This book represents the proceedings of the 3rd International Symposium on Body Surface Mapping (BSM) held at Nijmegen; the Netherlands, from 11th to 13th of June, 1985, under the auspices of the International Council on Electrocardiology. This meeting brought together a group of international scientists en gaged in the field of the study of electrocardiographic body surface po tentials. Previous meetings of this kind took place at Burlington, Vt; U.S.A. in 1972, organized by Rush and Lepeschkin, and in 1982 at Tokyo or ganized by Yamada, Harumi and Musha. The special aims of this 3rd…mehr
This book represents the proceedings of the 3rd International Symposium on Body Surface Mapping (BSM) held at Nijmegen; the Netherlands, from 11th to 13th of June, 1985, under the auspices of the International Council on Electrocardiology. This meeting brought together a group of international scientists en gaged in the field of the study of electrocardiographic body surface po tentials. Previous meetings of this kind took place at Burlington, Vt; U.S.A. in 1972, organized by Rush and Lepeschkin, and in 1982 at Tokyo or ganized by Yamada, Harumi and Musha. The special aims of this 3rd International Symposium were: - to take stock of recent theoretical, technical, clinical and analytical advances - to discuss and stimulate future developments with respect to internatio nal cooperation - to discuss promising clinical applications of the BSM technique A number of scientists engaged in this field had been invited to parti cipate in this meeting, either by presenting a formal, introductory lec ture, or by presenting a poster devoted to their more recent work. The ~n vitation list was made up following suggestions of the scientific com mittee for this meeting, the members of which were: (Parma; Italy) Prof.Dr. B. Taccardi Prof.Dr. F.A. Roberge (Montreal; Canada) Prof.Dr. A. van Oosterom (Nijmegen; The Netherlands). The organizing committee noted with great satisfaction that almost all people invited were indeed able to attend.
1 Normals.- 1: Present and future of body surface electro-cardiographic mapping.- 2: Features of body surface potential maps from a large normal population.- 3: Evolution of body surface potentials in the healthy newborn during the first week of life.- 4: Recognition of epicardial breakthrough by body surface isopotential mapping.- 2 Myocardial Infarction.- 5: Isopotential mapping in acute myocardial infarction.- 6: Body surface isopotential maps in old anterior myocardial infarction undetectable by 12 lead electrocardiograms.- 7: Body surface map criteria for quantitating infarct as derived from computer simulations.- 8: Body surface mapping: contribution and limits for the diagnosis of right ventricular myocardial infarction in patients with posterior, inferior or deep septal left ventricular myocardial infarction.- 9: The diagnostic performances of visual examination of BSM and of ECG/VCG in the identification of chronically infarcted left ventricular segments.- 3 Conduction Distubances.- 10: Body surface potential mapping in conduction abnormalities.- 11: Validation (test set) of a method for detecting associated heart conditions in LBBB by means of BSM.- 12: Localization of pre-excitation sites in the Wolff-Parkinson-White syndrome by body surface potential mapping and a single moving dipole representation.- 13: Comparison of body surface mapping and phase display methods to localize bypass pathways in Wolff-Parkinson-White syndrome.- 14: Body surface map and location of origin of ventricular tachycardia. Comparison with epicardial map.- 15: Localization of cardiac electrical activity by a single moving dipole for ventricular tachycardia in dog: validation by epicardial activation mapping.- 16: Isointegral analysis of body surface maps of ventricular premature beats.- 17: Chest mapping in the evaluation of pseudoischemic T waves related to intermittent left bundle branch block.- 4 Recording and Display Techniques.- 18: Continuous digital recording of 240 ECG leads for body surface potential mapping.- 19: Grid of electrodes used at the institute of general physiology, Parma, Italy.- 20: Towards a common DATA-FORMAT in Cardiac potential mapping.- 21: Proposal for "standardization of the body surface potential mapping system".- 22: Data representation problems of body surface potential mapping.- 23: The display of body surface maps.- 5 Data Analysis.- 24: Use of orthogonal expansions for representing body surface potential maps.- 25: Multivariate analysis of body surface potential maps for the diagnosis of myocardial infarction before and after temporal and spatial data reduction.- 26: Orthogonal expansion of epicardial and body surface ECG potentials.- 27: Usefulness of time-integral analysis of body surface potential maps.- 28: Do body surface maps contain more information than the ECG?.- 29: Representation of electrocardiographic body surface maps by cylindrical regression coefficients.- 30: Automated quantitative vectorcardiography: the Louvain VCG-computer program.- 31: Quantitative vectorcardiography. A spatial approach as the basis of a new diagnostic logic.- 6 Model Studies.- 32: Forward problem simulations of the Wolff-Parkinson-White syndrome with a multiple- dipole heart model.- 33: The relationship between body surface and epicardial potentials: a theoretical model study.- 34: Accuracy of epicardial potentials inversely reconstructed from body surface measurements.- 35 Comparison of several solutions of the forward potential problem for a finite conducting cylinder.- 36: 3-dimensional propagation model for simulationof the ventricular depolarization processes and induced body surface potentials.- 37: Moving dipole analysis in normal and myocardial infarction.- Discussion.- Authors Index.- List of Addresses.
