Variations in Human Atrial Flutter Cycle Length Induced by Ventricular Beats: Evidence of a Reentrant Circuit with a Partially Excitable Gap

Variations in Atrial Flutter Cycle Length. Introduction: The purpose of this investigation was to study the mechanisms responsible for small variations in atrial flutter cycle lengths. Methods and Results: In a study group of 11 patients with common atrial flutter, atrial electrograms were recorded from an intraesophageal lead together with a surface lead (V1). Upon the onset of the QRS complex, atrial flutter intervals consistently increased by an average of 1.8% (SD± 0.9; P <0.01) and subsequently decreased by 2.1% (SD ± 0.8; P <0.01) before returning to the average flutter rate. Carotid sinus massage, which temporally prevented ventricular activation, markedly reduced the variations in atrial flutter intervals. Ventricular pacing at different rates clearly demonstrated that the pattern in atrial flutter intervals was coupled to the moment of ventricular contraction. The hypothesis was formulated that these periodic variations in atrial flutter intervals following a ventricular contraction were caused by the influence of stretch of the atrial myocardium on the conduction properties of a circulating impulse in the atrium. The secondary decrease in flutter rate could be explained if a partial excitable gap is assumed between head and tail of the circus movement. This hypothesis was tested in a simulation study, which revealed that the alternation in intervals as found in patients could only be reproduced if the excitable gap in the circus movement was partially excitable. Conclusion: In conclusion, the analysis of variations in atrial flutter cycle lengths points to a mechanism of circus movement with a partially excitable gap in common atrial flutter.

[1]  F. Solti,et al.  The effect of atrial dilatation on the genesis of atrial arrhythmias. , 1989, Cardiovascular research.

[2]  A. L. Wit,et al.  Electrophysiological Properties of Cardiac Muscle in the Anterior Mitral Valve Leaflet and the Adjacent Atrium in the Dog: POSSIBLE IMPLICATIONS FOR THE GENESIS OF ATRIAL DYSRHYTHMIAS , 1973, Circulation research.

[3]  B. Hoffman,et al.  Effects of stretch on mechanical and electrical properties of cardiac muscle , 1963 .

[4]  M. Allessie,et al.  Effects of anisotropy on functional reentrant circuits: preliminary results of computer simulation studies , 1987 .

[5]  A L Waldo,et al.  Characterization of Atrial Flutter: Studies in Man After Open Heart Surgery Using Fixed Atrial Electrodes , 1979, Circulation.

[6]  S. Zoneraich,et al.  Atrial flutter. Electrocardiographic, vectorcardiographic and echocardiographic correlation. , 1978, American Heart Journal.

[7]  E. Lepeschkin,et al.  The Effect of Ventricular Systole on Auricular Rhythm in Auriculoventricular Block , 1955, Circulation.

[8]  M. Matsuzaki,et al.  Importance of Left Atrial Function in Patients with Myocardial Infarction , 1983, Circulation.

[9]  J. Murray,et al.  Quantitative Angiocardiography: II. The Normal Left Atrial Volume in Man , 1968, Circulation.

[10]  N. Drinković Subcostal M-mode echocardiography of the right atrial wall in the diagnosis of cardiac arrhythmias. , 1982, The American journal of cardiology.

[11]  M J Lab,et al.  Transient depolarisation and action potential alterations following mechanical changes in isolated myocardium. , 1980, Cardiovascular research.

[12]  K. Rosen,et al.  Simulation of atrial flutter by rapid coronary sinus pacing. , 1969, American heart journal.

[13]  N. Kouchoukos,et al.  Entrainment and Interruption of Atrial Flutter with Atrial Pacing: Studies in Man Following Open Heart Surgery , 1977, Circulation.

[14]  M. Rosen,et al.  Developmental changes in impulse conduction in the canine heart. , 1981, The American journal of physiology.

[15]  S. Zoneraich,et al.  Echocardiographic Findings in Atrial Flutter , 1975, Circulation.

[16]  M. Reiter,et al.  Electrophysiological Effects of Acute Ventricular Dilatation in the Isolated Rabbit Heart , 1988, Circulation research.

[17]  M. Allessie,et al.  Intra-atrial reentry as a mechanism for atrial flutter induced by acetylcholine and rapid pacing in the dog. , 1984, Circulation.

[18]  I. R. Roth,et al.  The mechanism of irregular sinus rhythm in auriculoventricular heart block. , 1948, American heart journal.

[19]  H. Wellens,et al.  The Electrocardiogram in Digitalis Intoxication , 1981 .

[20]  William Grossman,et al.  Cardiac catheterization and angiography , 1974 .

[21]  H. Wellens Value and limitations of programmed electrical stimulation of the heart in the study and treatment of tachycardias. , 1971, Circulation.

[22]  M. Disertori,et al.  Evidence of a Reentry Circuit in the Common Type of Atrial Flutter in Man , 1983, Circulation.

[23]  D. Scherf,et al.  Effect of Stretch and Pressure on Stimulus Formation in the Dog's Auricle. , 1949, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.