(Body surface, map or mapping) and (BSM-STUDY INVASIVE-CONTROL)

ISCHEMIA-DIAGNOSTIC (22) MI-DIAGNOSTIC (16) Coronary Angiography (10) WPW (8) BBB (6) Cardiac Pacing, Artificial (6) SCINTIGRAPHY (5) Myocardial Contraction (4) STRESS-TEST (4) Heart/radionuclide imaging (4) Heart Ventricles/physiopathology (3) PTCA (3) Vectorcardiography (3) KINETICS (3) Angiography (3) Echocardiography (3) PACE-MAPPING (3) ANIMAL (3) Body Surface Area (3) Reference Values (3) MI (3) Thallium (2) Radioisotopes (2) Stroke Volume (2) NEW-DIRECTION (2) Thallium Radioisotopes (2) Thallium Radioisotopes/diagnostic use (2) Thorax (2) Heart Ventricles/physiology (2) VEB (2) REPOLARIZATION (2) Myocardium/pathology (2) QRSTI (2) LATE-POTENTIALS (2) Action Potentials (2) Prospective Studies (2) Heart Ventricles (2) P-WAVE (2) ECGI (2) Heart Ventricles/surgery (1) INFANT (1) ECHOCARDIOGRAPHY (1) Pericardium/physiopathology (1) Exertion (1) Heart Septum/physiopathology (1) Subtraction Technique (1) Angiocardiography (1) Radioisotopes/diagnostic use (1) Thallium/diagnostic use (1) Heart Ventricles/physiopathology/radiography (1) Creatine Kinase (1) Creatine Kinase/blood (1) Adrenergic beta-Antagonists (1) Nitroglycerin (1) Diagnosis, Computer-Assisted (1) Anti-Arrhythmia Agents (1) Anti-Arrhythmia Agents/therapeutic use (1) Cardiac Pacing, Artificial/methods (1) Heart Ventricles/pathology/physiopathology (1) Myocardial Infarction/diagnosis/physiopathology (1) ANIMALS (1) NORM-ACT (1) Discriminant Analysis (1) Pilot Projects (1) Atrial Function (1) Back (1) Rest (1) Exercise Test (1) Bundle-Branch Block/diagnosis (1) S1S2S3-PATTERN (1) DIFFERENCE-MAPS (1) Ventricular Fibrillation/physiopathology (1) ARRHYTHMIA-MAPPING (1) Posture (1) DEPARTURE-MAPS (1) Catheter Ablation (1) Computer Simulation (1) Heart Catheterization (1) Ventricular Function, Left/physiology (1) Myocardial Ischemia/physiopathology (1) Myocardial Infarction/physiopathology (1) Ventricular Function, Right (1) Ventricular Function, Left (1) Endocardium (1) Gated Blood-Pool Imaging (1) ARRHYTHMIA-PREDICTION (1) Heart Atria (1) Atrial Function, Right/physiology (1) Cohort Studies (1) DISP-REPOL (1) Heart Conduction System/physiopathology (1) Electrodes, Implanted (1) VT (1) Models, Theoretical (1) Models, Anatomic (1) Wolff-Parkinson-White Syndrome/physiopathology (1)

Jpn Circ J 1977 Sep;41(9):1040-1, 1051-9.
[Relationship between body surface isopotential map of myocardial infarction and coronary angiographic findings]
Wada M,
NIL

J Pediatr 1980 Jan;96(1):41-6.
Accessory atrioventricular pathway in an infant: prediction of location with body surface maps and ablation with cryosurgery.
Benson DW Jr, Gallagher JJ, Spach MS, Barr RC, Edwards SB, Oldham HN, Kasell J,
NIL

Jpn Circ J 1980 Mar;44(3):197-208.
Diagnostic value of body surface map in myocardial infarction: assessment of location, size and ejection fraction as compared with coronary cineangiography and 201Tl myocardial scintigraphy.
Hayashi H, Watanabe Y, Ishikawa T, Wada M, Uematsu H, Inagaki H,
NIL

J Thorac Cardiovasc Surg 1980 Aug;80(2):271-9.
Localization and interruption of accessory conduction pathway in the Wolff-Parkinson-White syndrome.
Iwa T, Kawasuji M, Misaki T, Iwase T, Magara T,
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

