INVASIVE-CONTROL (9) Heart Conduction System/physiopathology (7) Heart Ventricles/physiopathology (6) Cardiac Pacing, Artificial (4) Vectorcardiography (3) Body Surface Area (3) Catheter Ablation (3) Action Potentials (3) Echocardiography (2) Atrioventricular Node/physiopathology (2) Electrodes, Implanted (2) Models, Cardiovascular (2) ECGI (2) REPOLARIZATION (2) Diagnosis, Computer-Assisted (1) Synaptic Transmission (1) Myocardial Contraction (1) Atropine (1) Vectorcardiography/methods (1) REVIEW (1) Heart Ventricles/surgery (1) INFANT (1) Wolff-Parkinson-White Syndrome/physiopathology (1) ANIMALS (1) Heart Catheterization (1) CASE (1) ECHOCARDIOGRAPHY (1) DESCRIPTIVE (1) Heart Septum/physiopathology (1) Minicomputers (1) SINGLE-MOVING-DIPOLE (1) Technetium (1) ATRIAL-PACING (1) SCINTIGRAPHY (1) Heart/physiopathology (1) SVD (1) Myocardial Infarction/diagnosis (1) Diagnosis, Differential (1) Bundle-Branch Block/diagnosis (1) Heart Block/diagnosis (1) Heart Ventricles/physiopathology/radionuclide imaging (1) Image Enhancement (1) Anti-Arrhythmia Agents (1) Anti-Arrhythmia Agents/therapeutic use (1) MI-DIAGNOSTIC (1) Pre-Excitation Syndromes/physiopathology (1) QRSTI (1) Heart Ventricles (1) MI (1) Bundle-Branch Block/physiopathology (1) Gated Blood-Pool Imaging (1) Thorax (1) Pericardium/physiopathology (1) PACE-MAPPING (1) Magnetic Resonance Imaging (1) Heart Ventricles/innervation (1) MAGNETOCARDIOGRAPHY (1) QRSI (1) Ventricular Function (1) MEMORY (1)
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Body surface isopotential mapping in Wolff-Parkinson-White syndrome:
noninvasive method to determine the localization of the accessory
atrioventricular pathway.
Yamada K, Toyama J, Wada M, Sugiyama S, Sugenoya J,
NIL
Circulation 1976 Aug;54(2):251-63.
Body-surface maps of heart potentials: tentative localization of
pre-excited areas in forty-two Wolff-Parkinson-White patients.
De Ambroggi L, Taccardi B, Macchi E,
NIL
Adv Cardiol 1978;21:31-5.
An experimental study of the WPW syndrome-relationship between body
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Oguri H, Wada M, Niimi N, Toyama J, Yamada K,
NIL
Adv Cardiol 1978;21:36-9.
Criteria for localizing preexcited areas from body surface maps in
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NIL
Jpn Circ J 1978 Jan;42(1):65-75.
[Experimental and clinical study of WPW syndrome--detection of
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Oguri H,
NIL
J Electrocardiol 1979;12(2):187-95.
Body surface potential distributions in posterior ventricular
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Oguri H, Wada M, Sugenoya J, Ohno M, Toyoshima H, Toyama J, Yamada K, Ohta T,
NIL
Nippon Rinsho 1979;37(11):3707-14.
[Body surface area mapping in WPW syndrome]
Harumi K, Tsutsumi T, Nagata H, Kato T, Izumo K, Tsunakawa H, Masumi S, Matsumoto H, Kanesaka S, Tsunekawa J, Musha T, Teramachi Y, Okamoto Y,
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
J Electrocardiol 1980;13(3):237-44.
Body surface distribution of QRS deflection areas in experimental
ventricular preexcitation.
Oguri H, Lux RL, Burgess MJ, Wyatt RF, Abildskov JA,
NIL
Circulation 1980 Jun;61(6):1256-61.
Corrected transposition with severe intracardiac deformities with
Wolff-Parkinson-White syndrome in a child. Electrophysiologic
investigation and surgical correction.
Benson DW Jr, Gallagher JJ, Oldham HN, Sealy WC, Sterba R, Spach MS,
NIL
J Thorac Cardiovasc Surg 1980 Aug;80(2):271-9.
