Pressure/drug effects (1) NORMAL (1) Vectorcardiography (1) Respiration (1) Reference Values (1) RESPIRATION (1) PTCA (1) Stroke Volume (1) Coronary Angiography (1) Myocardial Contraction/physiology (1) DEPOLARIZATION-EFFECT (1) DEPARTURE-MAPS (1) Myocardial Infarction/physiopathology (1) Heart Diseases/physiopathology (1) Veins (1) THE-VERTICAL-GRADIENT (1) MI-DIAGNOSTIC (1)
Circ Res 1976 May;38(5):386-91.
Experimental evidence for regional cardiac influence in body surface
isopotential maps of dogs.
Abildskov JA, Burgess MJ, Lux RL, Wyatt RF,
NIL
Circ Res 1978 Aug;43(2):301-15.
Simulation studies of the electrocardiogram. I. The normal heart.
Miller WT, Geselowitz DB,
NIL
Circ Res 1978 Dec;43(6):899-907.
The relation of localized myocardial warming to changes in cardiac surface
electrograms in dogs.
Burgess MJ, Lux RL, Wyatt RF, Abildskov JA,
NIL
Adv Cardiol 1981;28:9-12.
Problems concerning the orthotopy of ECCG 'body surface mapping'. The
temporospatial pattern of the mechanical contraction process, the
electrical epicardial points of reference and their distribution over the
chest surface.
Puff A,
NIL
Cardiology 1981;68 Suppl 2:133-40.
On-line computer-assisted exercise mapping.
Murray RG, Watts MP, MacFarlane D, Irving A, Beattie JM, Tweddel AC, Lawrie TD, MacFarlane PW,
NIL
Am J Physiol 1981 Sep;241(3):H363-9.
Detection of delayed ventricular activation on the body surface in dogs.
Simson MB, Euler D, Michelson EL, Falcone RA, Spear JF, Moore EN,
NIL
Jpn Circ J 1981 Nov;45(11):1325-30.
Estimation of inter-electrode distance for body surface mapping:
application of Fourier analysis to potential distribution due to the
epicardial breakthrough.
Yoyama J, Kobori H,
NIL
Am J Cardiol 1984 Aug 1;54(3):301-7.
Cardiac rhythm, rate and ventricular repolarization properties in infants
at risk for sudden infant death syndrome: comparison with age- and
sex-matched control infants.
Montague TJ, Finley JP, Mukelabai K, Black SA, Rigby SM, Spencer CA, Horacek BM,
NIL
Jpn Heart J 1984 Sep;25(5):689-700.
Electrocardiographic study of chronic pulmonary emphysema by means of body
surface mapping.
Ikeda K, Kubota I, Watanabe Y, Takahashi K, Yasui S,
NIL
Jpn Heart J 1984 Nov;25(6):937-45.
Attenuation of exercise-induced R wave increase after diltiazem in effort
angina pectoris.
Kubota I, Igarashi H, Ikeda K, Yamaki M, Tsuiki K, Yasui S, Watanabe Y,
NIL
Jpn Circ J 1985 Mar;49(3):284-91.
Effects of lung volume on body surface electrocardiogram. Isointegral
analysis of body surface maps in patients with chronic pulmonary
emphysema.
Ikeda K, Kubota I, Yasui S,
NIL
Cardiovasc Res 1986 Mar;20(3):201-7.
Comparison of epicardial and body surface ECG potentials in man.
Monro DM, Bones PJ, Stanbridge RD, Jones RW,
NIL
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.
J Electrocardiol 1988 Aug;21(3):263-71.
Respiration and the ECG: a study using body surface potential maps.
Amoore JN, Rudy Y, Liebman J,
Department of Biomedical Engineering, UCT Medical School, Observatory,
Cape, South Africa.
J Electrocardiol 1989;22 Suppl:91-8.
Persistent changes in the body surface electrocardiogram following
successful coronary angioplasty.
Montague TJ, Witkowski FX, Miller RM, Henderson MA, Macdonald RG, MacLeod RS, Gardner MJ, Horacek BM,
Department of Medicine, University of Alberta, Edmonton, Canada.
Am J Cardiol 1989 Aug 2;64(6):20C-28C.
Relation between the ventriculographic silhouette and topography of
thoracic potential in coronary artery disease.
Horan LG, Killam HA, Flowers NC, Sridharan MR, Harp R, Orander PC, Hand RC,
Cardiology Section, Veterans Administration Medical Center, Augusta,
Georgia 30910.
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.
Circ Res 1990 Apr;66(4):1081-7.
Importance of the great vessels in the genesis of the electrocardiogram.
Kilpatrick D, Walker SJ, Bell AJ,
Department of Medicine, University of Tasmania, Hobart, Australia.