(Body surface, map or mapping) and (BSM-STUDY MI-DIAGNOSTIC)

INVASIVE-CONTROL (16) SCINTIGRAPHY (9) Coronary Angiography (8) Vectorcardiography (7) Heart Ventricles/physiopathology (7) BBB (7) Body Surface Area (7) Thallium (6) ANIMALS (6) STD-ECG-LIMITATIONS (6) Heart/radionuclide imaging (6) Retrospective Studies (6) Prospective Studies (6) Radioisotopes (5) Action Potentials (5) ANIMAL (5) Radioisotopes/diagnostic use (4) Thallium/diagnostic use (4) DESCRIPTIVE (4) Stroke Volume (4) ISCHEMIA-DIAGNOSTIC (4) REPOLARIZATION (4) Reference Values (4) Prognosis (4) Algorithms (4) DRUG-EFFECT (3) Myocardial Contraction (3) KINETICS (3) DEPARTURE-MAPS (3) Angiography (3) Thorax (3) Heart Ventricles (3) QRSTI (3) Myocardium/pathology (3) Discriminant Analysis (3) Thallium Radioisotopes (3) LEAD-SYSTEMS (3) ECGI (3) Ligation (2) Pericardium/physiopathology (2) Heart/physiopathology (2) Propranolol (2) RV-INFARCTION (2) Minicomputers (2) DEPARTURE-MAP (2) Heart Ventricles/physiopathology/radiography (2) Cardiac Pacing, Artificial (2) Myocardial Contraction/physiology (2) REVIEW (2) Image Processing, Computer-Assisted (2) Diagnosis, Differential (2) Clinical Trials (2) Thallium Radioisotopes/diagnostic use (2) Angiocardiography (2) Heart Conduction System/physiopathology (2) Logistic Models (2) Creatine Kinase (2) Biological Markers (2) Models, Cardiovascular (2) Myocardium/metabolism (1) Coronary Vessels/surgery (1) Diagnosis, Computer-Assisted (1) Refractory Period, Neurologic (1) Coronary Vessels (1) Heart Conduction System/physiology (1) Back (1) Necrosis (1) Verapamil (1) Subtraction Technique (1) VCG (1) Heart Catheterization (1) Creatine Kinase/blood (1) Adrenergic beta-Antagonists (1) Nitroglycerin (1) Streptokinase (1) REPERFUSION (1) Bundle-Branch Block/diagnosis (1) Wolff-Parkinson-White Syndrome/diagnosis (1) Cardiac Complexes, Premature/diagnosis (1) DEATH-PREDICTION (1) Myocardial Infarction/diagnosis/physiopathology (1) Heart Ventricles/physiopathology/radionuclide imaging (1) Tomography, Emission-Computed (1) Monitoring, Physiologic (1) PROGNOSIS (1) Risk Factors (1) LESSION-QRS-LOSS (1) WPW (1) Myocardial Infarction/physiopathology (1) Heart Diseases/physiopathology (1) Veins (1) THE-VERTICAL-GRADIENT (1) NEW-DIRECTION (1) Fourier Analysis (1) Vectorcardiography/methods (1) Heart Septum (1) Cardiomegaly/physiopathology (1) Ventricular Fibrillation/physiopathology (1) ARRHYTHMIA-MAPPING (1) VEB (1) Echocardiography (1) EF-ESTIMATION (1) Fibrinolytic Agents (1) QRS-LOSS (1) Bundle of His/physiopathology (1) Pattern Recognition (1) PRINCIPAL-COMPONENT-ANALYSIS (1) Angina Pectoris/diagnosis/physiopathology (1) Electrocardiography, Ambulatory (1)

Circulation 1976 Mar;53(3 Suppl):I73-81.
Electorcardiographic ST-segment analysis in the characterization of myocardial ischemia and infarction.
Ross J Jr,
NIL

Jpn Circ J 1976 Apr;40(4):401-2,419-25.
[Experimental study of myocardial infarction through the use of body surface isopotential maps.--Ligation of the anterior descending branch of the left coronary artery.]
Sugiyama S,
NIL

Am J Cardiol 1976 NOV 4;38(5):576-81.
New evidence for inferoposterior myocardial infarction on surface potential maps.
Flowers NC, Horan LG, Sohi GS, Hand RC, Johnson JC,
NIL

