Left Atrial Tachycardia Originating From the Mitral Annulus—Aorta Junction

Background—At the mitral annulus–aorta (MA-Ao) junction, the left atrium is continuous through the subaortic curtain with the musculature of the anterior mitral leaflet. Under experimental conditions, this region can generate abnormal electrical activity. In patients with left atrial tachycardia, we investigated whether this region could be the source of this arrhythmia. Methods and Results—In 10 (28%) of 35 consecutive patients with left atrial tachycardia, the arrhythmia originated from the MA-Ao junction. Sustained, self-limited episodes of atrial tachycardia (cycle length, 340±56 ms; duration, 125±69 seconds) were repeatedly induced. Prematurity of the extrastimulus and time to first atrial tachycardia complex were directly correlated (R=0.66; P<0.001). During tachycardia, bipolar electrograms at the earliest site preceded onset of the P wave by 44±14 ms and were of longer duration and lower amplitude than those recorded from nearby left atrial sites (52±8 versus 24±4 ms, P<0.001; and 0.53±0.08 versus 3.45±0.96 mV, respectively; P<0.001). Ablation eliminated the tachycardia with no recurrence after a mean follow-up of 24±19 months. A comparative study in mouse embryos demonstrated the presence of the developing specialized conduction system in the MA-Ao region starting at embryonic age 11.5. Conclusions—The MA-Ao junction can be a frequent source of left atrial tachycardia. This previously unrecognized site of origin may explain why catheter ablation has been less successful in eliminating left versus right atrial tachycardias. Remnants of the developing specialized conduction system could be the underlying substrate of this arrhythmia.

[1]  G. Fishman,et al.  Embryonic Conduction Tissue: , 2004, Journal of cardiovascular electrophysiology.

[2]  P. Sanders,et al.  Focal atrial tachycardia arising from the mitral annulus: electrocardiographic and electrophysiologic characterization. , 2003, Journal of the American College of Cardiology.

[3]  J. Conti,et al.  Demonstration of a Left Atrial Input to the Atrioventricular Node in Humans , 2002, Circulation.

[4]  N. Marrouche,et al.  Clinical and electrophysiologic characteristics of left septal atrial tachycardia. , 2002, Journal of the American College of Cardiology.

[5]  T. Nakano,et al.  Electrophysiological Features of Atrial Tachycardia Arising from the Atrioventricular Annulus , 2002, Pacing and clinical electrophysiology : PACE.

[6]  M. Gwechenberger,et al.  Ablation of atrial tachycardia originating from the vicinity of the atrioventricular node: significance of mapping both sides of the interatrial septum. , 2001, Journal of the American College of Cardiology.

[7]  J Jalife,et al.  Visualization and functional characterization of the developing murine cardiac conduction system. , 2001, Development.

[8]  M. Arruda,et al.  Transseptal Left Heart Catheterization for Cardiac Ablation Procedures , 2001, Journal of Interventional Cardiac Electrophysiology.

[9]  F. Morady,et al.  A technique for the rapid diagnosis of atrial tachycardia in the electrophysiology laboratory. , 1999, Journal of the American College of Cardiology.

[10]  M. DeRuiter,et al.  Development of the cardiac conduction tissue in human embryos using HNK-1 antigen expression: possible relevance for understanding of abnormal atrial automaticity. , 1999, Circulation.

[11]  Y. Iesaka,et al.  Novel Form of Atrial Tachycardia Originating at the Atrioventricular Annulus , 1998, Pacing and clinical electrophysiology : PACE.

[12]  C. Tai,et al.  Focal Atrial Tachycardia: , 1998, Journal of cardiovascular electrophysiology.

[13]  A. Moorman,et al.  Atrioventricular junctional tissue. Discrepancy between histological and electrophysiological characteristics. , 1996, Circulation.

[14]  F. Marchlinski,et al.  Radiofrequency Catheter Ablation of Atrial Tachycardia with Unusual Left Atrial Sites of Origin: Report of Two Cases , 1996, Pacing and clinical electrophysiology : PACE.

[15]  Peter L. Williams,et al.  Gray's Anatomy: The Anatomical Basis of Medicine and Surgery , 1996 .

[16]  S. Ho,et al.  Clinical anatomy of the atrioventricular junctions. , 1994, Journal of the American College of Cardiology.

[17]  C. Chiang,et al.  Sustained Atrial Tachycardia in Adult Patients: Electrophysiological Characteristics, Pharmacological Response, Possible Mechanisms, and Effects of Radiofrequency Ablation , 1994, Circulation.

[18]  Rosen Mr Is the response to programmed electrical stimulation diagnostic of mechanisms for arrhythmias , 1986 .

[19]  M. Rosen Is the response to programmed electrical stimulation diagnostic of mechanisms for arrhythmias? , 1986, Circulation.

[20]  J. Gallagher,et al.  Anatomic Substrates of the Wolff-Parkinson-White Syndrome , 1983 .

[21]  M. B. Rosenbaum,et al.  Frontiers of Cardiac Electrophysiology , 1983, Developments in Cardiovascular Medicine.

[22]  A. L. Wit,et al.  Ultrastructure and Transmembrane Potentials of Cardiac Muscle in the Human Anterior Mitral Valve Leaflet , 1979, Circulation.

[23]  A. L. Wit,et al.  Triggered Activity in Cardiac Muscle Fibers of the Simian Mitral Valve , 1976, Circulation research.

[24]  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.

[25]  E. Sonnenblick,et al.  An Intrinsic Neuromuscular Basis for Mitral Valve Motion in the Dog , 1967, Circulation research.