Electrophysiologic and anatomic basis for fractionated electrograms recorded from healed myocardial infarcts.
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P. Ursell | A. L. Wit | J. Fenoglio | A L Wit | P C Ursell | J J Fenoglio | P. Gardner | P I Gardner
[1] B. Eisenberg,et al. Stereological analysis of mammalian skeletal muscle. I. Soleus muscle of the adult guinea pig. , 1974 .
[2] L. Horowitz,et al. Recurrent Sustained Ventricular Tachycardia: 2. Endocardial Mapping , 1978, Circulation.
[3] L. Horowitz,et al. Epicardial and Endocardial Activation During Sustained Ventricular Tachycardia in Man , 1980, Circulation.
[4] J. Spear,et al. Cellular electrophysiologic characteristics of chronically infarcted myocardium in dogs susceptible to sustained ventricular tachyarrhythmias. , 1983, Journal of the American College of Cardiology.
[5] A. S. Harris. Delayed Development of Ventricular Ectopic Rhythms following Experimental Coronary Occlusion , 1950, Circulation.
[6] I. Wiener,et al. Fragmented endocardial electrical activity in patients with ventricular tachycardia: A new guide to surgical therapy , 1984 .
[7] A. L. Wit,et al. Time Course for Reversal of Electrophysiological and Ultrastructural Abnormalities in Subendocardial Purkinje Fibers Surviving Extensive Myocardial Infarction in Dogs , 1975, Circulation research.
[8] A H Harken,et al. Recurrent sustained ventricular tachycardia: structure and ultrastructure of subendocardial regions in which tachycardia originates. , 1983, Circulation.
[9] J. Boineau,et al. Comparison of Human Ventricular Activation with a Canine Model in Chronic Myocardial Infarction , 1971, Circulation.
[10] R. Sung,et al. Long-term electrophysiological abnormalities resulting from experimental myocardial infarction in cats. , 1977, Circulation research.
[11] D. Durrer,et al. The electrocardiogram in normal and some abnormal conditions; in revived human fetal heart and in acute and chronic coronary occlusion. , 1961, American heart journal.
[12] H. Karagueuzian,et al. Protracted Ventricular Tachycardia Induced by Premature Stimulation of the Canine Heart after Coronary Artery Occlusion and Reperfusion , 1979 .
[13] R C Barr,et al. Cardiac Extracellular Potentials: Analysis of Complex Wave Forms about the Purkinje Networks in Dogs , 1973, Circulation research.
[14] A. Waldo,et al. A Study of Ventricular Arrhythmias Associated with Acute Myocardial Infarction in the Canine Heart , 1973, Circulation.
[15] D. Geselowitz,et al. The Discontinuous Nature of Propagation in Normal Canine Cardiac Muscle: Evidence for Recurrent Discontinuities of Intracellular Resistance that Affect the Membrane Currents , 1981, Circulation research.
[16] I Wiener,et al. Determinants of Ventricular Tachycardia in Patients with Ventricular Aneurysms: Results of Intraoperative Epicardial and Endocardial Mapping , 1982, Circulation.
[17] J Jalife,et al. Excitation, Conduction, and Reflection Impulses in Isolated Bovine and Canine Cardiac Purkinje Fibers , 1981, Circulation research.
[18] D. Brody,et al. Microelectrode Study of Delayed Conduction in the Canine Right Bundle Branch , 1968, Circulation research.
[19] A L Waldo,et al. Intraoperative Electrophysiologic Mapping of the Ventricles During Sinus Rhythm in Patients with a Previous Myocardial Infarction Identification of the Electrophysiologic Substrate of Ventricular Arrhythmias , 1982, Circulation.
[20] J J Gallagher,et al. Techniques of intraoperative electrophysiologic mapping. , 1982, The American journal of cardiology.
[21] J M Kootsey,et al. Low conduction in cardiac muscle. Biophysical model. , 1973, Biophysical journal.
