Thorax (5) Myocardial Infarction/diagnosis/physiopathology (3) Retrospective Studies (3) MI-DIAGNOSTIC (3) Myocardial Infarction/physiopathology (3) LVH (2) Image Processing, Computer-Assisted (2) Heart/physiology (2) Discriminant Analysis (2) Hypertrophy, Left Ventricular/diagnosis/physiopathology (2) Reference Values (2) Body Surface Area (2) Fourier Analysis (2) Models, Biological (2) Exercise Test (2) Models, Theoretical (2) Myocardial Infarction/diagnosis (1) Heart Conduction System/physiopathology (1) Arrhythmia/diagnosis (1) Heart Block/diagnosis (1) DESCRIPTIVE (1) Electrophysiology/methods (1) Action Potentials (1) Coronary Disease/complications (1) LV-MASS (1) Computer Simulation (1) Ventricular Function/physiology (1) Heart Ventricles (1) Algorithms (1) Models, Statistical (1) Least-Squares Analysis (1) Back (1) STD-ECG-LIMITATIONS (1) Wolff-Parkinson-White Syndrome/physiopathology (1) Myocardial Ischemia/physiopathology (1) Multicenter Studies (1) Vectorcardiography/methods (1) Diagnostic Errors (1) ISCHEMIA-DIAGNOSTIC (1) Wolff-Parkinson-White Syndrome/diagnosis/physiopathology (1) Tachycardia, Ventricular/diagnosis/physiopathology (1) Japan (1) United States (1) Likelihood Functions (1) Coronary Disease/physiopathology (1) STRESS-TEST (1) Models, Anatomic (1) Tachycardia, Ventricular/physiopathology (1)
IEEE Trans Biomed Eng 1978 May;25(3):270-6.
Limited lead selection for estimation of body surface potential maps in
electrocardiography.
Lux RL, Smith CR, Wyatt RF, Abildskov JA,
NIL
Circulation 1979 Feb;59(2):356-63.
Clinically practical lead systems for improved electrocardiography:
comparison with precordial grids and conventional lead systems.
Lux RL, Burgess MJ, Wyatt RF, Evans AK, Vincent GM, Abildskov JA,
NIL
J Electrocardiol 1980 Oct;13(4):311-21.
The influence of electrode placement in the reconstruction and analysis of
body surface potential maps from limited thoracic arrays.
Horan LG, Hand RC, Flowers NC, Johnson JC, Sridharan MR,
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
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
J Electrocardiol 1987 Jan;20(1):21-6.
Fine detail in body surface potential maps: accuracy of maps using a
limited lead array and spatial and temporal data representation.
Green LS, Lux RL, Stilli D, Haws CW, Taccardi B,
NIL
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.
Comput Biomed Res 1989 Apr;22(2):105-12.
On the optimal choice of the electrode number and locations in body
surface mapping.
Barone P, Pallottino S,
Istituto per le Applicazioni del Calcolo M. Picone, C.N.R., Rome, Italy.
Front Med Biol Eng 1990;2(4):283-92.
Reduction of the number of electrodes in the measurement of body surface
potential distribution.
Okamoto Y, Musha T, Harumi K,
Department of Electrical Engineering, Chiba Institute of Technology,
Japan.
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 1993 Apr;26(2):107-16.
The number of signals in multilead ECGs in individuals.
Uijen GJ, van Oosterom A,
Department of Cardiology, University Hospital Nijmegen, The Netherlands.
J Electrocardiol 1994 Jul;27(3):255-62.
A model study of the sensitivity of body surface potential distribution to
variations of electrode placement.
Turzova M, Tysler M, Kneppo P,
Institute of Measurement Science, Slovak Academy of Sciences, Bratislava.
Physiol Meas 1994 Aug;15(3):235-42.
Simplified body-surface electrocardiographic maps with depolarization
magnitude and direction.
Murray A, Allen J, Allen V, Clayton RH, McLaughlin NB, Relf GT,
Regional Medical Physics Department, Freeman Hospital, Newcastle upon
Tyne, UK.
J Electrocardiol 1995;28 Suppl:104-9.
Interpolation of body surface potential maps.