Circulation 1976 Dec;54(6):906-13.
Anterior infarctional changes occurring during mid and late ventricular activation detectable by surface mapping techniques.
Flowers NC, Horan LG, Johnson JC,
NIL

Am Heart J 1977 Jan;93(1):51-9.
Experimental study of myocardial infarction through the use of body surface isopotential maps: ligation of the anterior descending branch of the left coronary artery.
Sugiyama S, Wada M, Sugenoya J, Toyoshima H, Toyama J,
NIL

Adv Cardiol 1977;19:75-6.
Automated mapping of body surface and pericardial potentials in experimental myocardial infarction. Reduction of infarct size by means of a new beta-adrenolytic compound.
Taccardi B, Macchi E, de Ambroggi L,
NIL

Am J Cardiol 1977 Apr;39(4):510-5.
Diagnosis of old inferior myocardial infarction by body surface isopotential mapping.
Vincent GM, Abildskov JA, Burgess MJ, Millar K, Lux RL, Wyatt RF,
NIL

J Electrocardiol 1977 Jul;10(3):251-6.
Diagnosis of high posterior infarction: experimental study through the use of body surface isopotential maps.
Sugiyama S, Sugenoya J, Wada M, Niimi N, Toyama J,
NIL

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

Am Heart J 1977 Oct;94(4):445-53.
Diagnosis of right ventricular infarction: experimental study through the use of body surface isopotential maps.
Sugiyama S, Wada M, Sugenoya JI, Toyoshima H, Toyama J, Yamada K,
NIL

Adv Cardiol 1978;21:96-101.
Relationship between body surface isopotential map of myocardial infarction and coronary angiographic fingings.
Wada M, Sugiyama S, Niimi N, Toyoshima H, Sogenoya J, Oguri H, Toyama J, Yamada K,
NIL

Jpn Heart J 1978 Jan;19(1):28-45.
Body surface isopotential maps. Clinical application to the diagnosis of myocardial infarction.
Yamada K, Toyama J, Sugenoya J, Wada M, Sugiyama S,
NIL

Am J Cardiol 1978 Feb;41(2):349.
Vectorcardiography and body surface isopotential mapping to detect old myocardial infarction.
Madias JE,
NIL

Circ Res 1978 Sep;43(3):406-13.
Surface reflections of cardiac excitation and the assessment of infarct volume in dogs. A comparison of methods.
Flowers NC, Hand RC, Sridharan MR, Horan LG, Sohi GS,
NIL

J Electrocardiol 1979 Jan;12(1):55-64.
ST isopotential precordial surface maps in patients with acute myocardial infarction.
Murray RG, Peshock RM, Parkey RW, Bonte FJ, Willerson JT, Blomqvist CG,
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

Circulation 1980 Oct;62(4):878-87.
Body surface distributions of repolarization forces during acute myocardial infarction. I. Isopotential and isoarea mapping.
Mirvis DM,
NIL

J Electrocardiol 1981;14(1):43-55.
A comparative evaluation of three different approaches for detecting body surface isopotential map abnormalities in patients with myocardial infarction.
Pham-Huy H, Gulrajani RM, Roberge FA, Nadeau RA, Mailloux GE, Savard P,
NIL

Adv Cardiol 1981;28:70-1.
Precardiac mapping of R waves and ST intervals. Results in patients in acute period of extensive anterior myocardial infarction and effect of some drugs on the periinfarction zone.
Popov VG, Jdanova NS, Jelnov VV, Alushkov MV, Barishnikova GA,
NIL

G Ital Cardiol 1981;11(9):1242-51.
[Treatment of acute myocardial infarction with verapamil. Hemodynamic effects and electrical changes studied by body surface maps (author's transl)]
Botti G, Bonatti V, Taccardi B, Rolli A, Favaro L, Musso E,
NIL

Circulation 1981 Mar;63(3):623-31.
Body surface distributions of repolarization potentials after acute myocardial infarction. II. Relationship between isopotential mapping and ST-segment potential summation methods.
Mirvis DM,
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

J Electrocardiol 1982;15(3):241-8.
The body surface isopotential mapping of the QRS wave in myocardial infarction. a comparative study of the scintigram with thallium-201.
Toyama S, Suzuki K, Koyama M, Yoshino K, Fujimoto K,
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