Jpn Heart J 1981 Sep;22(5):747-61.
Correlation between body surface isopotential maps and left ventriculograms in patients with old anterior myocardial infarction.
Ohta T, Toyama J, Ohsugi J, Kinoshita A, Isomura S, Takatsu F, Ishikawa H, Nagaya T, Yamada K,
NIL

Jpn Circ J 1981 Oct;45(10):1147-57.
Body surface isopotential maps of experimentally induced transient right bundle branch block.
Kohbe T, Ohno M, Isomura S, Ohta T, Kodama I, Toyama J, Yamada K,
NIL

Jpn Circ J 1981 Oct;45(10):1192-8.
Correlation between localization of accessory conduction pathway and body surface maps in the Wolff-Parkinson-White syndrome.
Iwa T, Magara T,
NIL

Jpn Circ J 1981 Oct;45(10):1203-7.
Exercise stress body surface isopotential map in patients with coronary artery disease: comparison with coronary angiographic and stress myocardial perfusion scintigraphic findings.
Wada M, Kaneko K, Teshigawara H, Kondo T, Ohashi S, Miyagi Y, Nomura M, Okajima S, Hishida H, Takeuchi A, Mizuno Y,
NIL

Jpn Circ J 1982 Jan;46(1):8-15.
Treadmill stress test using body surface mapping in coronary artery disease--the clinical significance of ST depression.
Kubota I, Watanabe Y, Harada M, Kaminishi T, Tsuiki K, Yasui S,
NIL

Am Heart J 1982 Dec;104(6):1262-70.
Correlation between body surface isopotential maps and left ventriculograms in patients with old inferoposterior myocardial infarction.
Ohta T, Kinoshita A, Ohsugi J, Isomura S, Takatsu F, Ishikawa H, Toyama J, Nagaya T, Yamada K,
NIL

Clin Invest Med 1985;8(1):68-77.
Myocardial infarction diagnosis with body surface potential mapping, electrocardiography, vectorcardiography and thallium-201 scintigraphy: a correlative study with left ventriculography.
Ackaoui A, Nadeau R, Sestier F, Savard P, Primeau R, Lemieux R, Descary MC,
NIL

Am Heart J 1985 Mar;109(3 Pt 1):464-71.
Noninvasive assessment of left ventricular wall motion abnormalities by QRS isointegral maps in previous anterior infarction.
Kubota I, Ikeda K, Kanaya T, Yamaki M, Tonooka I, Watanabe Y, Tsuiki K, Yasui S,
NIL

Jpn Circ J 1985 Jul;49(7):727-32.
Diagnosis of coronary artery disease by body surface mapping--body surface distribution of exercise-induced ST changes in patients without myocardial infarction.
Yasui S, Kubota I, Ohyama T, Ikeda K, Yamaki M, Tsuiki K,
NIL

Am Heart J 1985 Nov;110(5):949-55.
Body surface distributions of ST segment changes after exercise in effort angina pectoris without myocardial infarction.
Kubota I, Ikeda K, Ohyama T, Yamaki M, Kawashima S, Igarashi A, Tsuiki K, Yasui S,
NIL

Chest 1985 Dec;88(6):841-8.
Indirect measurement of infarct size. Correlative variability of enzyme, radionuclear angiographic, and body-surface-map variables in 34 patients during the acute phase of first myocardial infarction.
McPherson DD, Horacek BM, Spencer CA, Johnstone DE, Lalonde LD, Cousins CL, Montague TJ,
NIL

Can J Cardiol 1986 Jul;Suppl A:91A-98A.
Q-wave infarction: pathophysiology of body surface potential map and ventriculographic patterns in anterior and inferior groups.
McPherson DD, Horacek BM, Johnstone DE, Lalonde LD, Spencer CA, Montague TJ,
NIL

J Am Coll Cardiol 1986 Sep;8(3):521-8.
Electrocardiographic and ventriculographic recovery patterns in Q wave myocardial infarction.
Montague TJ, McPherson DD, Johnstone DE, Spencer CA, Lalonde LD, Gardner MJ, Horacek BM,
NIL

Am J Cardiol 1986 Dec 1;58(13):1173-80.
Non-Q-wave acute myocardial infarction: body surface potential map and ventriculographic patterns.
Montague TJ, Johnstone DE, Spencer CA, Lalonde LD, Gardner MJ, O'Reilly MG, Horacek BM,
NIL

J Cardiogr Suppl 1987;12:19-26.
[Predictability of stress-induced myocardial ischemia from coronary arteriography in patients with organic coronary artery stenosis]
Tsuiki K, Oguma M, Kubota I, Ohta I, Tono-Oka I, Yasui S,
First Department of Internal Medicine, Yamagata University School of Medicine.

