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

Models, Biological (4) Models, Cardiovascular (4) Action Potentials (3) NEW-DIRECTION (3) Heart Ventricles/physiopathology (3) Cardiac Pacing, Artificial (3) MI-DIAGNOSTIC (3) Vectorcardiography (2) WPW (2) Pericardium/physiology (2) DISP-REPOL (2) Computer Simulation (2) Thorax/physiology (2) Models, Anatomic (2) Wolff-Parkinson-White Syndrome/physiopathology (2) INVASIVE-CONTROL (2) Pericardium/physiopathology (2) SCINTIGRAPHY (2) ISCHEMIA-DIAGNOSTIC (2) Lung (1) Myocardial Infarction/diagnosis (1) Arrhythmia/diagnosis (1) Abdomen/physiology (1) BBB (1) Heart/physiopathology (1) MI (1) Myocardial Infarction/physiopathology (1) Arrhythmia/physiopathology (1) Coronary Disease/physiopathology (1) TECHNICAL (1) Heart Ventricles/physiology (1) Fourier Analysis (1) NORM-ACT (1) Body Surface Area (1) Heart Diseases/physiopathology (1) Electric Conductivity (1) Atrioventricular Node/physiopathology (1) Heart Septum/physiopathology (1) Minicomputers (1) SINGLE-MOVING-DIPOLE (1) Algorithms (1) Coronary Angiography (1) Angiography (1) Tomography, X-Ray Computed (1) Pre-Excitation Syndromes/physiopathology (1) Anisotropy (1) Image Processing, Computer-Assisted (1) Feasibility Studies (1) Myocardial Contraction/physiology (1) Models, Theoretical (1) Technetium Tc 99m Sestamibi (1) Technetium Tc 99m Sestamibi/diagnostic use (1)

Circulation 1968 Oct;38(4):684-90.
Digital computer model of a total body electrocardiographic surface map. An adult male-torso simulation with lungs.
Selvester RH, Solomon JC, Gillespie TL,
NIL

UCLA Forum Med Sci 1970;10:369-76.
Digital computer model of a total body ECG surface map: adult male torso simulation with lungs.
Selvester RH, Solomon JC, Gillespie TL,
NIL

J Electrocardiol 1977 Jul;10(3):257-66.
Genesis of body surface potential distribution in right bundle branch block.
Niimi N, Sugiyama S, Wada M, Sugenoya J, Oguri H,
NIL

Adv Cardiol 1978;21:50-4.
An approach to inverse calculation of epicardial potentials from body surface maps.
Franzone PC, Taccardi B, Viganotti C,
NIL

Adv Cardiol 1978;21:77-81.
Computational reconstruction of body surfact isopotential maps in myocardial infarction: comparison between nontransmural and transmural infarction.
Toyama J, Niimi N, Ishikawa T, Wada M, Oguri H, Okajima M, Yamada K,
NIL

Verh Dtsch Ges Kreislaufforsch 1978;44:38-48.
[Characteristics of electrical mapping on the epicardium and the body surface area]
Durrer D, van Oosterom A,
NIL

J Electrocardiol 1978 Apr;11(2):201-2.
A note on the application of Morse theory to the study of the potential extrema of body surface potential maps.
Grossman R,
NIL

Circ Res 1978 Aug;43(2):301-15.
Simulation studies of the electrocardiogram. I. The normal heart.
Miller WT, Geselowitz DB,
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

Jpn Heart J 1982 Dec;23 Suppl 1:325-414.
The inverse problem and surface mapping.

NIL

IEEE Trans Biomed Eng 1983 Nov;30(11):749-54.
Limitation of the inverse problem in body surface potential mapping.
Okamoto Y, Teramachi Y, Musha T,
NIL

J Electrocardiol 1984 Jul;17(3):271-87.
Application of the single moving dipole inverse solution to the study of the Wolff-Parkinson-White syndrome in man.
Gulrajani RM, Pham-Huy H, Nadeau RA, Savard P, de Guise J, Primeau RE, Roberge FA,
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

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):1282-9.
A validation of derived epicardial potential distributions by prediction of the coronary artery involved in acute myocardial infarction in humans.
Kilpatrick D, Walker SJ,
Department of Medicine, University of Tasmania, Australia.

J Electrocardiol 1990;23 Suppl:150-4.
Body surface mapping and cardiac electric sources. A historical survey.
Taccardi B,
Cardiovascular Research and Training Institute, University of Utah, Salt Lake City 84112.

Jpn Heart J 1990 Nov;31(6):777-87.
Determination of the site of the accessory pathway in WPW syndrome by an electrocardiographic inverse solution.
Tsunakawa H, Nishiyama G, Kusahana Y, Harumi K,
Division of Cardiology, Showa University Fujigaoka Hospital, Yokohama, 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.

Ann Biomed Eng 1998 Jan-Feb;26(1):37-47.
A field-compatible method for interpolating biopotentials.
Burnes JE, Kaelber DC, Taccardi B, Lux RL, Ershler PR, Rudy Y,
Cardiac Bioelectricity Research and Training Center, Department of Biomedical Engineering, Case Western Reserve University, Cleveland, OH 44106-7207, USA.

IEEE Trans Biomed Eng 1999 Jul;46(7):778-87.
The use of the spatial covariance in computing pericardial potentials.
van Oosterom A,
Laboratory of Medical Physics and Biophysics, University of Nijmegen, The Netherlands.

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

Circulation 2000 Aug 8;102(6):685-91.
Estimates of repolarization dispersion from electrocardiographic measurements.
Fuller MS, Sandor G, Punske B, Taccardi B, MacLeod RS, Ershler PR, Green LS, Lux RL,
Nora Eccles Harrison Cardiovascular Research and Training Institute, University of Utah School of Medicine, Salt Lake City, Utah 84112-5000, USA. fuller@cvrti.utah.edu

IEEE Trans Biomed Eng 2001 May;48(5):551-9.
Geometrical aspects of the interindividual variability of multilead ECG recordings.
Hoekema R, Uijen GJ, van Oosterom A,
Experimental Cardiology, University Hospital Nijmegen, The Netherlands. r.hoekema@neuro.azu.nl

Circulation 2001 Sep 11;104(11):1299-305.
Imaging dispersion of myocardial repolarization, I: comparison of body-surface and epicardial measures.
Burnes JE, Ghanem RN, Waldo AL, Rudy Y,
Cardiac Bioelectricity Research and Training Center, Department of Biomedical Engineering, Cleveland, Ohio, 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

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

J Electrocardiol 2003;36 Suppl:17-26.
Quantitative assessment of myocardial ischemia by electrocardiographic and scintigraphic imaging.
Title LM, Iles SE, Gardner MJ, Penney CJ, Clements JC, Horacek BM,
Department of Medicine, Dalhousie University, Halifax, Nova Scotia, Canada.

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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