Circulation 1983 Mar;67(3):665-73.
Body surface electrocardiographic mapping in inferior myocardial infarction. Manifestation of left and right ventricular involvement.
Montague TJ, Smith ER, Spencer CA, Johnstone DE, Lalonde LD, Bessoudo RM, Gardner MJ, Anderson RN, Horacek BM,
NIL

Am J Cardiol 1983 Dec 1;52(10):1174-80.
Isointegral analysis of body surface maps for the assessment of location and size of myocardial infarction.
Tonooka I, Kubota I, Watanabe Y, Tsuiki K, Yasui S,
NIL

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):55-62.
Body surface isopotential maps in old inferior myocardial infarction undetectable by 12 lead electrocardiogram.
Osugi J, Ohta T, Toyama J, Takatsu F, Nagaya T, Yamada K,
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

Jpn Heart J 1984 May;25(3):311-24.
Determination of the left ventricular asynergic site by QRST isointegral mapping in patients with myocardial infarction.
Kubota I, Ikeda K, Yamaki M, Watanabe Y, Tsuiki K, Yasui S,
NIL

Am Heart J 1984 Oct;108(4 Pt 1):975-82.
Body surface isopotential maps in old anterior myocardial infarction undetectable by 12-lead electrocardiograms.
Hirai M, Ohta T, Kinoshita A, Toyama J, Nagaya T, Yamada K,
NIL

J Electrocardiol 1984 Oct;17(4):319-27.
Temporal evolution of body surface map patterns following acute inferior myocardial infarction.
Montague TJ, Smith ER, Johnstone DE, Spencer CA, Lalonde LD, Bessoudo RM, Gardner MJ, Anderson RN, Horacek BM,
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

Circulation 1985 Jun;71(6):1206-14.
Electrocardiographic effects of experimental nontransmural myocardial infarction.
Mirvis DM, Ingram L, Holly MK, Wilson JL, Ramanathan KB,
NIL

J Electrocardiol 1985 Jul;18(3):277-85.
Epicardial isopotential mapping from body surface isopotential mapping in myocardial infarction.
Toyama S, Suzuki K, Takahashi T, Yamashita Y,
NIL

J Cardiogr 1985 Sep;15(3):715-28.
[Estimation of location and size of myocardial infarction from body surface potentials using the ECG inverse solution method]
Tanaka H, Hirayanagi K, Aoki T, Ihara T, Yamanoi N, Furukawa T,
NIL

J Electrocardiol 1985 Oct;18(4):361-9.
Detection of posterior myocardial infarction by body surface mapping: a comparative study with 12 lead ECG and VCG.
Ikeda K, Kubota I, Tonooka I, Tsuiki K, Yasui S,
NIL

Am J Cardiol 1985 Nov 15;56(13):852-6.
Identification of best electrocardiographic leads for diagnosing myocardial infarction by statistical analysis of body surface potential maps.
Kornreich F, Rautaharju PM, Warren J, Montague TJ, Horacek BM,
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

J Electrocardiol 1986 Jul;19(3):225-34.
Body surface potential maps in old inferior myocardial infarction. Assessment of diagnostic criteria.
De Ambroggi L, Bertoni T, Rabbia C, Landolina M,
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 Nov 1;58(10):863-71.
Identification of best electrocardiographic leads for diagnosing anterior and inferior myocardial infarction by statistical analysis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM, Block P, Warren JW, Horacek MB,
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

Vnitr Lek 1986 Dec;32(12):1162-72.
[Isopotential mapping of the body surface in myocardial infarct complicated by right bundle-branch block]
Filipova S, Cagan S,
NIL

J Electrocardiol 1987 Jan;20(1):1-20.
Body surface maps in left bundle branch block uncomplicated or complicated by myocardial infarction, left ventricular hypertrophy or myocardial ischemia.
Musso E, Stilli D, Macchi E, Regoliosi G, Brambilla C, Francescon P, Bo M, Rolli A, Botti G, Taccardi B,
NIL

G Ital Cardiol 1987 Jan;17(1):63-72.
[The Italian Group for the Study of Streptokinase in Myocardial Infarct: Changes in surface cardiac potentials. Study with chest electromaps]
De Ambroggi L, Bertoni T, Marangoni E, Marconi M, Klersy C, Eriano G, Ambrosini F, Panciroli C, Salerno JA,
NIL

