Paroxysmal Atrial Fibrillation


Article Author:
Dipesh Ludhwani


Article Editor:
Jerald Wieters


Editors In Chief:
Sherri Murrell
Joshua Ambrosio


Managing Editors:
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Frank Smeeks
Kristina Soman-Faulkner
Benjamin Eovaldi
Radia Jamil
Sobhan Daneshfar
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Steve Bhimji
John Shell
Matthew Varacallo
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Hajira Basit
Phillip Hynes
Kavin Sugumar


Updated:
4/2/2019 6:20:33 PM

Introduction

A normal heartbeat consists of a sequential contraction of atria followed by ventricles in a series of events called the cardiac cycle. The succession of 3 such regular heartbeats displaying identical waveform leads to a steady rhythm. The stimulus for each heartbeat commonly originates from sinus node in right atria, hence the name sinus rhythm. Abnormal heart rate or rhythm which is not physiologically justified is known as arrhythmia. Arrhythmias are almost always pathological except sinus arrhythmia, which is physiological. As the name suggests sinus arrhythmia originates from the sinus node, but the regularity between each heartbeat varies with inspiration and expiration. All pathological arrhythmia can be further classified based on heart rate into tachyarrhythmia (fast), bradyarrhythmia (slow) or tachy-brady (fast-slow) arrhythmia.

All tachyarrhythmia originating above the ventricles including atria and atrioventricular node (AV node) are grouped under supraventricular tachycardia (SVT).[1] Examples of SVT include atrial flutter, atrial fibrillation (AF), atrioventricular nodal reentrant tachycardia (AVNRT) also known as paroxysmal supraventricular tachycardia (PSVT), atrioventricular reentrant tachycardia (AVRT) and multifocal atrial tachycardia (MAT). Atrial fibrillation (AF) is a subtype of SVT that causes an irregularly irregular heart rhythm. AF is the most common sustained arrhythmia characterized by disorganized, rapid, and irregular atrial activation leading to irregular ventricular response. As a result of the above effects, atrial contractility is lost causing inability to completely empty blood from atrial appendage leading to the risk of clot formation and subsequent thromboembolic events. Ventricular response to atrial activation depends on conduction properties of the AV node. Typically the heart rate varies from 120 to 160 beats per minute however heart rate as fast as 200 beats per minutes can be seen.

The American Heart Association and American College of Cardiology further classified AF as follows:[2]

  1. Paroxysmal AF: intermittent in nature, terminating spontaneously or within 7 days of treatment
  2. Persistent AF: Failure to terminate in 7 days
  3. Long lasting AF: AF lasting for more than 12 months
  4. Permanent AF: Persistent AF where rhythm strategy is no longer pursued

Other Types of AF

  1. Lone AF: Lone AF is used to describe patients younger than 60 years with no other concomitant heart disease and structurally normal heart on an echocardiogram.
  2. Non-Valvular AF: Defines whether AF is related to valvular disease, replacement or repair. It is much more difficult to convert valvular AF into sinus rhythm.

Etiology

Atrial fibrillation is commonly associated with conditions that alter the structure of the heart. Important causes and risk factors for AF are as follows

Cardiac Causes

  • Hypertensive heart disease 
  • Coronary artery disease 
  • Valvular heart disease 
  • Heart failure 
  • Congenital heart disease
  • Cardiomyopathy
  • Infiltrative cardiac disease 
  • Sick sinus syndrome
  • Pre-excitation syndrome

Non-Cardiac Causes

  • Chronic lung disease 
  • Pulmonary embolism
  • Electrolyte abnormalities
  • Acute infections 
  • Thyroid disorders
  • Pheochromocytoma
  • Hypothermia
  • Post-surgical (seen in 35% to 50% of patients post coronary artery bypass graft)[3] 

Risk Factors

  • Age-related fibrosis
  • Diabetes 
  • Obesity 
  • Metabolic syndrome 
  • Obstructive sleep apnea
  • Chronic kidney disease
  • High-intensity exercise
  • Genetic factors

