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(Circulation. 1996;94:1456-1464.)
© 1996 American Heart Association, Inc.

Articles

Zones of Atrial Vulnerability

Relationships to Basic Cycle Length

Howard S. Friedman, MD; Bindeshwari Sinha, MD; Aung Tun, MD; Rizwan Pasha, MD; Amir Sharafkhaneh, MD; Anoopendra Bharadwaj, MD

the Departments of Medicine, Long Island College Hospital and SUNY Health Science Center, Brooklyn, NY.

Correspondence to Howard S. Friedman, MD, Chairman, Department of Medicine, Long Island College Hospital, 340 Henry St, Brooklyn, NY 11201.

Background Bradycardia is commonly found in individuals at risk for paroxysmal atrial fibrillation (AF). However, a clear relationship between lengthening of basic cyclic length (BCL) and AF has not been demonstrated.

Methods and Results In 20 open-chest dogs, atrial refractoriness, AF vulnerability, and atrial activation times (ACTs) were determined in sinus rhythm and at BCLs of 400, 300, and 200 ms, and the findings at the same coupling intervals and stimulus strengths were compared. As BCL increased, AFV zone lengthened, and its outer limit occurred later in diastole. The outer limit of the AF vulnerability zone for a BCL was its relative refractory period; the inner limit, however, was not its effective refractory period. A border zone, defined by the inner limit of the AF vulnerability zone and the effective refractory period for a BCL, decreased as BCL lengthened, offsetting the increase in the AF vulnerability zone. The border zone was characterized by paradoxical stimulus current strength propagation relations and features suggesting supernormal conduction. ACT also increased with BCL lengthening. When AF induced by rapid atrial burst pacing was contrasted with AF induced by an extrastimulus, it tended to have a more disorganized pattern and lasted longer.

Conclusions Lengthening of BCL increases the AF vulnerability zone, extending its outer limit later in diastole and comprising an increasing component of the total duration of the relative refractory period. Very short BCLs create conditions that also favor AF vulnerability.

Key Words: fibrillation • heart rate • pacing electrophysiology

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