Jpn Heart J 1987 Mar;28(2):165-76.
Determination of the site of myocardial infarction by QRST isointegral mapping in patients with abnormal ventricular activation sequence.
Igarashi A, Kubota I, Ikeda K, Tsuiki K, Yasui S,
NIL

J Am Coll Cardiol 1987 Jul;10(1):157-63.
Detection of experimental right ventricular infarction by isopotential body surface mapping during sinus rhythm and during ectopic ventricular pacing.
Mirvis DM,
NIL

J Electrocardiol 1987 Jul;20(3):193-202.
Body surface maps and the conventional 12-lead ECG compared by studying their performances in classification of old myocardial infarction.
Uijen GJ, Heringa A, van Oosterom A, van Dam RT,
Department of Cardiology, Radboud Hospital, University of Nijmegen, The Netherlands.

J Electrocardiol 1987 Jul;20(3):203-11.
Myocardial infarction size and location: a comparative study of epicardial isopotential mapping, thallium-201 scintigraphy, electrocardiography and vectorcardiography.
Toyama S, Suzuki K, Takahashi T, Yamashita Y,
Center for Adult Diseases, Osaka, Japan.

Circulation 1987 Aug;76(2):289-97.
Spatial distribution and prognostic significance of ST segment potential determined by body surface mapping in patients with acute inferior myocardial infarction.
Walker SJ, Bell AJ, Loughhead MG, Lavercombe PS, Kilpatrick D,
NIL

Nippon Naika Gakkai Zasshi 1987 Dec;76(12):1837-46.
[Clinical usefulness of QRS departure maps and ST maps constructed from body surface potentials for assessment of myocardial infarction. A comparative study with left ventriculography]
Nakano H, Watanabe Y, Abo Y, Mano K, Mitsuguchi F, Uwatoko M, Shiga Y, Miyagi Y, Nomura M, Mizuno Y,
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.

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.

Circulation 1988 Jun;77(6):1283-90.
Diagnosis of right ventricular involvement in chronic inferior myocardial infarction by means of body surface QRS changes.
Yamaki M, Ikeda K, Honma K, Kiriyama N, Tono-oka I, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of Medicine, Japan.

J Electrocardiol 1988 Nov;21(4):313-9.
Diagnostic value of Q waves outside standard precordial lead points in left anterior myocardial infarction undetectable by standard 12-lead electrocardiogram.
Yabe S, Hayashi H, Ishikawa T, Watabe S, Miyachi K, Yokota M, Sotobata I,
First Department of Internal Medicine, School of Medicine, Nagoya University, Japan.

J Electrocardiol 1988 Nov;21(4):321-9.
Diagnostic value of body surface potential mapping in old anterior non-Q myocardial infarction.
De Ambroggi L, Bertoni T, Breghi ML, Marconi M, Mosca M,
Istituto di Scienze Medico-Chirurgiche S. Donato, University of Milan, Italy.

Jpn Circ J 1989 Mar;53(3):206-12.
Body surface potential mapping in anterior myocardial infarction--a longitudinal study in acute, convalescent and chronic phases.
Cahyadi YH, Murakami E, Takekoshi N, Matsui S, Fujita S, Tsugawa H, Miyamoto M, Maeda T, Miyagawa S,
Department of Cardiology, Kanazawa Medical University, Ishikawa-ken, Japan.

J Electrocardiol 1989 Apr;22(2):113-24.
A comparison of serial 49-lead precordial ECG maps and standard 6-lead precordial ECGs in patients with acute anterior Q wave myocardial infarction.
Madias JE,
Department of Medicine, Mount Sinai-City Hospital Center, Elmhurst, NY 11373.

Am J Cardiol 1989 Aug 1;64(5):319-23.
Prognostic significance of ST potentials determined by body surface mapping in inferior wall acute myocardial infarction.
Bell AJ, Loughhead MG, Walker SJ, Kilpatrick D,
Intensive and Coronary Care Unit, Royal Hobart Hospital, Tasmania, Australia.

J Electrocardiol 1989 Oct;22(4):333-41.
Natural history of ST-segment potential distribution determined by body surface mapping in patients with acute inferior infarction.
Bell AJ, Walker SJ, Kilpatrick D,
Department of Medicine, University of Tasmania, Australia.