Epidemiology

Researchers of a 2010 study systematically reviewed 184 population-based studies for AF and estimated that approximately 33.5 million individuals in the world have AF.[4] AF prevalence has gradually increased over the last few decades[5] and based on the Centers for Disease Control and Prevention (CDC) estimate in 2017, 2.6 to 6.1 million people in the United States have AF. Further, prevalence increases with age and approximately 9% of all adults aged greater than 80 have AF.[6] Europe has a higher prevalence of AF compared to the United States. Similar to the prevalence the incidence of AF increases with age. In all age groups, males are more commonly affected than females. Despite a high prevalence of risk factors African Americans tend to have lower AF incidence compared to Caucasians.[6]

Pathophysiology

The underlying mechanism for AF is related to a complex interaction between triggers and substrate. Triggers are responsible for initiating the event (arrhythmia), and substrate will maintain that arrhythmia. Triggers arise when the action potential induce after-depolarization that is strong enough to overcome recovering repolarization.[7] This after-depolarization can cause extra systole but cannot maintain persistent arrhythmia. Impulses from such extrasystoles, however, are discharged at high frequency. When these impulses encounter myocardium with variable excitability or refractoriness, it gives rise to functional electrical blocks. Re-entry circuits arise which in turn gives rise to new impulse waves generating additional re-entry circuits that help maintain persistent arrhythmia yo overcome such blocks.[8]

The most common site for ectopic foci and trigger origin is left atrial muscular sleeve extending into the pulmonary vein. Myocardial cells in this region display shorter refractory period compared to surrounding myocardium and patients without AF. Pulmonary vein isolation (PVI) performed during catheter ablation for AF aims to isolate this region from surrounding myocardium dissipating further development of AF. Occasionally, AF can be triggered by other arrhythmias such as AVRT/ Atrial flutter and even premature atrial contractions (PACs). Atrial remodeling arising from electrical, structural and autonomic changes of the myocardium promotes both trigger and substrate. These changes lead to altered sympathovagal activity, shorter refractory period and increased atrial inducibility propagating AF.[9][10] Inflammatory and oxidative changes are also noted at the molecular level which can be correlated with high C-reactive protein (CRP) level. AF can cause hemodynamic and electrophysiological changes causing increased susceptibility to new episodes of AF.[11]

History and Physical

Clinical presentation for AF can range from asymptomatic incidental findings on electrocardiogram (ECG) to a catastrophic stroke with an undiagnosed underlying irregular rhythm. More commonly symptoms are similar to other arrhythmias like palpitations, dyspnea at rest or exertion, angina-like symptoms, fatigue or decreased exercise tolerance, lightheadedness, diaphoresis, dizziness, pre-syncope, and syncope. AF can also masquerade as symptoms of heart failure exacerbation like weight gain, pedal edema, and pulmonary congestion.

All patients presenting with the above symptoms should have a detailed history including past medical/cardiac history. On physical examination, patients should be examined for an irregularly irregular pulse, signs of heart failure like jugular vein distension (JVD), pedal edema and lung crackles. In valvular AF, mitral stenosis/regurgitation murmur can be heard. A history of prior investigation of underlying causes, anticoagulation choices, and previously-attempted methods for rate/rhythm control is important.

Evaluation

As mentioned above all patients being evaluated for AF should have a detailed history and physical exam. Diagnosis of AF is based on characteristic ECG findings. ECG findings as seen in patients with AF:

  • The absence of distinct “P” waves
  • Irregularly irregular R-R interval.
  • Narrow QRS complex tachycardia, typically with the heart rate between 110 and 160; QRS duration fewer than 0.12 seconds unless accompanied by pre-existing bundle block, aberrant conduction, or accessory pathway
  • Fibrillatory waves may be present which can mimic “P” waves.

