(Body surface, map or mapping) and (BSM-STUDY Retrospective Studies)

MI-DIAGNOSTIC (6) LVH (3) Reference Values (3) LEAD-SYSTEMS (3) Thallium (2) Radioisotopes (2) Heart/radionuclide imaging (2) Radioisotopes/diagnostic use (2) Thallium/diagnostic use (2) Discriminant Analysis (2) Prospective Studies (1) VCG (1) STD-ECG-LIMITATIONS (1) DESCRIPTIVE (1) Thorax (1) REVIEW (1) Action Potentials (1) Coronary Disease/complications (1) LV-MASS (1) Fibrinolytic Agents (1) ISCHEMIA-DIAGNOSTIC (1) Thallium Radioisotopes (1) Clinical Trials (1) Thallium Radioisotopes/diagnostic use (1) Angiocardiography (1) Models, Biological (1) Likelihood Functions (1) Anti-Arrhythmia Agents (1) Isoproterenol (1) Disopyramide (1) Adrenergic beta-Agonists (1) Diagnosis, Differential (1) Infusions, Intravenous (1) Action Potentials/drug effects (1) BRUGADA (1) Observer Variation (1) DISP-REPOL (1)

J Electrocardiol 1984 Jan;17(1):47-54.
Relation between the location of the infarcted area in body surface isopotential mapping and the location of myocardial infarction in vectorcardiography.
Suzuki K, Toyama S, Yoshino K, Fudemoto Y,
NIL

J Electrocardiol 1984 Jan;17(1):7-13.
A comparative study of body surface isopotential mapping and the electrocardiogram in diagnosing of myocardial infarction.
Toyama S, Suzuki K, Yoshino K, Fujimoto K,
NIL

Am J Cardiol 1987 Dec 1;60(16):1230-8.
Qualitative and quantitative analysis of characteristic body surface potential map features in anterior and inferior myocardial infarction.
Kornreich F, Montague TJ, Kavadias M, Segers J, Rautaharju PM, Horacek MB, Taccardi B,
Unit for Cardiovascular Research and Engineering, Free University of Brussels, Belgium.

Am J Cardiol 1988 Dec 1;62(17):1285-91.
Identification of best electrocardiographic leads for diagnosing left ventricular hypertrophy by statistical analysis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM, Kavadias M, Horacek MB,
Unit for Cardiovascular Research and Engineering, Free University of Brussels (VUB), Belgium.

J Electrocardiol 1989;22 Suppl:169-78.
Multigroup diagnosis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM, Kavadias M, Horacek MB, Taccardi B,
Unit for Cardiovascular Research and Engineering, Free University, Brussels, Belgium.

Am J Cardiol 1989 Mar 1;63(9):610-7.
Diagnostic body surface potential map patterns in left ventricular hypertrophy during PQRST.
Kornreich F, Montague TJ, Rautaharju PM, Kavadias M, Horacek MB, Taccardi B,
Unit for Cardiovascular Research and Engineering, Free University of Brussels, Belgium.

Am J Cardiol 1990 Aug 15;66(4):485-92.
Improved prediction of left ventricular mass by regression analysis of body surface potential maps.
Kornreich F, Montague TJ, van Herpen G, Rautaharju PM, Smets P, Dramaix M,
Unit for Cardiovascular Research and Engineering, Free University of Brussels (VUB), Belgium.

J Electrocardiol 1992;25 Suppl:15-9.
Location and magnitude of ST changes in acute myocardial infarction by analysis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM,
Unit for Cardiovascular Research and Engineering, Free University Brussels (VUB), Belgium.

Circulation 1993 Mar;87(3):773-82.
Body surface potential mapping of ST segment changes in acute myocardial infarction. Implications for ECG enrollment criteria for thrombolytic therapy.
Kornreich F, Montague TJ, Rautaharju PM,
Unit for Cardiovascular Research and Engineering, Free University Brussels, Belgium.

J Electrocardiol 1998;31 Suppl:157-63.
Identification of best electrocardiographic leads for diagnosing acute myocardial ischemia.
Kornreich F,
Unit for Cardiovascular Research, School of Medicine, Free University Brussels (VUB), Belgium.

J Electrocardiol 1999 Apr;32(2):123-36.
QRST integral analysis of body surface electrocardiographic mapping for assessing exercise-induced changes in the spatial distribution of local repolarization properties in patients with coronary artery disease and in patients with previous anterior infarction.
Miyakoda H, Kinugawa T, Ogino K, Mori M, Endo A, Kato M, Kato T, Osaki S, Hisatome I, Shigemasa C,
First Department of Internal Medicine, Faculty of Medicine, Tottori University, Yonago, Japan.

Methods Inf Med 1999 Jun;38(2):119-24.
The number of independent signals in body surface maps.
Hoekema R, Uijen G, van Oosterom A,
Cardiology Department, University of Nijmegen, The Netherlands. rhoekema@neuro.azu.nl

J Cardiovasc Electrophysiol 2000 Apr;11(4):396-404.
Body surface distribution and response to drugs of ST segment elevation in Brugada syndrome: clinical implication of eighty-seven-lead body surface potential mapping and its application to twelve-lead electrocardiograms.
Shimizu W, Matsuo K, Takagi M, Tanabe Y, Aiba T, Taguchi A, Suyama K, Kurita T, Aihara N, Kamakura S,
Department of Internal Medicine, National Cardiovascular Center, Suita, Osaka, Japan. wshimizu@hsp.ncvc.go.jp

Pacing Clin Electrophysiol 2002 Jan;25(1):20-31.
QT dispersion in 120 electrocardiographic leads in patients with structural heart disease.
Stovicek P, Gardner MJ, Mitchell LB, Burns MA, Sterns LD, Warren JW, Horacek BM,
Department of Physiology and Biophysics, Dalhousie University, Halifax, Nova Scotia.

[Body Surface Maps] [Digital ECG Literature] [Home]