(Body surface, map or mapping) and (BSM-STUDY Cardiac Pacing, Artificial)

INVASIVE-CONTROL (6) ARRHYTHMIA-MAPPING (5) WPW (4) Heart Conduction System/physiopathology (4) Heart Ventricles/physiopathology (4) ANIMALS (3) QRSTI (3) BBB (3) Heart Ventricles (3) ECGI (3) Heart Rate (2) Myocardium/pathology (2) Exercise Test (2) ISCHEMIA-DIAGNOSTIC (2) Body Surface Area (2) MI-DIAGNOSTIC (2) Ventricular Function, Right (2) ARRHYTHMIA-PREDICTION (2) VT (2) Myocardial Infarction/physiopathology (2) Computer Simulation (2) Atrioventricular Node/physiopathology (1) REPOLARIZATION (1) NORMAL (1) TACHYCARDIA-EFFECT-ON-ST (1) Electrodes, Implanted (1) Necrosis (1) Exertion (1) Ligation (1) Coronary Vessels/surgery (1) TACHYCARDIA (1) Myocardial Infarction/diagnosis/physiopathology (1) Electrocardiography, Ambulatory (1) Wolff-Parkinson-White Syndrome/diagnosis (1) ENDOCARDIAL-PACING (1) Thallium Radioisotopes (1) Technetium Tc 99m Sestamibi (1) Organotechnetium Compounds (1) Heart/radionuclide imaging (1) Thallium Radioisotopes/diagnostic use (1) Organotechnetium Compounds/diagnostic use (1) Coronary Circulation/physiology (1) DEPARTURE-MAP (1) MI (1) STRESS-TEST (1) Bundle-Branch Block/physiopathology (1) Anti-Arrhythmia Agents (1) DRUG-EFFECT (1) Ventricular Fibrillation/physiopathology (1) VEB (1) Computer Systems (1) IMPLANTABLE-DEFIBRILLATOR (1) Catheter Ablation (1) Heart Conduction System/physiopathology/surgery (1) Action Potentials (1) Prospective Studies (1) Ventricular Function, Left (1) Endocardium (1) Gated Blood-Pool Imaging (1) Anisotropy (1) Image Processing, Computer-Assisted (1) Prognosis (1) Myocardial Contraction (1) Ventricular Function, Left/physiology (1) NORM-ACT (1) Algorithms (1) Logistic Models (1) Models, Anatomic (1) Reference Values (1) Coronary Disease/physiopathology (1) NEUROVEGETATIVE (1) Feasibility Studies (1) Myocardial Contraction/physiology (1) Models, Biological (1) Thorax/physiology (1)

Circulation 1982 Jun;65(6):1259-68.
Localization of the site of ventricular preexcitation with body surface maps in patients with Wolff-Parkinson-White syndrome.
Benson DW Jr, Sterba R, Gallagher JJ, Walston A 2nd, Spach MS,
NIL

Nippon Kyobu Geka Gakkai Zasshi 1985 Apr;33(4):461-6.
[Clinical study of diagnosis of the site of the origin of ventricular tachycardia by body surface maps]
Ushijima S, Magara T, Kamata E, Aoyama T, Iida S, Oohira M, Iwa T,
NIL

J Electrocardiol 1985 Jul;18(3):223-31.
Effects of tachycardia with normal and ectopic ventricular activation on S-T segment potential and patterns in the dog.
Mirvis DM, Marin-Garcia J,
NIL

J Am Coll Cardiol 1985 Sep;6(3):665-73.
Effects of experimental myocardial infarction on the ST segment response to tachycardia.
Mirvis DM, Wilson JL, Ramanathan KB,
NIL

Circulation 1988 Jun;77(6):1414-23.
Effects of coronary occlusion on cardiac and body surface PQRST isoarea maps of dogs with abnormal activation simulating left bundle branch block.
Hirai M, Burgess MJ, Haws CW,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, Salt Lake 84112.

Cardiol Clin 1990 Aug;8(3):443-64.
Noninvasive evaluation of supraventricular tachycardias.
Shenasa M, Nadeau R, Savard P, Lemieux R, Curtiss EI, Follansbee WP,
Division of Cardiology, University of Pittsburgh School of Medicine, Pennsylvania.

Circulation 1990 Sep;82(3):879-96.
Body surface mapping of ectopic left and right ventricular activation. QRS spectrum in patients without structural heart disease.
SippensGroenewegen A, Spekhorst H, van Hemel NM, Kingma JH, Hauer RN, Janse MJ, Dunning AJ,
Department of Clinical and Experimental Cardiology, University of Amsterdam, The Netherlands.

Circulation 1991 Mar;83(3):886-901.
Electrocardiographic body surface potential mapping in the Wolff-Parkinson-White syndrome. Noninvasive determination of the ventricular insertion sites of accessory atrioventricular connections.
Liebman J, Zeno JA, Olshansky B, Geha AS, Thomas CW, Rudy Y, Henthorn RW, Cohen M, Waldo AL,
Department of Pediatrics, Case Western Reserve University, Cleveland, Ohio.

Am Heart J 1991 Mar;121(3 Pt 1):763-9.
Detection of myocardial infarction in the presence of Wolff-Parkinson-White syndrome by QRST isoarea map in dogs.
Nagasaka M, Hayashi H, Hirai M, Ichihara Y, Takahama S, Kondo K, Saito H,
First Department of Internal Medicine, Nagoya 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.

