Conduction Properties of the Crista Terminalis and Its Influence on the Right Atrial Activation Sequence in Patients with Typical Atrial Flutter

YAMABE, H., et al.: Conduction Properties of the Crista Terminalis and Its Influence on the Right Atrial Activation Sequence in Patients with Typical Atrial Flutter. The conduction properties of the crista terminalis (CT) and its influence on the right atrial activation sequence were analyzed in 14...

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Bibliographic Details
Published in:Pacing and clinical electrophysiology 2002-02, Vol.25 (2), p.132-141
Main Authors: YAMABE, HIROSHIGE, MISUMI, IKUO, FUKUSHIMA, HIRONOBU, UENO, KAZUHIRO, KIMURA, YOSHIHIRO, HOKAMURA, YOUICHI
Format: Article
Language:English
Subjects:
Aged
atrial flutter
Atrial Flutter - physiopathology
Atrial Function, Right - physiology
Cardiac Pacing, Artificial
crista terminalis
Electrocardiography
Electrophysiologic Techniques, Cardiac
Female
Heart Block - physiopathology
Heart Conduction System - physiopathology
Humans
Male
mapping
reentry
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Summary:YAMABE, H., et al.: Conduction Properties of the Crista Terminalis and Its Influence on the Right Atrial Activation Sequence in Patients with Typical Atrial Flutter. The conduction properties of the crista terminalis (CT) and its influence on the right atrial activation sequence were analyzed in 14 patients with typical atrial flutter (AF). Atrial mapping was performed with 35 points of the right atrium during typical AF and during atrial pacing performed after linear ablation of inferior vena cava‐tricuspid annulus (IVCTA) isthmus. Atrial pacing was delivered from the septal isthmus at cycle lengths of 600 ms and the tachycardia cycle length (TCL). The right atrial activation sequence and the conduction interval (CI) from the septal to lateral portion of the IVC‐TA isthmus were analyzed. During AF, the conduction block line (CBL) (detected by the appearance of double potentials along the CT and craniocaudal activation on the side anterior to CT) was observed along the CT in all patients. The TCL and CI during AF were 254 ± 19 and 207 ± 14 ms, respectively. During pacing at a cycle length of 600 ms, the CBL was observed along the CT in four patients, however, a short‐circuiting activation across the CT was observed in the remaining ten patients. The CI during pacing at 600 ms was 134 ± 38 ms, shorter than that during AF (P < .0001). During pacing at the TCL, the CBL was observed along the CT in all patients. The presence of the CBL along the CT prevented a short‐circuiting activation across the CT and resulted in the same right atrial activation as observed during AF. With the formation of the CBL, the CI significantly increased to 206 ± 17 ms and was not different from that during AF. These data suggest that the conduction block along the CT is functional. It was presumed that presence of conduction block at the CT has some relevance to the initiation of typical AF though it was not confirmed.
ISSN:0147-8389
1540-8159
DOI:10.1046/j.1460-9592.2002.00132.x