Ashman phenomenon: QRS morphology is usually unaffected in AF, however in cases with aberrant ventricular conduction bundle branch block can occur as a result of an abrupt change in length of the cardiac cycle. These aberrantly conducted beats are usually of right bundle branch block morphology.[12]

Further evaluation should include workup to identify the cause of AF. Patients should be tested for electrolyte abnormalities, endocrine disorders (specifically hyperthyroid) drug-induced causes, infections, drug or chemical withdrawal, and echocardiography to check for structural heart disease. In patients presenting with ischemic stroke and with no prior history of AF, 72-hour Holter monitoring improves the detection rate of silent paroxysmal AF.[13]

Treatment / Management

Treatment strategy involves antithrombotic therapy and selection between rate or rhythm control. Previous randomized studies such as Atrial Fibrillation Follow-up Investigation of Rhythm Management (AFFIRM) and Rate Control versus Electrical Cardioversion for Persistent Atrial Fibrillation (RACE) have shown no superiority with one compared to other.[14][15][16]

Antithrombotic Therapy

AF is associated with 5-fold, increased risk of stroke. Whether all patients with AF need anticoagulation regardless of risk factor status is debatable. The embolic risk in patients with AF is estimated using the CHA2DS2-VASc risk model (congestive heart failure, hypertension, age, diabetes mellitus, prior stroke, vascular disease, sex).[17] A higher CHA2DS2-VASc score correlates with higher risk of ischemic stroke per year. The risk of AF related ischemic strokes increases from 1.3% to 2.2% as the CHA2DS2-VASc score increases from 1 to 2. Benefits with antithrombotic therapy are well documented in moderate to high-risk AF patients (CHA2DS2-VASc score equal to 2),[18] however its use in low-risk patients (CHA2DS2-VASc score less than 2) is often controversial as benefits are not well-defined.[19]

Benefits of anticoagulation should be balanced against the risk of bleeding. HAS-BLED scoring system (hypertension, abnormal renal/liver function, stroke, bleeding history, labile international normalized ratio, elderly, drugs/alcohol) is widely used to estimate the risk of bleeding from anticoagulation. The HAS-BLED score equal to 3 is associated with an increased risk of bleeding. Once the patient’s individualized stroke risk is determined, the selection of antithrombotic therapy varies from one patient to another. Compared to warfarin-aspirin monotherapy is not recommended for primary stroke prevention in patients with AF.[20] Warfarin therapy needs constant monitoring with International Normalized Ratio (INR) to maintain the therapeutic range between 2.0 to 3.0 which usually requires bridging with heparin while initiating therapy. Several newer non-vitamin K antagonist oral anticoagulants (NOAC) have a shorter duration of action, not requiring heparin bridging. Trials such as RE-LY, ROCKET-AF, ARISTOTLE have shown similar effectiveness and decreased intra-cranial bleeding risk with NOACs (apixaban, rivaroxaban, dabigatran, edoxaban) when compared head-to-head with warfarin.[21][22][23] NOACs, do not require routine INR testing but they have challenges with access to rapid reversal agents. This is an area of rapid development. In patients with prosthetic heart valves and valvular AF, warfarin remains the preferred drug of choice. Selection of antithrombotic agent should be based on account of risk factors, cost tolerability, patient preference, and potential drug interaction.

Rate Control

Rate control is the preferred strategy for all asymptomatic AF patients. Guidelines on target heart rate in patients selected for rate control are lacking. Previously conducted randomized trial (RACE II) to assess heart rate goal in patients with AF showed no outcome difference between lenient and strict heart rate control however sufficient evidence to assess the impact on all-cause mortality was lacking. Physicians usually attempt to control heart rate control with agents such as beta-blockers (metoprolol, esmolol, propranolol), nondihydropyridine calcium-channel blockers (verapamil, diltiazem), or digoxin. All 3 classes of drugs are given intravenously (IV) for acute rate control and can be switched to oral therapy for chronic management. In patients with chronic heart failure with reduced ejection fraction, carvedilol therapy has shown significant improvement in left ventricular ejection fraction. Due to negative inotropic properties of calcium channel blockers, physicians do not use thesei not preferred in such patients. Digoxin is usually reserved for patients who do not achieve rate control with beta-blockers or calcium channel blockers alone. Amiodarone can be used as second-line therapy when treatment with other agents has failed.[23] In patients refractory to medical therapy AV node ablation with a permanent pacemaker placement can effectively control and regularize ventricular heart rate. Low doses of magnesium have shown synergistic effects on rate control.[24]

