Atrial Arrhythmias in Adults with Fontan Palliation

Over the years, modifications to the Fontan procedure have resulted in a decreased incidence of sinus node dysfunction and atrial arrhythmias [8, 18‐21]. Possible factors to explain persistent arrhythmia complications after the EC Fontan include hypoxemia-related structural changes, autonomic dysregulation, arrhythmogenic nature of the atrial cuff of tissue at the IVC anastomosis, crista terminalis damage, and adrenergic nerve ending damage [22‐29]. Fundamentally, the two driving factors for the development of supraventricular arrhythmias in patients with Fontan palliation include a circulation functioning with chronically raised right atrial pressures and atrial manipulation during surgery [30].

Along with improved early and long-term survival after Fontan palliation over time, arrhythmia occurrence has declined [8, 18, 19, 22, 31], but still remains a burden in all variants of the Fontan physiology. Contemporary estimates of arrhythmia burden as a late complication after the Fontan procedure range from 20% to 44% [7, 8]. The cumulative incidence of atrial arrhythmias after atriopulmonary Fontan surgery is reported to be > 45–65% [8, 11, 32] and 14–25% in those with a total cavopulmonary connection [8, 16]. The 10-, 20-, and 30-year freedom from arrhythmias in long-term follow-up was found to be 71%, 42%, and 25%, respectively, which included atrial flutter in 74%, atrial fibrillation 39%, atrial tachycardia 26%, re-entrant supraventricular tachycardia 9%, and ventricular tachycardia in 10% [7].

Common forms of atrial tachyarrhythmias encountered in patients with Fontan palliation include intra-atrial reentrant tachycardia (IART), nonautomatic focal atrial tachycardia, and atrial fibrillation. IART is the most common atrial arrhythmia in patients with Fontan palliation, accounting for approximately 75% of supraventricular tachycardia, with focal atrial tachycardia in up to 15% of patients [33]. The 20-year freedom from IART, specifically, was 46% [12]. Atrial fibrillation is becoming increasingly common in adult patients with Fontan palliation, as well, with one study estimating an incidence of 14% over a 5-year period [33‐35].

The arrhythmic substrate for the development of IART evolves from the atrial incisions, suture lines, right atrial dilation, and elevated right atrial pressure. Given these factors, the type of Fontan palliation affects the risk of developing atrial arrhythmias. The association between the AP Fontan and IART is well established, especially the length in which one survives with that type of surgery. In one study, the incidence of IART for the AP configuration at a 20-year follow-up was 39% compared to 9% in the LT Fontan, whereas importantly there was no difference between the LT and EC Fontan incidence [36]. Most atrial arrhythmias in patients with the AP Fontan palliation are found to be localized to the systemic venous atrium [37]. IART circuit is commonly around the IVC, specifically near the inferolateral atrium, but can be found near the lateral and septal walls as well [38, 39]. The location of IART within the EC Fontan configuration has been reported to involve the isthmus between the inferior atrioventricular valve annulus and the oversewn edge of the IVC, which is largely analogous to the cavotricuspid isthmus in the normal heart, with risk factors including either an atriotomy or fenestration placed in the lateral wall during a previous surgery [40].

In general, risk factors for early and late tachyarrhythmias include atrioventricular valve (AVV) regurgitation, preoperative tachyarrhythmias, AVV replacement [18], AP connection Fontan, preoperative bradycardia, lack of sinus rhythm, older age at operation with longer interstage interval, and heterotaxy syndrome [21, 41, 42]. Other risks have been related to the structural changes and functional deterioration of the Fontan circuit, such as increased right atrial pressures, right atrial dilation, ventricular impairment, and functional capacity [16, 43].

Arrythmias are one of the most frequent reasons for hospital admission and in-hospital mortality for patients with Fontan palliation [44]. Complications that arise from arrhythmias in patients with Fontan palliation include acute hemodynamic compromise, heart failure, thromboembolism, and sudden cardiac death [10, 45]. The development of significant arrhythmias in the AP Fontan, when coupled with signs of heart failure, is associated with a 3-year mortality rate of 25% [45]. The initial episode of sustained atrial tachycardia often heralds a pattern of progression toward more frequent and prolonged recurrences [33]. Atrial arrhythmias are poorly tolerated in Fontan physiology, as the passive transpulmonary perfusion, which is highly dependent on a low ventricular end-diastolic pressure (EDP), will then see increasing afterload in the context of atrial arrhythmias resulting in decreased cardiac output. Total cardiac output decreases by about 25% for patients with Fontan palliation that are in atrial fibrillation [46]. Clinically, the prognosis is worrisome, even if the patient can be converted quickly into sinus rhythm, which underscores the urgency to make an accurate diagnosis and expedite treatment of dysrhythmias in Fontan physiology.