Schijvenaars BJ, Kors JA, van Herpen G, Kornreich F, van Bemmel JH,
Department of Medical Informatics, Erasmus University, Rotterdam, The
Netherlands.
J Electrocardiol 1995;28 Suppl:121-3.
Map representation and diagnostic performance of the standard 12-lead ECG.
Kornreich F, Lux RL, MacLeod RS,
Free University of Brussels, Belgium.
J Electrocardiol 1995;28 Suppl:92-8.
Estimating ECG distributions from small numbers of leads.
Lux RL, MacLeod RS, Fuller M, Green LS, Kornreich F,
University of Utah, Salt Lake City, USA.
J Electrocardiol 1995 Oct;28(4):344-5.
Lead system transformation for pooling of body surface map data: a surface
Laplacian approach.
Hoekema R, Huiskamp GJ, Oostendorp TF, Uijen GJ, van Oosterom A,
Department of Cardiology, University Hospital Nijmegen, The Netherlands.
J Electrocardiol 1995 Oct;28(4):350-1.
A method to reduce the effect of electrode position variations on
automated ECG interpretation.
Schijvenaars RJ, Kors JA, van Herpen G, van Bemmel JH,
Department of Medical Informatics, Faculty of Medicine and Health
Sciences, Erasmus University Rotterdam, The Netherlands.
J Electrocardiol 1996;29 Suppl:5-9.
Use of the standard 12-lead ECG to simulate electrode displacements.
Schijvenaars RJ, Kors JA, van Herpen G, van Bemmel JH,
Department of Medical Informatics, Erasmus University, Rotterdam, The
Netherlands.
Pacing Clin Electrophysiol 1996 Jun;19(6):920-8.
Optimal lead selection for detection of ST segment shifts.
Fuller MS, Dustman TJ, Sharp S, Green LS, Lux R,
Division of Cardiology, University of Utah Medical Center, Salt Lake City,
USA.
J Electrocardiol 1998 Apr;31(2):71-82.
Lead system transformation of body surface map data.
Hoekema R, Uijen GJ, Stilli D, van Oosterom A,
Department of Cardiology, University Hospital Nijmegen, The Netherlands.
J Electrocardiol 1999 Apr;32(2):93-101.
On selecting a body surface mapping procedure.
Hoekema R, Uijen GJ, van Oosterom A,
Cardiology Department, University of Nijmegen, The Netherlands.
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 Electrocardiol 1999 Jul;32(3):253-61.
Body surface potential field representation fidelity: analysis of map
estimation procedures.
Sandor G, Kozmann G, Cserjes Z, Farkas N, Preda I,
Research Institute for Technical Physics and Materials Science, Budapest,
Hungary.
Basic Res Cardiol 2001 Jul;96(4):405-14.
Recording locations in multichannel magnetocardiography and body surface
potential mapping sensitive for regional exercise-induced myocardial
ischemia.
Hanninen H, Takala P, Makijarvi M, Montonen J, Korhonen P, Oikarinen L, Simelius K, Nenonen J, Katila T, Toivonen L,
Helsinki University Central Hospital, Division of Cardiology,
Cardiovascular Laboratory, Finland. hahannin@sci.fi
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
J Electrocardiol 2002;35 Suppl:1-5.
Electrocardiographic potential correlations: rationale and basis for lead
selection and ECG estimation.
Lux RL,
Nora Eccles Harrison Cardiovascular Research and Training Institute,
University of Utah, Salt Lake City 84112-5000, USA. lux@cvrti.utah.edu
J Electrocardiol 2002;35 Suppl:7-12.
How many electrodes and where? A "poldermodel" for electrocardiography.
Kors JA, van Herpen G,
Department of Medical Informatics, Faculty of Medicine and Health
Sciences, Erasmus University, Rotterdam, The Netherlands.
kors@mi.fgg.eur.nl
J Electrocardiol 2002;35 Suppl:41-52.
Statistical and deterministic approaches to designing transformations of
electrocardiographic leads.
Horacek BM, Warren JW, Feild DQ, Feldman CL,
Faculty of Medicine of Dalhousie University, Halifax, Nova Scotia, Canada.
milan.horacek@dal.ca