Am Heart J 1991 May;121(5):1445-53.
Body surface isopotential mapping of the entire QRST complex in the Wolff-Parkinson-White syndrome. Correlation with the location of the accessory pathway.
Giorgi C, Nadeau R, Savard P, Shenasa M, Page PL, Cardinal R,
Centre de recherche, Hopital du Sacre-Coeur de Montreal, Institut de genie biomedical, Quebec, Canada.

Circulation 1992 Aug;86(2):383-93.
Electrocardiographic body surface mapping in patients with ventricular tachycardia. Assessment of utility in the identification of effective pharmacological therapy.
Mitchell LB, Hubley-Kozey CL, Smith ER, Wyse DG, Duff HJ, Gillis AM, Horacek BM,
Department of Medicine, University of Calgary, Alberta, Canada.

J Electrocardiol 1992 Oct;25(4):315-22.
Small differences among body surface and epicardial QRST integral maps recorded during normal activation and experimentally simulated left bundle branch block or preexcitation in canine hearts.
Ichihara Y, Hayashi H, Tomita Y, Adachi M, Kondo K, Suzuki A, Nagasaka M, Hirai M, Saito H,
First Department of Internal Medicine, Nagoya University School of Medicine, Japan.

Circ Res 1992 Dec;71(6):1361-78.
Body surface mapping of ectopic left ventricular activation. QRS spectrum in patients with prior myocardial infarction.
SippensGroenewegen A, Spekhorst H, van Hemel NM, Kingma JH, Hauer RN, Janse MJ, Dunning AJ,
Department of Clinical and Experimental Cardiology, University of Amsterdam, The Netherlands.

J Electrocardiol 1993 Jul;26(3):187-96.
Comparative study of QRST values from body surface potential mapping, 12-lead ECGs, VCGs in detecting inferior myocardial infarction, and evaluating the severity of left ventricular wall motion abnormalities in simulated left bundle branch block.
Nishiyama A, Suzuki A, Hayashi H, Shimizu S, Watarai M, Saito M, Shiga Y, Furuta T, Takatsu F, Adachi M, et al.,
Division of Cardiology, Anjo Kosei Hospital, Aichi, Japan.

Comput Biomed Res 1995 Feb;28(1):1-4.
Implantable cardioverter-defibrillator patch shunting effect manifestations on the body surface map.
Cohen TJ, Quan W, Goldner B,
Department of Medicine, North Shore University Hospital-Cornell University Medical College, Manhasset, New York 11030, USA.

Circulation 1995 Apr 1;91(7):2002-9.
Body surface potential distributions during idiopathic ventricular tachycardia.
Klug D, Ferracci A, Molin F, Dubuc M, Savard P, Kus T, Helie F, Cardinal R, Nadeau R,
Research Center, Hopital du Sacre-Coeur de Montreal, Quebec, Canada.

Pacing Clin Electrophysiol 1995 Aug;18(8):1479-86.
Endocardial fragmented electrogram and prediction of ventricular tachycardia by body surface signal-averaged electrocardiographic mapping.
Sasaki Y, Furihata A, Suyama K,
Second Department of Internal Medicine, Shinshu University School of Medicine, Nagano, Japan.

Physiol Meas 1997 Nov;18(4):373-400.
Value of simulated body surface potential maps as templates in localizing sites of ectopic activation for radiofrequency ablation.
Hren R, Horacek BM,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, Salt Lake City 84112, USA.

J Am Coll Cardiol 1999 Mar;33(3):782-7.
Ventricular excitation maps using tissue Doppler acceleration imaging: potential clinical application.
Yin LX, Li CM, Fu QG, Lo Y, Huang QH, Cai L, Zheng ZX,
Echocardiography Laboratory, Sichuan Provincial Hospital, Chengdu, PR China.

Pacing Clin Electrophysiol 1999 Mar;22(3):453-61.
The utility of quantitative body surface isoarea mapping for predicting ventricular tachyarrhythmias.
Goldner BG, Horwitz L, Kohn N, Lesser M, Ehrlich J, Cohen TJ, Jadonath R,
Department of Medicine, North Shore University Hospital-New York University School of Medicine, Manhasset, NY 11030, USA.

Phys Med Biol 1999 Oct;44(10):2565-78.
Bioelectromagnetic localization of a pacing catheter in the heart.
Pesola K, Nenonen J, Fenici R, Lotjonen J, Makijarvi M, Fenici P, Korhonen P, Lauerma K, Valkonen M, Toivonen L, Katila T,
Laboratory of Biomedical Engineering, Helsinki University of Technology, Finland. katja.pesola@hut.fi

J Electrocardiol 1999;32 Suppl:185-92.
Changes in autonomic activity and ventricular repolarization.
Shusterman V, Beigel A, Shah SI, Aysin B, Weiss R, Gottipaty VK, Schwartzman D, Anderson KP,
Cardiac Electrophysiology Program, Cardiovascular Institute, University of Pittsburgh Health System, Pennsylvania 15213-2582, USA.

J Electrocardiol 2000;33 Suppl:179-85.
Derivation of an optimal lead set for measuring ectopic atrial activation from the pulmonary veins by using body surface mapping.
Gerstenfeld EP, SippensGroenewegen A, Lux RL, Lesh MD,
University of California, San Francisco, USA.

Phys Med Biol 2002 Nov 21;47(22):4063-78.
Noninvasive three-dimensional activation time imaging of ventricular excitation by means of a heart-excitation model.
He B, Li G, Zhang X,
The University of Illinois at Chicago, Department of Bioengineering, 60607, USA. bhe@uic.edu

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