Decrease in the high frequency QRS components depending on the local conduction delay.
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M. Yamaki | I. Kubota | H. Tomoike | T. Watanabe | I Kubota | T Watanabe | M Yamaki | H Tachibana | H Tomoike | H. Tachibana
[1] R J Cohen,et al. Detection of transient myocardial ischemia by computer analysis of standard and signal-averaged high-frequency electrocardiograms in patients undergoing percutaneous transluminal coronary angioplasty. , 1987, Circulation.
[2] M. Yamaki,et al. Electrophysiologic effects of sodium channel blockade on anisotropic conduction and conduction block in canine myocardium: preferential slowing of longitudinal conduction by flecainide versus disopyramide or lidocaine. , 1997, Journal of the American College of Cardiology.
[3] D B Geselowitz,et al. Wide band recording of the electrocardiogram and coronary heart disease. , 1973, American heart journal.
[4] C. Kervancıoğlu,et al. Effects of percutaneous transluminal coronary angioplasty on late potentials and high frequency mid-QRS potentials. , 1994, Cardiology.
[5] A L Goldberger,et al. Effect of myocardial infarction on the peak amplitude of high frequency QRS potentials. , 1980, Journal of electrocardiology.
[6] D. VanFossen,et al. Exercise-induced QRS prolongation in patients with coronary artery disease: a marker of myocardial ischemia. , 1993, American heart journal.
[7] A. Kleber. Extracellular potassium accumulation in acute myocardial ischemia. , 1984, Journal of molecular and cellular cardiology.
[8] M. Yamaki,et al. Relation between localization of coronary artery disease and local abnormalities in ventricular activation during exercise tests. , 1990, Circulation.
[9] 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.
[10] S Abboud,et al. High-frequency electrocardiogram analysis of the entire QRS in the diagnosis and assessment of coronary artery disease. , 1993, Progress in cardiovascular diseases.
[11] M. Yamaki,et al. Role of ATP‐Sensitive K+ Channel on ECG ST Segment Elevation During a Bout of Myocardial Ischemia A Study on Epicardial Mapping in Dogs , 1993, Circulation.
[12] G. Anderson,et al. The high frequency electrocardiogram in coronary artery disease. , 1975, American heart journal.
[13] Susan B. Johnson,et al. Direct quantification of apparent binding indices from quinidine-induced in vivo conduction delay in canine myocardium. , 1994, The Journal of clinical investigation.
[14] L. Horan,et al. The Anatomic Basis for High‐Frequency Components in the Electrocardiogram , 1969, Circulation.
[15] D. Lenihan,et al. Frequency of late potentials on signal-averaged electrocardiograms during thallium stress testing in coronary artery disease. , 1992, The American journal of cardiology.
[16] S. Abboud,et al. Simulation of high-resolution QRS complex using a ventricular model with a fractal conduction system. Effects of ischemia on high-frequency QRS potentials. , 1991, Circulation research.
[17] M. Yamaki,et al. Spectral Analysis of 87‐Lead Body Surface Signal‐Averaged ECGs in Patients With Previous Anterior Myocardial Infarction as a Marker of Ventricular Tachycardia , 1992, Circulation.
[18] M. Yamaki,et al. Improved diagnostic performance on the severity of left ventricular hypertrophy with body surface mapping. , 1989, Circulation.
[19] S. Akselrod,et al. Effects of coronary occlusion on high-frequency content of the epicardial electrogram and body surface electrocardiogram. , 1987, Circulation.
[20] K. Ikeda,et al. Relationship between late potentials and left ventricular function in patients with coronary artery disease. , 1988, Japanese circulation journal.
[21] A L Goldberger,et al. Effect of Myocardial Infarction on High‐frequency QRS Potentials , 1981, Circulation.
[22] S Abboud,et al. High frequency electrocardiography using an advanced method of signal averaging for non-invasive detection of coronary artery disease in patients with normal conventional electrocardiogram. , 1986, Journal of electrocardiology.
[23] V Bhargava,et al. Myocardial infarction diminishes both low and high frequency QRS potentials: power spectrum analysis of lead II. , 1981, Journal of electrocardiology.
[24] Y Rudy,et al. Electrophysiologic effects of acute myocardial ischemia. A mechanistic investigation of action potential conduction and conduction failure. , 1997, Circulation research.
[25] M. Yamaki,et al. Detection of local abnormalities in ventricular activation sequence by body surface isochrone mapping in patients with previous myocardial infarction. , 1985, Circulation.
[26] L. Horan,et al. Localization of the Site of Myocardial Scarring in Man by High‐Frequency Components , 1969, Circulation.