Editorial Type:
Article Category: Research Article
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Online Publication Date: Oct 01, 2016

To Pace or Not to Pace?

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Page Range: 465 – 466
DOI: 10.14503/THIJ-16-6016
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A 75-year-old man with a medical history of sick sinus syndrome and left bundle branch block presented for evaluation of chest pain. The patient had a dual-chamber permanent pacemaker. Figure 1 shows his electrocardiogram (ECG).

Fig. 1. Fig. 1. Fig. 1.
Fig. 1

Citation: Texas Heart Institute Journal 43, 5; 10.14503/THIJ-16-6016

How can the ECG pattern be explained?

  • A) Atrial lead undersensing

  • B) End-of-life battery

  • C) Normal algorithm to reduce right ventricular pacing

  • D) Atrial tachycardia with normal pacemaker function

Focus on ECGs: Answer #5

Answer

D) Atrial tachycardia with normal pacemaker function.

The ECG reveals atrial tachycardia at a rate of 135 beats/min, with normal pacemaker function showing upper rate behavior and pacemaker Wenckebach phenomenon. The atrial tachycardia occurs at a rate faster than the pacemaker's tracking limit (Figs. 1 and 2). The first P wave is an atrial paced beat (AP) that has a wide-notched morphology in lead II and negative deflection in lead V1 (Fig. 1). It is followed by ventricular pacing (VP). The next P wave has a different morphology (P1) that is caused by the underlying atrial tachycardia. It is sensed by the pacemaker and is followed by VP. The third P wave is also caused by the atrial tachycardia and is buried in the T wave following it, causing the T waves to appear taller and peaked in leads II and V5 (P2). Because P2 occurs in the postventricular atrial refractory period, it is ignored by the pacemaker and does not result in VP. Instead, AP and VP stimuli with appropriate capture are seen next. After the AP–VP, another P1 is evident. The timing of this P wave is exactly 2 times the previous P1–P2 interval. This suggests that the atrial tachycardia was overdrive-inhibited by AP but was not reset (#). In addition, the morphology of the P wave after the last AP (*) is similar to the intrinsic P wave (P1) of the atrial tachycardia and not to the P waves induced by AP, suggesting pseudofusion.

Fig. 2. AP is the electronic atrial pacing beat; P1 is the spontaneous atrial activation by the atrial tachycardia. The P wave is sensed by the pacemaker and is followed by ventricular pacing (VP). At P2 (spontaneous atrial activation by the atrial tachycardia during the postventricular activation refractory period), the P wave is ignored by the pacemaker. During the refractory period after AP, atrial tachycardia discharge (#) is not conducted to the atria, is not followed by a P wave, and is not sensed by the pacemaker. / * = last atrial-paced beatFig. 2. AP is the electronic atrial pacing beat; P1 is the spontaneous atrial activation by the atrial tachycardia. The P wave is sensed by the pacemaker and is followed by ventricular pacing (VP). At P2 (spontaneous atrial activation by the atrial tachycardia during the postventricular activation refractory period), the P wave is ignored by the pacemaker. During the refractory period after AP, atrial tachycardia discharge (#) is not conducted to the atria, is not followed by a P wave, and is not sensed by the pacemaker. / * = last atrial-paced beatFig. 2. AP is the electronic atrial pacing beat; P1 is the spontaneous atrial activation by the atrial tachycardia. The P wave is sensed by the pacemaker and is followed by ventricular pacing (VP). At P2 (spontaneous atrial activation by the atrial tachycardia during the postventricular activation refractory period), the P wave is ignored by the pacemaker. During the refractory period after AP, atrial tachycardia discharge (#) is not conducted to the atria, is not followed by a P wave, and is not sensed by the pacemaker. / * = last atrial-paced beat
Fig. 2 AP is the electronic atrial pacing beat; P1 is the spontaneous atrial activation by the atrial tachycardia. The P wave is sensed by the pacemaker and is followed by ventricular pacing (VP). At P2 (spontaneous atrial activation by the atrial tachycardia during the postventricular activation refractory period), the P wave is ignored by the pacemaker. During the refractory period after AP, atrial tachycardia discharge (#) is not conducted to the atria, is not followed by a P wave, and is not sensed by the pacemaker. * = last atrial-paced beat

Citation: Texas Heart Institute Journal 43, 5; 10.14503/THIJ-16-6016

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Copyright: © 2016 by the Texas Heart® Institute, Houston
Fig. 1
Fig. 1

Fig. 2
Fig. 2

AP is the electronic atrial pacing beat; P1 is the spontaneous atrial activation by the atrial tachycardia. The P wave is sensed by the pacemaker and is followed by ventricular pacing (VP). At P2 (spontaneous atrial activation by the atrial tachycardia during the postventricular activation refractory period), the P wave is ignored by the pacemaker. During the refractory period after AP, atrial tachycardia discharge (#) is not conducted to the atria, is not followed by a P wave, and is not sensed by the pacemaker.

* = last atrial-paced beat

Contributor Notes

From: Section of Cardiology, Department of Medicine (Drs. Birnbaum, Faza, and Saeed), and Department of Medicine (Dr. Khalid), Baylor College of Medicine; and Department of Cardiology (Drs. Birnbaum and Saeed), Texas Heart Institute and Baylor–St. Luke's Medical Center; Houston, Texas 77030

Address for reprints: Yochai Birnbaum, MD, Section of Cardiology, Department of Medicine, Baylor College of Medicine, MS BCM620, One Baylor Plaza, Houston, TX 77030, E-mail: ybirnbau@bcm.edu