J Cardiogr Suppl 1987;12:27-33.
[Left anterior descending artery lesions estimated by the rest T map in patients with angina pectoris]
Ishikawa T, Hayashi H,
First Department of Internal Medicine, School of Medicine, Nagoya University.

Am J Cardiol 1987 Mar 1;59(6):528-30.
Localization of significant coronary arterial narrowings using body surface potential mapping during exercise stress testing.
Farr BR, Vondenbusch B, Silny J, Rau G, Effert S,
NIL

Circulation 1988 Feb;77(2):301-10.
New diagnostic evidence on the T wave map indicating involved coronary artery in patients with angina pectoris.
Ishikawa T, Watabe S, Yamada Y, Miyachi K, Sakai Y, Ito A, Sotobata I,
First Department of Internal Medicine, School of Medicine, Nagoya University, Japan.

Am J Cardiol 1988 Feb 1;61(4):273-82.
Body surface potential maps with low-level exercise in isolated left anterior descending coronary artery disease.
Montague TJ, Johnstone DE, Spencer CA, Miller RM, Mackenzie BR, Gardner MJ, Horacek BM,
Department of Medicine, Dalhousie University, Halifax, Nova Scotia, Canada.

Circulation 1988 Mar;77(3):499-503.
PQRST isoarea maps from patients with the Wolff-Parkinson-White syndrome: an index for global alterations of ventricular repolarization.
Nadeau R, Ackaoui A, Giorgi C, Savard P, Shenasa M, Page P,
Research Center, Hopital du Sacre-Coeur de Montreal, Quebec, Canada.

J Electrocardiol 1988 Apr;21(2):137-46.
Sites of origin of ventricular premature beats in patients with and without cardiovascular disease evaluated by body surface mapping.
Hayashi H, Watabe S, Takami K, Yabe S, Uematsu H, Mizutani M, Saito H,
Department of Internal Medicine, Nagoya University Hospital, Japan.

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.

Jpn Circ J 1988 Jun;52(6):552-62.
Experimental study on significance of QRS area map--comparison with VAT map.
Hishida H, Chikamatsu H, Kano H, Yasui T, Matsuyama H, Ishiguro Y, Mizuno Y,
Department of Internal Medicine, Fujita-Gakuen Health University School of Medicine, Toyoake Aichi, Japan.

J Electrocardiol 1989;22 Suppl:72-81.
Use of body surface maps to identify vessel site of coronary occlusion.
Sridharan MR, Horan LG, Hand RC, Orander PC, Killam HA, Flowers NC,
Cardiology Section, Veterans Administration Medical Center, Augusta, GA 30910.

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.

J Electrocardiol 1989;22 Suppl:99-106.
A basis for determining body surface potential patterns attributable to single-site coronary arterial occlusion.
Horan LG, Sridharan MR, Flowers NC, Killam HA,
Cardiology Section, Veterans Administration Medical Center, Augusta, GA 30910.

J Electrocardiol 1989 Jan;22(1):27-43.
Body surface maps of ectopic P waves originating in the left atrium in the dog.
Kawano S, Hiraoka M, Yamamoto M, Sawanobori T, Sakamoto Y,
Department of Cardiovascular Diseases, Tokyo Medical and Dental University, Japan.

Circulation 1989 Jul;80(1):120-7.
Detection of diseased coronary artery by exercise ST-T maps in patients with effort angina pectoris, single-vessel disease, and normal ST-T wave on electrocardiogram at rest.
Kubota I, Hanashima K, Ikeda K, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of Medicine, 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.

Circ Res 1990 Jan;66(1):55-68.
Spatial domain analysis of late ventricular potentials. Intraoperative and thoracic correlations.
Lacroix D, Savard P, Shenasa M, Kaltenbrunner W, Cardinal R, Page P, Joly D, Derome D, Nadeau R,
Research Center, Sacre-Coeur Hospital, Universite de Montreal, Quebec, Canada.

