Recovery of retrograde fast pathway excitability in the atrioventricular node reentrant circuit after concealed anterograde impulse penetration

The pathways for excitation of the atrioventricular node enter either superiorly, as the so-called ‘fast’ pathway, or inferiorly as the ‘slow’ pathway. However, knowledge of the specific anatomical details of these pathways is limited. Most of the experimental studies that established the existence of these pathways were conducted in mammalian hearts, which have subtle differences to human hearts. In this review, the authors summarise their recent experiences investigating human cardiac development, correlating these results with the arrangement of the connections between the atrial myocardium and the compact atrioventricular node as revealed by serial sectioning of adult human hearts. They discuss the contributions made from the atrioventricular canal myocardium, as opposed to the primary ring. Both these rings are incorporated into the atrial vestibules, albeit with the primary ring contributing only to the tricuspid vestibule. The atrial septal cardiomyocytes are relatively late contributors to the nodal inputs. Finally, they relate our findings of human cardiac development to the postnatal arrangement.

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Properties and Substrate of Slow Pathway Exposed with a Compact Node Targeted Fast Pathway Ablation in Rabbit Atrioventricular Node

Journal of Cardiovascular Electrophysiology ◽

10.1046/j.1540-8167.2001.00479.x ◽

2001 ◽

Vol 12 (4) ◽

pp. 479-486 ◽

Cited By ~ 17

Author(s):

LI-JEN LIN ◽

JACQUES BILLETTE ◽

DJAMILA MEDKOUR ◽

MARIE CLAUDE REID ◽

MAURICE TREMBLAY ◽

...

Keyword(s):

Atrioventricular Node ◽

Slow Pathway ◽

Fast Pathway

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PP-315 COEXISTENCE OF WENCKEBACH TYPE BLOCK IN THE SLOW AND FAST PATHWAY IN A PATIENT WITH DUAL ATRIOVENTRICULAR NODE PHYSIOLOGY

International Journal of Cardiology ◽

10.1016/s0167-5273(12)70492-8 ◽

2012 ◽

Vol 155 ◽

pp. S204

Author(s):

F. Kilicaslan ◽

O. Uz ◽

M. Uzun ◽

A. Tokatli ◽

Z. Isilak

Keyword(s):

Atrioventricular Node ◽

Fast Pathway

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Radiofrequency Ablation for the Fast Pathway of Atrioventricular Node Reentry

CHEST Journal ◽

10.1378/chest.106.6.1899 ◽

1994 ◽

Vol 106 (6) ◽

pp. 1899-1902

Author(s):

Osamu Fujimura ◽

Mark A. Lawton ◽

William Jeffery Schoen

Keyword(s):

Radiofrequency Ablation ◽

Atrioventricular Node ◽

Fast Pathway

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Changes in electrophysiologic properties of the conductive system of the heart in children with atrioventricular nodal reentrant tachycardia after 2–8 years following radiofrequency catheter ablation of the slow pathway

Medicina ◽

10.3390/medicina45080082 ◽

2009 ◽

Vol 45 (8) ◽

pp. 632 ◽

Cited By ~ 2

Author(s):

Rima Šileikienė ◽

Dalia Bakšienė ◽

Vytautas Šileikis ◽

Tomas Kazakavičius ◽

Jolanta Vaškelytė ◽

...

Keyword(s):

Radiofrequency Ablation ◽

Refractory Period ◽

Atrioventricular Node ◽

Atropine Sulfate ◽

Effective Refractory Period ◽

Slow Pathway ◽

Atrioventricular Nodal Reentrant Tachycardia ◽

Reentrant Tachycardia ◽

Fast Pathway

Radiofrequency ablation of the slow pathway is an effective method of treatment in children with atrioventricular nodal reentrant tachycardia. The aim of our study was to evaluate anterograde conduction properties in children before and after radiofrequency ablation of the slow pathway and to determine the efficacy and safety of this method. Material and methods. Noninvasive transesophageal electrophysiological examination was performed in 30 patients at the follow-up period (mean duration, 3.24 years) after radiofrequency ablation of the slow pathway. Results. The slow pathway function was observed in 13 patients one day after ablation, in 26 patients during the follow-up period, and in 28 patients after administration of atropine sulfate. Atrioventricular node conduction was significantly decreased the following day after ablation and at the follow-up versus the preablation (165.2 [30.2] bmp and 146.3 [28.5] bpm versus 190.9 [31.4] bpm; P<0.001). The atrioventricular node effective refractory period prolonged significantly the following day after ablation and at the follow-up versus the preablation (319.3 [55.3] ms and 351.0 [82.1] ms versus 248.3 [36.6] ms; P<0.001). Effective refractory period of the fast pathway prolonged significantly as compared with the preablation (from 408.0 [60.4] ms to 481.2 [132.9] ms; P=0.005). The prolongation of effective refractory period of the slow pathway was more significant than effective refractory period of the fast pathway at the follow-up (P<0.001). Two late recurrences occurred; one patient had atrial tachycardia. Conclusion. Children with atrioventricular nodal reentrant tachycardia can be effectively and safety cured by ablative therapy. The end-point during slow pathway ablation should be the abolition of tachycardia with preservation of dual atrioventricular nodal physiology.

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