Localization and interruption of accessory conduction pathway in the
Wolff-Parkinson-White syndrome.
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NIL
Jpn J Surg 1981;11(4):297-304.
Surgical treatment of the Wolff-Parkinson-White syndrome in infants and
children.
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NIL
Jpn Circ J 1981 Apr;45(4):483-90.
Experimental and clinical study of the pre-excitation syndrome.
Iwa T, Misaki T, Magara T,
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
Kokyu To Junkan 1981 Oct;29(10):1085-9.
[Correlation between localization of accessory conduction pathway and body
surface maps in the Wolff-Parkinson-White syndrome (author's transl)]
Magara T, Iwa T, Kobayashi H, Misaki T, Iwase T, Kawasuji M,
NIL
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 1984 Apr;32(4):535-45.
[Correlation between body surface isopotential maps and location of
accessory conduction pathways in Wolff-Parkinson-White syndrome]
Magara 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 Cardiogr 1984 Dec;14(4):815-21.
Effect of atrial pacing on phase analysis in patients with the
Wolff-Parkinson-White syndrome.
Magosaki N, Hiroe M, Kasanuki H, Ohnishi S, Tanaka E, Horie T, Kusakabe K, Kondo M, Hirosawa K,
NIL
Cor Vasa 1985;27(4):293-303.
Determination of the preexcitation focus in the W-P-W picture by
isopotential body-surface mapping.
Cagan S, Filipova S, Jurkovicova O, Kucharova L,
NIL
J Electrocardiol 1985 Apr;18(2):157-67.
A quantitative method for the localization of the ventricular
pre-excitation area in the Wolff-Parkinson-White syndrome using singular
value decomposition of body surface potentials.
Groenewegen AS, Spekhorst HH, Reek EJ,
NIL
Am Heart J 1986 May;111(5):891-902.
Wolff-Parkinson-White VCG patterns that mimic other cardiac pathologies: a
correlative study with the preexcitation pathway localization.
Giorgi C, Ackaoui A, Nadeau R, Savard P, Primeau R, Page P,
NIL
Circulation 1986 Jul;74(1):89-96.
The role of initial minimum potentials on body surface maps in predicting
the site of accessory pathways in patients with Wolff-Parkinson-White
syndrome.
Kamakura S, Shimomura K, Ohe T, Matsuhisa M, Toyoshima H,
NIL
Nucl Med Commun 1986 Jul;7(7):497-504.
Detection and localization of ventricular preexcitation in
Wolff-Parkinson-White syndrome (comparative study with body surface
mapping).
Mester J, Preda I, Kozmann G, Mate E, Regos L, Toth K, Marosi G, Antaloczy Z, Csernay L,
NIL
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 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.
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.
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.
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.
Am Heart J 1991 Apr;121(4 Pt 1):1240-3.
Body surface potential mapping in the evaluation of coexisting old
myocardial infarction and ventricular preexcitation.
Giorgi C, Nadeau R, Savard P, Shenasa M, Page PL, Cardinal R,
Research Center, Hopital du Sacre-Coeur de Montreal, Universite de
Montreal, Quebec, Canada.
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.
Jpn Circ J 1991 Jul;55(7):685-91.
Comparative study of five preoperative methods for the localization of
accessory pathways in the Wolff-Parkinson-White syndrome.
Yuan SW, Iwa T, Misaki T, Mukai K, Matsunaga Y, Bando H, Nakajima K, Numa T,
Department of Surgery (I), Kanazawa University, Japan.
Pol Arch Med Wewn 1992 Aug-Sep;88(2-3):116-26.
[Multi-electrode mapping from thoracic surface in patients with
Wolff-Parkinson-White syndrome]
Jedynak Z, Walczak F, Marcisz-Szufladowicz E, Kepski R, Rydlewska-Sadowska W,
Instytut Kardiologii, Warszawie.
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.
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.
Clin Cardiol 1994 May;17(5):239-44.
Noninvasive localization of accessory pathways by magnetocardiographic
imaging.
Nomura M, Nakaya Y, Saito K, Kishi F, Watatsuki T, Miyoshi H, Nishikado A, Bando S, Ito S, Nishitani H, et al.,
Second Department of Internal Medicine, School of Medicine, University of
Tokushima, Japan.