J Electrocardiol 1990 Jan;23(1):23-31.
Electrogenesis of the S1S2S3 electrocardiographic pattern. A study in humans based on body surface potential and right ventricular endocardial mapping.
Delise P, Piccolo E, D'Este D, De Piccoli B, Raviele A, Di Pede F, Millosevich P, Bonso A,
Division of Cardiology, Mestre Hospital, Venice, Italy.

Circulation 1990 Mar;81(3):840-9.
Body surface mapping during percutaneous transluminal coronary angioplasty. QRS changes indicating regional myocardial conduction delay.
Spekhorst H, SippensGroenewegen A, David GK, Janse MJ, Dunning AJ,
Department of Clinical Cardiology, University of Amsterdam, The Netherlands.

J Electrocardiol 1990 Apr;23(2):127-36.
The value of body surface potential maps in detecting abnormal ventricular wall motion.
Tseng YZ, Tseng CD, Lo HM, Chiang FT, Hsu KL, Wu TL,
Department of Internal Medicine, College of Medicine, National Taiwan University, Taipei, Republic of China.

Pacing Clin Electrophysiol 1990 Sep;13(9):1110-5.
Body surface mapping and nontraditional ECG leads in patients with Wolff-Parkinson-White syndrome.
Bockeria LA, Revishvily AS, Poljakova IP,
Bakoulev Institute of Cardiovascular Surgery, Academy of Medical Sciences, Moscow, USSR.

Circ Res 1990 Sep;67(3):683-93.
Patterns of body surface potential and ventriculograms specific to occlusion of subdivisions of the coronary arteries.
Horan LG, Sridharan MR, Killam HA, Flowers NC,
Veterans Administration Medical Center, Cardiology Section, Augusta, GA 30910.

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.

Physiol Res 1993;42(2):119-22.
Quantitative evaluation of body surface potential mapping of heart electrical field in ischaemic heart disease.
Malkova A, Polankova M, Drska Z, Valova D, Jebavy P, Kallmunzer B, Kittnar O,
Institute of Physiological Regulations, Czech Academy of Sciences, Prague.

Physiol Res 1993;42(2):123-30.
Repolarization pattern of body surface potential maps (BSPM) in coronary artery disease.
Kittnar O, Slavicek J, Vavrova M, Barna M, Dohnalova A, Malkova A, Aschermann M, Humhal J, Hradec J, Kral J,
Institute of Physiology, First Medical Faculty, Charles University, Prague.

Physiol Res 1993;42(2):131-4.
Body surface potential mapping (BSPM) before and after percutaneous transluminal coronary angioplasty (PTCA).
Tilser P, Malkova A, Valova D, Drska Z, Cernohorsky D,
Department of Cardiovascular and Pulmonary Investigation, University Hospital, Hradec Kralove.

Circulation 1993 Jan;87(1):135-43.
Pace mapping using body surface potential maps to guide catheter ablation of accessory pathways in patients with Wolff-Parkinson-White syndrome.
Dubuc M, Nadeau R, Tremblay G, Kus T, Molin F, Savard P,
Research Center, Hopital du Sacre-Coeur de Montreal, Quebec, Canada.

J Electrocardiol 1993 Jan;26(1):43-51.
Body surface potential mapping of ST-segment shift in patients undergoing percutaneous transluminal coronary angioplasty. Correlations with the ECG and vectorcardiogram.
Shenasa M, Hamel D, Nasmith J, Nadeau R, Dutoy JL, Derome D, Savard P,
Clinical Electrophysiology Laboratory and Research Center, Hopital du Sacre-Coeur, Montreal, Canada.

Am Heart J 1993 Feb;125(2 Pt 1):291-300.
Estimation of anterior infarct size with body surface QRST integral maps in the presence of abnormal ventricular activation sequence in dogs.
Ichihara Y, Hirai M, Hayashi H, Tomita Y, Adachi M, Suzuki A, Tsuda M, Nagasaka M, Saito H,
First Department of Internal Medicine, Nagoya University School of Medicine, Japan.

Pacing Clin Electrophysiol 1993 Apr;16(4 Pt 1):751-9.
Effects of right ventricular pacing on QRST isointegral maps in patients with and without myocardial infarction: body surface distribution of significant changes in QRST area compared to supraventricular complex.
Suzuki A, Hirai M, Hayashi H, Ichihara Y, Adachi M, Oguchi S, Nishiyama A, Shimizu S, Watarai M, Shiga Y, et al.,
First Department of Internal Medicine, University of Nagoya School of Medicine, Japan.