Though IART is the most commonly occurring atrial arrhythmia in patients with Fontan palliation, classic saw-toothed flutter waves are not often seen in patients with Fontan palliation, largely as a result of atrial myopathy. Patients with Fontan palliation often have electrically diseased atrial tissue, and identification of atrial tachyarrhythmias can be challenging for several reasons: (1) atrial activity may not be clearly discernable on a standard electrocardiogram (ECG) (Fig. 2); (2) atrial tachycardia cycle length may be slow and variable, complicating the diagnosis; (3) underlying QRS abnormalities may cause the clinician to assume wide complex tachycardia is ventricular tachycardia. Further, patients may not have symptoms of palpitations; rather, symptoms due to ventricular dysfunction or Fontan failure may be the primary presentation of arrhythmia. Therefore, it is important to have a high suspicion for atrial arrhythmia in this population, especially as a patient ages. It is paramount in these patients to compare an ECG to previous baseline ECGs, as a change in baseline heart rates may be the most obvious clue that the patient is in an atrial arrhythmia (Fig. 3a, b). Diagnosis can also be challenging in patients with AVB who are ventricularly paced since there may be little or no change of the paced rhythm (depending on pacemaker programming and atrial tachycardia rate). AVB is uncommon but not rare, with an estimated incidence following the Fontan operation as high as 3% [35], and pacemaker interrogation in this population is often necessary to confirm atrial arrhythmia (Fig. 4). Since the incidence of atrial tachyarrhythmias increases with age and is a major source of morbidity [16, 20], regular surveillance of rhythm with ECG and ambulatory Holter monitors is recommended during follow-up of both symptomatic (class I) and asymptomatic (class I and IIa) patients [13].

Acute management of atrial tachyarrhythmias in adults with Fontan palliation varies on the basis of hemodynamic status. Atrial tachyarrhythmias with rapid ventricular conduction may quickly worsen hemodynamics in Fontan circulation and lead to heart failure over a short period of time. Rapid deterioration of hemodynamic status can occur from tachyarrhythmias in the Fontan circulation, leading to ventricular dysfunction, respiratory failure, and other end-organ failure, elevating the urgency to terminate an acute episode of a rapidly conducted arrhythmia. However, many patients present with hemodynamically stable sustained atrial arrhythmia, and management should include consideration of anticoagulation and adult congenital electrophysiology consultation [47]. SVT that is AV node dependent may be terminated with adenosine; however, knowing the patient’s ventricular function and underlying baseline rhythm would be important prior to conversion with medication or cardioversion. In the acute management of atrial tachyarrhythmias in patients with Fontan palliation cardioversion is often necessary, but one must consider cardiac position as well as baseline underlying rhythm in planning for cardioversion. Rate control may be a temporizing measure in an acute SVT episode, which may provide an opportunity to convert once the patient is stabilized. Sustained atrial arrhythmias are associated with significant thromboembolic risk; however, thrombosis risk in complex CHD, such as Fontan palliation is likely higher than other forms of congenital heart disease [34, 48, 49]. It is often necessary to rule out intracardiac thrombus and ensure anti-coagulation prior to cardioversion, even in shorter duration of IART or AF. Thromboembolisms can involve the Fontan conduit itself, and can include pulmonary embolisms, intracardiac thrombi, embolic strokes, or systemic arterial embolisms.

Defibrillator pad positioning should be considered and may need to be altered from baseline as a result of dextroposition of the heart or enlarged atria. Sedation or anesthesia for cardioversion should be performed by someone experienced with Fontan physiology. Additionally, prior to sedation, one should review and consider the patient’s baseline rhythm. A patient with severe sinus node disease at baseline may have a profound sinus pause after cardioversion, which may be even more prolonged by deep sedation. For those patients with severe sinus node disease, variations in sedation for cardioversion may be necessary.

Long-term management of atrial tachyarrhythmias in adults with Fontan palliation is often multifactorial, and may include anti-arrhythmic therapy, pacing, and ablation procedure. Consideration of treatment options for management of atrial arrhythmias is based on several factors and warrants discussion with patient and medical team, including adult congenital cardiologist and congenital electrophysiologist (Table 1). Consultation with an adult congenital cardiologist is important in the consideration of treatment of atrial arrhythmias in adults with Fontan palliation, and all patients should be followed by an adult congenital specialist. Sustained atrial arrhythmia should prompt consideration for invasive hemodynamic assessment, as new or worsening arrhythmias may be driven by hemodynamic changes that are difficult to detect non-invasively [47, 50]. In patients with Fontan palliation, long-term management of atrial arrhythmias is aimed at rhythm control to maintain sinus or atrial paced rhythm, not simply rate control. It is well accepted that AV synchrony is important in those patients with single ventricle physiology. However, when treatment strategies for atrial arrhythmias fail, long-term rate control and anticoagulation may be the only option for some patients with Fontan palliation.