Atrial Fibrillation – ECG

Table of Contents

Table of Contents

Published April 2021

Maranda Herner, MD
Expert review – pending

Objectives

  1. Identify the key ECG findings for atrial fibrillation (AF) and use two key features to distinguish it from other supraventricular tachycardias (SVTs).

Teaching Instructions

Plan to spend 5-15 minutes familiarizing yourself with the ECG and relevant background information.  Have the image pulled up on the presenting screen or monitor.  Have the image pulled up on the presenting screen or monitor.  Have one learner provide a systematic interpretation of the ECG.  If they do not do so on their own, prompt them to point out the distinguishing characteristics (mostly regular, atrial rate ~300bpm) of this SVT. Then ask them to commit to a specific diagnosis.  Advance through the animations to highlight the abnormalities and final diagnosis.

Official ECG Read: Narrow complex tachycardia with irregularly irregular rhythm and no P waves with a ventricular rate around 100bpm.  There is a slight left axis deviation and probably LAFB.

Teaching: Atrial fibrillation, typically occurs at an atrial rate of 300-600bpm from multiple micro re-entry circuits in the atria. The ventricular rate response to this atrial activity is limited by the refractory period and conduction speed in the AV node and ventricles.  When SVT is too fast to differentiate, adenosine (6mg, then 12mg IV with 10cc saline immediately after) can slow the rate (increase the block) enough to see the Irregularly Irregular rhyme and fibrillation waves.  Atrial fibrillation can be paroxysmal, persistent, or permanent, and all pose stroke risk warranting AC based on CHADSVAC score (except for reversible causes such as sepsis, hyperthyroidism, post-cardiac surgery, or toxins).  Typically, atrial fibrillation is rate controlled to <110 bpm (RACE II 2010 trial) but recent studies have supported early rhyme control (via meds or ablation) in high-risk CVD patients (EAST AFNET-4, 2020 trial) or HFrEf <35% (CASTLE-AF, 2018 trial favoring ablation). Atrial fibrillation is often asymptomatic, but patients may experience palpitations or heart failure symptoms if they are dependent on the atrial kick, as is the case with diastolic dysfunction). AV nodal blocking agents include BB, CCB (except for decompensated HF), and digoxin.  Before performing cardioversion in an otherwise stable patient, one must assure onset of atrial fibrillation occurred less than 48hrs prior or provide 3 weeks of uninterrupted anticoagulation with plans to continue for 4 weeks following conversion. 

Other resources: Refer to our chalk talk on the management of atrial fibrillation with RVR or our related ECG post on atrial flutter. 

ECG

Take Home Points

  1. Atrial fibrillation is the most common irregularly irregular rhythm and is differentiated from atrial flutter and multifocal atrial tachycardia (MAT) by the absence of discrete p waves before the QRS.
  2. Atrial fibrillation can be rhythm controlled (meds or ablation) but most frequently is rate controlled with AV nodal blockers to HR <110bpm.
  3. Atrial fibrillation can be paroxysmal, persistent, or permanent— all have similar stroke risk and warrant anticoagulation.  

References

Goldberger, A. L., Shvilkin, A., Goldberger, Z. D. (2017). Clinical Electrocardiography: A Simplified Approach E-Book. United States: Elsevier Health Sciences.

Groenveld, H. F., Crijns, H. J., Van den Berg, M. P., Van Sonderen, E., Alings, A. M., Tijssen, J. G., … & RACE II Investigators. (2011). The effect of rate control on quality of life in patients with permanent atrial fibrillation: data from the RACE II (Rate Control Efficacy in Permanent Atrial Fibrillation II) study. Journal of the American College of Cardiology, 58(17), 1795-1803.

Galiuto, L., & Patrono, C. (2020). Early rhythm control for early atrial fibrillation? Comment on the EAST-AFNET 4 Trial. European Heart Journal.

Shah, S. R., Moosa, P. G., Fatima, M., Ochani, R. K., Shahnawaz, W., Jangda, M. A., & Shah, S. A. (2018). Atrial fibrillation and heart failure-results of the CASTLE-AF trial. Journal of community hospital internal medicine perspectives, 8(4), 208-210.

Brandon Fainstad

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