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.

Circulation 1993 Dec;88(6):2674-84.
Body surface distribution of abnormally low QRST areas in patients with Wolff-Parkinson-White syndrome. Evidence for continuation of repolarization abnormalities before and after catheter ablation.
Hirai M, Tsuboi N, Hayashi H, Ito M, Inden Y, Hirayama H, Ito T, Yanagawa T, Sano H, Kondo T, et al.,
Division of Cardiology, University of Nagoya School of Medicine, Japan.

J Electrocardiol 1994;27 Suppl:93-100.
Analysis of PTCA-induced ischemia using an ECG inverse solution or the wavelet transform.
MacLeod RS, Brooks DH, On H, Krim H, Lux RL, Kornreich F,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, Salt Lake City 84112.

Pacing Clin Electrophysiol 1994 Sep;17(9):1477-86.
Correlation of the endocardial fragmented electrogram with body surface signal-averaged electrocardiographic mapping.
Sasaki Y, Furihata A, Suyama K,
Scecond Departmetn of Internal Medicine, Shinshu University School of Medicine, Nagano, Japan.

J Electrocardiol 1994 Oct;27(4):311-22.
QRS alterations in body surface potential distributions during percutaneous transluminal coronary angioplasty in single-vessel disease.
Preda I, Nadeau R, Savard P, Hamel D, Palisaitis D, Shenasa M, Nasmith J,
Research Center, Hopital du Sacre-Coeur de Montreal, Quebec, Canada.

Nippon Rinsho 1995 Jan;53(1):98-105.
[Comparison of body surface maps with epicardial maps in patients with Wolff-Parkinson-White syndrome]
Kamakura S,
Department of Internal Medicine, National Cardiovascular Center.

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.

Circulation 1998 Feb 3;97(4):369-80.
Body surface mapping during pacing at multiple sites in the human atrium: P-wave morphology of ectopic right atrial activation.
SippensGroenewegen A, Peeters HA, Jessurun ER, Linnenbank AC, Robles de Medina EO, Lesh MD, van Hemel NM,
Department of Medicine and the Cardiovascular Research Institute, University of California at San Francisco, 94143-1354, USA. sippens@ep4.ucsf.edu

Int J Cardiol 2000 Jul 31;74(2-3):115-24.
Analysis of T wave changes by activation recovery interval in patients with atrial septal defect.
Izumida N, Asano Y, Wakimoto H, Nishiyama M, Doi S, Tsuchiya S, Hosaki J, Kawano S, Sawanobori T, Hiraoka M,
Department of Pediatrics, School of Medicine, Tokyo Medical and Dental University, 1 chome 5-45, Yushima, Bunkyo-ku, 113-8519, Tokyo, Japan. nizumida.ped@med.tmd.ac.jp

Pflugers Arch 2000;440(5 Suppl):R123-5.
Spatial resolution of epicardial pace mapping using body surface potentials.
Samarin S, Hren R, Trobec R, Avbelj V, Gersak B,
Department of Cardiovascular Surgery, Medical Center Ljubljana, Slovenia. samarinsilvia@hotmail.com

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.

J Cardiovasc Electrophysiol 2001 Nov;12(11):1232-41.
Relation between body surface mapping and endocardial spread of ventricular activation in postinfarction heart.
van Dessel PF, van Hemel NM, de Bakker JM, Linnenbank TA, Potse M, Jessurun ER, SippensGroenewegen A, Wever EF,
Department of Cardiology, St. Antonius Hospital, Nieuwegein, The Netherlands. p.van.dessel@deskart.nl

J Electrocardiol 2002;35 Suppl:75-80.
Noninvasive determination of the activation sequence of the heart: application to patients with previous myocardial infarctions.
Oostendorp T, Nenonen J, Korhonen P,
Laboratory of Medical Physics, University of Nijmegen, The Netherlands. thom@mbfys.kun.nl

J Electrocardiol 2002;35 Suppl:81-7.
Clinical ECG mapping and imaging of cardiac electrical excitation.
Tilg B, Hanser F, Modre-Osprian R, Fischer G, Messnarz B, Berger T, Hintringer F, Pachinger O, Roithinger FX,
Institute for Medical Signal Processing and Imaging, University for Health Informatics and Technology Tyrol, Innsbruck, Austria. bernhard.tilg@umit.at

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