Decrease in the heart rate complexity prior to the onset of atrial fibrillation

doi:10.1093/europace/eul031

Europace Advance Access originally published online on May 10, 2006
Europace 2006 8(6):398-402; doi:10.1093/europace/eul031

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ATRIAL ARRHYTHMIAS

Decrease in the heart rate complexity prior to the onset of atrial fibrillation

Volkan Tuzcu¹^,*, Selman Nas¹, Tülay Börklü² and Ahmet Ugur³

¹ Department of Pediatrics, Division of Cardiology, Arkansas Children's Hospital, University of Arkansas for Medical Sciences, 800 Marshall Street, Slot 512-3, Little Rock, AR 72202, USA; ² Faculty of Aeronautics and Astronautics, Istanbul Technical University, Maslak, Istanbul 34469, Turkey; ³ Department of Computer Science, Central Michigan University, Mount Pleasant, MI 48859, USA

Aims To assess heart rate complexity changes prior to the onsetof atrial fibrillation (AF) using sample entropy. It has beenproposed that the autonomic nervous system might have a rolein the initiation of AF.

Methods and results The study included 25 patients with loneAF. Each record set contained two 30 min records from 25subjects. Each patient had 30 min records containing theECG immediately preceding an episode of AF (pre-AF) and 30 minof ECG during a period distant from any episode of AF (AFd).Sample entropy was used for complexity analysis. The sampleentropy of R–R intervals was significantly reduced inthe pre-AF period compared with the AFd period (0.45±0.25vs. 0.78±0.46, P=0.003). The pre-AF periods were dividedinto three successive 10 min segments. There was a significantdecreasing trend in entropy towards the onset of AF with linearmixed models (P=0.002).

Conclusions The heart rate complexity is reduced with a significantdecreasing trend as assessed by R–R interval entropy priorto the onset of AF. There is a need for well-defined studieswith larger patient groups in order to assess the entropy changesfurther and to look for possible changes, which might predictimpending AF episodes.

Key Words: Atrial fibrillation, Entropy, Complexity, Fractal analysis

^* Corresponding author. Tel: +1 501 364 1479; fax: +1 501 364 3667. E-mail address: tuzcuvolkan{at}uams.edu

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