J Electrocardiol 1989 Oct;22(4):343-8.
The relationship of ST elevation to eventual QRS loss in acute inferior myocardial infarction.
Kilpatrick D, Bell AJ,
Department of Medicine, University of Tasmania, Australia.

J Electrocardiol 1990;23 Suppl:207.
Continuous body surface potential mapping during the early hours of acute myocardial infarction.
Russell DC,
Cardiovascular Research Unit, University of Edinburgh, UK.

J Electrocardiol 1990 Jan;23(1):13-22.
Use of body surface electrocardiographic mapping to localize the asynergic site in previous myocardial infarction.
Ikeda K, Yamaki M, Honma K, Kubota I, 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.

J Formos Med Assoc 1990 Jun;89(6):427-31.
The value of body surface potential maps in assessment of experimental myocardial infarction.
Tseng YZ, Tseng CD, Lo HM, Hsu KL, Chiang FT, Lin FY, Wu TL,
Department of Internal Medicine, College of Medicine, National Taiwan University, Taipei, R.O.C.

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.

IEEE Trans Biomed Eng 1990 Oct;37(10):945-55.
Multicategory classification of body surface potential maps.
Reich Y, Thomas CW, Pao YH, Liebman J, Rudy Y,
Rafael, Armament Development Authority, Haifa, Israel.

J Electrocardiol 1990 Oct;23(4):307-13.
Abnormalities of early depolarization in patients with remote anterior myocardial infarction and ventricular septal hypoperfusion. Diagnosis of septal MI by BSM.
Kubota I, Yamaki M, Ikeda K, Yamaguchi I, Tonooka I, Tsuiki K, Yasui S,
First Department of Internal Medicine, Yamagata University School of Medicine, Japan.

J Electrocardiol 1990 Oct;23(4):315-22.
Complementary nature of electrocardiographic and magnetocardiographic data in patients with ischemic heart disease.
Lant J, Stroink G, ten Voorde B, Horacek BM, Montague TJ,
Department of Physics, Dalhousie University, Halifax, Nova Scotia, Canada.

IEEE Trans Biomed Eng 1991 Nov;38(11):1061-8.
Nonparametric identification of discriminative information in body surface maps.
Kozmann G, Green LS, Lux RL,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah, School of Medicine, Salt Lake City 84112.

Chin Med J (Engl) 1991 Nov;104(11):914-9.
Location of myocardial infarction and its surface cardioelectric representation. An experimental study.
Wen YM, Zhang GQ, Fang QD, Zhang YT, Wang XY, Cui CY, Zhao TD, Xu BN,
China-Japan Friendship Hospital, Beijing.

Circulation 1991 Dec;84(6):2442-53.
Identification of first acute Q wave and non-Q wave myocardial infarction by multivariate analysis of body surface potential maps.
Kornreich F, Montague TJ, Rautaharju PM,
Unit for Cardiovascular Research and Engineering, Free University Brussels, 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.

Pol Arch Med Wewn 1992 Aug-Sep;88(2-3):90-102.
[Localization of infarction of the anterior and inferior myocardial wall by body surface mapping]
Gornicki M, Jagielski J, Swiderska-Blonska T,
Katedra i Zaklad Patofizjologii Akademii Medycznej, Wroclawiu.

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):109-17.
Analysis of ventricular activation in patients with chronic non-Q wave myocardial infarction: comparison with left ventricular asynergy and myocardial perfusion defects.
Stovicek P, Stojan M, Kasalicky J, Vondracek V, Vojacek J, Linhart A, Anger Z,
Second Medical Department, First Faculty of Medicine, Charles University, Prague.

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.

J Electrocardiol 1993 Jan;26(1):17-24.
Correlation between various parameters derived from body surface maps and ejection fraction in patients with anterior myocardial infarction.
Hayashi H, Hirai M, Suzuki A, Ichihara Y, Adachi M, Kondo K, Takatsu F, Saito H,
First Department of Internal Medicine, Nagoya University School of Medicine, Japan.

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.

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 1993 Jul;26(3):177-85.
Relationship of ST-segment elevation to eventual QRS loss in acute anterior wall myocardial infarction.
Bell AJ, Briggs CM, Nichols P, Kilpatrick D,
Department of Medicine, University of Tasmania, Hobart, Australia.