[22] A. L. Wit,et al. Survival of Subendocardial Purkinje Fibers after Extensive Myocardial Infarction in Dogs: IN VITRO AND IN VIVO CORRELATIONS , 1973, Circulation research.
[23] M. Allessie,et al. Electrophysiologic mapping to determine the mechanism of experimental ventricular tachycardia initiated by premature impulses. Experimental approach and initial results demonstrating reentrant excitation. , 1982, The American journal of cardiology.
[24] R. Sung,et al. Significance of Fragmented Ventricular Electrograms Observed Using Intracardiac Recording Techniques in Man , 1980, Circulation.
[25] R. Lazzara,et al. Role of the Slow Current in the Generation of Arrhythmias in Ischemic Myocardium , 1980 .
[26] L. Horowitz,et al. Continuous Local Electrical Activity: A Mechanism of Recurrent Ventricular Tachycardia , 1978, Circulation.
[27] A. Waldo,et al. Surgical treatment of life-threatening ventricular arrhythmias: the role of intraoperative mapping and consideration of the presently available surgical techniques. , 1981, Progress in cardiovascular diseases.
[28] N. El-Sherif,et al. Canine Ventricular Arrhythmias in the Late Myocardial Infarction Period , 1981, Circulation research.
[29] M S Spach,et al. The Functional Role of Structural Complexities in the Propagation of Depolarization in the Atrium of the Dog: Cardiac Conduction Disturbances Due to Discontinuities of Effective Axial Resistivity , 1982, Circulation research.
[30] D. Durrer,et al. EPICARDIAL AND INTRAMURAL EXCITATION IN CHRONIC MYOCARDIAL INFARCTION. , 1964, American heart journal.
[31] R. W. Joyner,et al. Propagation through electrically coupled cells. Effects of a resistive barrier. , 1984, Biophysical journal.
[32] J. Boineau,et al. Slow Ventricular Activation in Acute Myocardial Infarction: A Source of Re‐entrant Premature Ventricular Contractions , 1973, Circulation.
[33] R C Barr,et al. Extracellular Potentials Related to Intracellular Action Potentials in the Dog Purkinje System , 1972, Circulation research.
[34] I. Wiener,et al. Fragmented endocardial electrical activity in patients with ventricular tachycardia: a new guide to surgical therapy. , 1982, American heart journal.
[35] C Antzelevitch,et al. Characteristics of Reflection as a Mechanism of Reentrant Arrhythmias and Its Relationship to Parasystole , 1980, Circulation.
[36] R. Ideker,et al. Late Fractionated Potentials and Continuous Electrical Activity Caused by Electrode Motion , 1983, Pacing and clinical electrophysiology : PACE.
[37] J A Vassallo,et al. The value of catheter mapping during sinus rhythm to localize site of origin of ventricular tachycardia. , 1984, Circulation.
[38] J. Spear,et al. Reduced Space Constant in Slowly Conducting Regions of Chronically Infarcted Canine Myocardium , 1983, Circulation research.
[39] L. Horowitz,et al. Role of catheter mapping in the preoperative evaluation of ventricular tachycardia. , 1982, The American journal of cardiology.
[40] A. L. Wit,et al. Conduction of the Cardiac Impulse III. Characteristics of very slow conduction , 1972 .
[41] J. Bandura. The Role of Electrotonus in Slow Potential Development and Conduction in Canine Purkinje Tissue , 1980 .
[42] A. L. Wit,et al. Slow Conduction and Reentry in the Ventricular Conducting System: I. RETURN EXTASYSTOLE IN CANINE PURKINJE FIBERS , 1972, Circulation research.
[43] D. B. Heppner,et al. Simulation of electrical interaction of cardiac cells. , 1970, Biophysical journal.
[44] R. W. Joyner,et al. Effects of the Discrete Pattern of Electrical Coupling on Propagation through an Electrical Syncytium , 1982, Circulation research.
[45] M. Josephson,et al. Endocardial mapping in humans in sinus rhythm with normal left ventricles: activation patterns and characteristics of electrograms. , 1984, Circulation.