Rhythm Control

The decision to achieve rhythm control either with pharmacological or non-pharmacological (electric) methods is based on the presence or absence of symptoms, age, and other comorbidities. Rhythm control with pharmacological therapy alone is associated with increased side effects and lower success rate.[25] Risk and side effects of specific antiarrhythmic should be considered before drug selection. Class I sodium channel blocking agents (flecainide, propafenone, disopyramide) have negative, inotropic action, and healthcare professionals should avoid these agents in patients with a history of coronary artery disease or heart failure. Class III agents (sotalol, dofetilide) have a 3% risk of causing QT prolongation and should be initiated while in hospital. Other class III antiarrhythmic like amiodarone has greater long-term efficacy however over 20% of patients develop toxicities during long-term therapy. Drug therapy is most commonly used in adjunction to direct current cardioversion (DCCV). DCCV is associated with high immediate success rate.[26] It is commonly performed in patients with hemodynamic compromise and patients with new-onset AF (fewer than 48 hours) who are candidates for rhythm control. Patients undergoing DCCV should have preexisting atrial thrombus ruled out with either transthoracic or transesophageal echocardiography. Anticoagulation with warfarin 3 weeks prior and 4 weeks after DCCV is recommended for patients when the duration of AF is greater than 48 hours. Risk of AF recurrence post-DCCV is high and can be reduced with the use of antiarrhythmic medications. In patients with contraindication to antiarrhythmic therapy catheter or surgical ablation can be attempted. Ablation is performed with the aim to electrically isolate pulmonary vein (trigger foci) from rest of atrial myocardium. Catheter ablation is associated with high success rates (70%). No significant difference in AF burden was noted between catheter ablation and oral antiarrhythmic therapy; however, overall symptoms and quality of life were significantly better in patients receiving ablation.[27] Surgical ablation is a reasonable option for AF patients undergoing cardiac surgery for other indications. The decision to perform catheter ablation or antiarrhythmic medications used to maintain sinus rhythm is guided by patient symptoms and risk/benefits of each therapy.

Differential Diagnosis

  1. Sinus tachycardia
  2. Atrial flutter
  3. Atrial flutter with variable block
  4. Atrial tachycardia (AT)
  5. Multifocal atrial tachycardia (MAT)
  6. Wolff-Parkinson-White syndrome (WPW)
  7. Atrioventricular nodal reentry tachycardia (AVNRT)
  8. Atrioventricular reentry tachycardia (AVRT)
  9. Junctional ectopic tachycardia

Prognosis

AF is associated with increased cardiovascular mortality.[14] Anticoagulation in all patients with a CHA2DS2-VASc score equal to 2 has shown improved prognosis. Patients not on anticoagulation are at high risk for thromboembolic events. Fifty-five percent of AF patients are not on antithrombotic therapy, and this accounts for over 50,000 strokes annually.[28] Prognosis for AF related stroke is worse compared to non-AF related cerebrovascular events. Patients with heart failure are at increased risk to develop AF related complication. Elevated high sensitivity C-reactive protein (hs-CRP) and troponins have been implicated with adverse outcomes in AF patients.[29]

Complications

Complications associated with AF include [30]

  1. Thromboembolism including stroke
  2. New-onset heart failure or worsening of existing heart failure
  3. Acute myocardial infarction
  4. Hemodynamic instability leading to cardiogenic shock
  5. Sudden death from Wolff-Parkinson-White syndrome
  6. Tachycardia-induced cardiomyopathy