1 Normals.- 1: Present and future of body surface electro-cardiographic mapping.- 2: Features of body surface potential maps from a large normal population.- 3: Evolution of body surface potentials in the healthy newborn during the first week of life.- 4: Recognition of epicardial breakthrough by body surface isopotential mapping.- 2 Myocardial Infarction.- 5: Isopotential mapping in acute myocardial infarction.- 6: Body surface isopotential maps in old anterior myocardial infarction undetectable by 12 lead electrocardiograms.- 7: Body surface map criteria for quantitating infarct as derived from computer simulations.- 8: Body surface mapping: contribution and limits for the diagnosis of right ventricular myocardial infarction in patients with posterior, inferior or deep septal left ventricular myocardial infarction.- 9: The diagnostic performances of visual examination of BSM and of ECG/VCG in the identification of chronically infarcted left ventricular segments.- 3 Conduction Distubances.- 10: Body surface potential mapping in conduction abnormalities.- 11: Validation (test set) of a method for detecting associated heart conditions in LBBB by means of BSM.- 12: Localization of pre-excitation sites in the Wolff-Parkinson-White syndrome by body surface potential mapping and a single moving dipole representation.- 13: Comparison of body surface mapping and phase display methods to localize bypass pathways in Wolff-Parkinson-White syndrome.- 14: Body surface map and location of origin of ventricular tachycardia. Comparison with epicardial map.- 15: Localization of cardiac electrical activity by a single moving dipole for ventricular tachycardia in dog: validation by epicardial activation mapping.- 16: Isointegral analysis of body surface maps of ventricular premature beats.- 17: Chest mapping in the evaluation of pseudoischemic T waves related to intermittent left bundle branch block.- 4 Recording and Display Techniques.- 18: Continuous digital recording of 240 ECG leads for body surface potential mapping.- 19: Grid of electrodes used at the institute of general physiology, Parma, Italy.- 20: Towards a common DATA-FORMAT in Cardiac potential mapping.- 21: Proposal for "standardization of the body surface potential mapping system".- 22: Data representation problems of body surface potential mapping.- 23: The display of body surface maps.- 5 Data Analysis.- 24: Use of orthogonal expansions for representing body surface potential maps.- 25: Multivariate analysis of body surface potential maps for the diagnosis of myocardial infarction before and after temporal and spatial data reduction.- 26: Orthogonal expansion of epicardial and body surface ECG potentials.- 27: Usefulness of time-integral analysis of body surface potential maps.- 28: Do body surface maps contain more information than the ECG?.- 29: Representation of electrocardiographic body surface maps by cylindrical regression coefficients.- 30: Automated quantitative vectorcardiography: the Louvain VCG-computer program.- 31: Quantitative vectorcardiography. A spatial approach as the basis of a new diagnostic logic.- 6 Model Studies.- 32: Forward problem simulations of the Wolff-Parkinson-White syndrome with a multiple- dipole heart model.- 33: The relationship between body surface and epicardial potentials: a theoretical model study.- 34: Accuracy of epicardial potentials inversely reconstructed from body surface measurements.- 35 Comparison of several solutions of the forward potential problem for a finite conducting cylinder.- 36: 3-dimensional propagation model for simulationof the ventricular depolarization processes and induced body surface potentials.- 37: Moving dipole analysis in normal and myocardial infarction.- Discussion.- Authors Index.- List of Addresses.
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