Eur Heart J 1993 Aug;14(8):1094-101.
The ability of QRST isointegral maps to detect myocardial infarction in the presence of simulated left bundle branch block.
Suzuki A, Hirai M, Hayashi H, Tomita Y, Ichihara Y, Adachi M, Oguchi S, Takatsu F,
First Department of Internal Medicine, University of Nagoya School of Medicine, Japan.

Methods Inf Med 1994 Mar;33(1):72-5.
Portable cardiac mapping assessment of acute ischaemic injury.
Anderson JM, Dempsey GJ, Wright GT, Cullen C, Crawley M, McAdams ET, McLaughlin J, MacKenzie G, Adgey AA,
N. Ireland Bio-Engineering Centre, University of Ulster.

Curr Opin Cardiol 1994 Jul;9(4):465-70.
Diagnosis of acute myocardial infarction.
Murray C, Alpert JS,
Department of Medicine, University of Arizona Health Sciences Center, Tucson 85724.

Nippon Rinsho 1995 Jan;53(1):178-84.
[Detection of wall motion abnormality in old myocardial infarction with principal component analysis to body surface potential distribution]
Endo T, Yamaki M,
Tendo City Hospital.

J Electrocardiol 1995;28 Suppl:184-90.
Body surface ECG potential maps in acute myocardial infarction.
McMechan SR, MacKenzie G, Allen J, Wright GT, Dempsey GJ, Crawley M, Anderson J, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Belfast, UK.

J Electrocardiol 1998;31 Suppl:180-8.
Body-surface map models for early diagnosis of acute myocardial infarction.
Menown IB, Patterson RS, MacKenzie G, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Belfast, Northern Ireland.

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.

J Electrocardiol 1999;32 Suppl:30-7.
Comparison of 18-lead ECG and selected body surface potential mapping leads in determining maximally deviated ST lead and efficacy in detecting acute myocardial ischemia during coronary occlusion.
Wung SF, Drew B,
Department of Physiological Nursing, University of California San Francisco, USA.

Circulation 2000 Mar 14;101(10):1115-21.
New body surface isopotential map evaluation method to detect minor potential losses in non-Q-wave myocardial infarction.
Medvegy M, Preda I, Savard P, Pinter A, Tremblay G, Nasmith JB, Palisaitis D, Nadeau RA,
Research Centre, Hopital du Sacre-Coeur de Montreal, Universite de Montreal, Montreal, Quebec, Canada.

Am J Cardiol 2000 Apr 15;85(8):934-8.
Early diagnosis of right ventricular or posterior infarction associated with inferior wall left ventricular acute myocardial infarction.
Menown IB, Allen J, Anderson JM, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Belfast, United Kingdom.

Eur Heart J 2001 Feb;22(3):218-27.
ST depression only on the initial 12-lead ECG: early diagnosis of acute myocardial infarction.
Menown IB, Allen J, Anderson JM, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Belfast, Northern Ireland, UK.

J Electrocardiol 2001;34 Suppl:97-111.
Optimal electrocardiographic leads for detecting acute myocardial ischemia.
Horacek BM, Warren JW, Penney CJ, MacLeod RS, Title LM, Gardner MJ, Feldman CL,
Department of Physiology & Biophysics, Faculty of Medicine of Dalhousie University, Halifax, Nova Scotia, Canada. milan.horacek@dal.ca

Am J Cardiol 2003 Aug 1;92(3):252-7.
Comparison of the 80-lead body surface map to physician and to 12-lead electrocardiogram in detection of acute myocardial infarction.
McClelland AJ, Owens CG, Menown IB, Lown M, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Northern Ireland, Belfast, United Kingdom.

Heart 2003 Sep;89(9):998-1002.
Body surface mapping improves early diagnosis of acute myocardial infarction in patients with chest pain and left bundle branch block.
Maynard SJ, Menown IB, Manoharan G, Allen J, McC Anderson J, Adgey AA,
Regional Medical Cardiology Centre, Royal Victoria Hospital, Belfast, Northern Ireland, UK.

J Electrocardiol 2003;36 Suppl:127-32.
The use of calculated epicardial potentials improves significantly the sensitivity of a diagnostic algorithm in the detection of acute myocardial infarction.
Navarro C, Owens C, Riddell J, McClelland A, Anderson JM, Escalona O, Turner C, Adgey J,
Regional Medical Cardiology Center, Royal Victoria Hospital, Belfast, Northern Ireland.

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