Nippon Ika Daigaku Zasshi 1994 Oct;61(5):435-42.
[Estimation of localization of the accessory pathway in WPW syndrome with
a standard 12 lead electrocardiogram. Development of new criteria for
children]
Katsube Y, Ogawa S, Seki T, Hirayama T,
Department of Pediatrics, Nippon Medical School Hospital, Tokyo, Japan.
Nippon Rinsho 1995 Jan;53(1):106-12.
[Evaluation of repolarization abnormalities in patients with WPW syndrome
by QRST isointegral maps]
Hirai M,
First Department of Internal Medicine, University of Nagoya School of
Medicine.
Nippon Rinsho 1995 Jan;53(1):113-8.
[Localization of accessory pathway in Wolff-Parkinson-White syndrome using
body surface mapping]
Nirei T,
Department of Cardiology, Heart Institute of Japan, Tokyo Women's Medical
College.
Nippon Rinsho 1995 Jan;53(1):119-26.
[Usefulness of body surface potential maps to determine ablation site in
patients with WPW syndrome]
Misaki T, Watanabe G, Fujiki A,
Department of Surgery I, Toyama Medical and Pharmaceutical University.
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.
Bratisl Lek Listy 1995 Apr;96(4):210-6.
[Location of atrial and ventricular insertions of accessory
atrioventricular pathways using surface ECG mapping and its importance in
catheter ablation therapy]
Bernadic M, Hatala R, Kaltenbrunner W, Tysler M, Steinbach K, Hulin I,
Ustav patologickej fyziologie LFUK, Bratislave, Slovakia.
J Electrocardiol 1995 Oct;28(4):334-5.
Clinical applications of BSM.
Nadeau R, Savard P, Gulrajani R, Cardinal R, Molin F, Page P,
Hopital du Sacre-Coeur de Montreal, Department of Medicine, Canada.
Am J Cardiol 1996 Jan 1;77(1):59-63.
Body surface distribution of significant changes in QRST time-integral
values after radiofrequency catheter ablation in patients with
Wolff-Parkinson-White syndrome.
Tomita Y, Hirai M, Yanagawa T, Sano H, Kondo T, Inden Y, Ichihara Y, Hayashi H, Tsuboi N, Hirayama H, Ito T, Saito H,
First Department of Internal Medicine, Nagoya University School of
Medicine, Japan.
J Electrocardiol 1996 Apr;29(2):139-47.
Body surface potential mapping of a patient with Wolff-Parkinson-White
syndrome with two accessory pathways and two atrial pacemaker complexes.
Lamothe MJ, Stroink G, Gardner MJ,
Department of Physics, Dalhousie University, Halifax, Nova Scotia, Canada.
J Electrocardiol 1996 Oct;29(4):301-8.
Relationship between QRS duration and repolarization abnormalities in
patients with Wolff-Parkinson-White syndrome.
Inaba-Sato F, Hirai M, Hayashi H, Yoshida Y, Yanagawa T, Tomita Y, Iwata K, Abe K, Terazawa M, Akahoshi M, Sugino M, Saito H,
First Department of Internal Medicine, University of Nagoya School of
Medicine, Japan.
Circulation 1997 Sep 2;96(5):1566-74.
Body-surface distribution of changes in activation-recovery intervals
before and after catheter ablation in patients with Wolff-Parkinson-White
syndrome: clinical evidence for ventricular 'electrical remodeling' with
prolongation of action-potential duration over a preexcited area.
Akahoshi M, Hirai M, Inden Y, Sano H, Shimizu A, Kondo T, Makino M, Horiba M, Yoshida Y, Tsuboi N, Hirayama H, Ito T, Hayashi H, Saito H,
First Department of Internal Medicine, University of Nagoya School of
Medicine, Japan.
J Electrocardiol 1997 Oct;30(4):323-9.
Cardiac memory in patients with intermittent Wolff-Parkinson-White
syndrome.
Nirei T, Kasanuki H, Ohnishi S, Tamaki A, Toyoshima Y, Hosoda S,
Department of Cardiology, the Heart Institute of Japan, Tokyo Women's
Medical College.