Deterrence and Patient Education

Atrial fibrillation is the most common cardiac arrhythmia associated with an increased risk of ischemic stroke. Practitioners should educate all patients about the risk and benefits of anticoagulation. It is important to explain to patients that the risk of stroke increases each year exponentially without anticoagulation. Clinicians should offer the patient choices among various anticoagulation options and treatment strategies to improve adherence and decrease side effect profile. Stress should be laid on regular INR testing to maintain a therapeutic range while taking warfarin. Furthermore, physicians should counsel the patient about red-flag signs such as shortness of breath, palpitations, fatigue, and weight gain. Patients should learn to reduce AF recurrence non-pharmacologically, by cutting down on caffeine intake, avoiding alcohol, and exercising regularly.

Enhancing Healthcare Team Outcomes

AF is a huge financial burden on health care. Managing AF requires an interprofessional approach with close involvement of various health care professionals such as primary care physicians, cardiologists, electrophysiologists, neurologists, surgeons, pharmacists, and nursing staff.

Ensuring guideline-directed treatment of AF is pivotal in improving over-all outcomes and reducing health care cost. Nurse-led, guideline-based clinics supported by appropriate software and cardiologist have shown superior results in terms of cardiovascular mortality and hospitalizations.[31] (Level I). Outpatient specialty AF clinics have shown better outcomes in AF-related hospitalizations and quality of life compared to usual care clinic.[32] (Level IV). Similar results have been seen with pharmacist-managed anticoagulation compared to telephone/usual care clinic. AF management guidelines published by the European Society of Cardiology has stressed the importance of integrated management in coordinating care and improving outcomes.


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Paroxysmal Atrial Fibrillation - Questions

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What is the term for atrial fibrillation (AF) lasting more than 7 days?



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A 65-year-old male with hypertension and diabetes mellitus is being evaluated for recurrent syncopal episodes and intermittent palpitations daily for the past 4 months. A cardiac workup is unrevealing until he becomes symptomatic in the middle of the night and presents to the emergency department. EKG strip is shown below at 144 beats/min. His blood pressure is 145/85 mmHg and he is only experiencing palpitations. What is the best appropriate next step?

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By definition, how long does paroxysmal atrial fibrillation (AF) last?



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A 73-year old female undergoes three-vessel cardiac bypass surgery. Postoperatively she develops atrial fibrillation. Her blood pressure is 110/80 mmHg, and ventricular rate is 79. Her oxygen saturation is 97% on room air. What is the next best step in management?



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A 32-year-old female presents to the emergency department with sudden onset atrial fibrillation with rapid ventricular response. Vitals are heart rate 155 bpm, blood pressure 78/50 mmHg, temperature 36.7 C, and oxygen saturation 88%. On the physical exam, the patient has irregularly irregular heart sounds and 'P' waves are absent on EKG. What is the next best step?



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A 25-year-old white female with past medical history of anxiety, depression, and hyperlipidemia presents to her primary care provider's clinic with complaints of intermittent palpitations. She actively starts having palpitations while you are doing her physical exam, she has a heart rate of 117 bpm; blood pressure is 110/72 mmHg, respiratory rate of 19/minute, and temperature of 97.7 F. An electrocardiogram shows a narrow QRS complex tachycardia with an irregular rhythm. What type of paroxysmal supraventricular (PSVT) is most likely present in this patient?



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A patient presents to the emergency department with complaints of dyspnea for the last three days. His vitals on presentation are blood pressure 84/46 mmHg, respiratory rate 29/minute, pulse oximetry of 91% on room air, and heart rate 148 bpm with irregularly irregular pulse. EKG confirms the diagnosis of atrial fibrillation with rapid ventricular response. The patient is scheduled for emergent direct current cardioversion (DCCV). What is true regarding anticoagulation?



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Which of the following finding is seen on an EKG for atrial fibrillation?



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Thromboembolic risk in atrial fibrillation is assessed with which score?



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Which of the following is not associated with unsuccessful direct current cardioversion (DCCV) for atrial fibrillation?



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Paroxysmal Atrial Fibrillation - References

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