Executive Summary of the II Brazilian Guidelines for Atrial Fibrillation

Since 2009, when the Brazilian Society of Cardiology released the Brazilian Guidelines for Atrial Fibrillation,1 important studies on the subject have been published, particularly on new oral anticoagulants (NOACs). At least three of these drugs (dabigatran, rivaroxaban and apixaban) are currently approved for clinical use in Brazil. 
 
In addition to pharmacological treatment, new data related to non-pharmacological treatment, notably the radiofrequency ablation (RA) procedure, have expanded the indication of this therapeutic approach. For this reason, an update of the guidelines is justified. 
 
Epidemiological changes in atrial fibrillation 
In the last two decades, atrial fibrillation (AF) has become a public health problem, with high consumption of health resources. AF is the most frequent sustained arrhythmia in the clinical practice, with a prevalence of 0.5% - 1.0% in the general population. According to more recent studies, however, AF prevalence is almost two times higher than that in the last decade, ranging from 1.9% in Italy to 2.9% in Sweden, possibly associated with age increase.2 However, in addition to ageing, other potential factors may explain the increment in AF prevalence, including advances in the treatment of chronic heart diseases, leading to greater number of patients susceptible to AF. Furthermore, besides the classical risk factors for AF - hypertension, diabetes mellitus, heart valve disease, heart infarction and heart failure (HF)3,4 -new potential ones, including obstructive sleep apnea,5 obesity,6 alcohol consumption,7 physical exercise,8 family history and genetic factors,9 contribute to the increase in AF prevalence. 
 
The most used AF classification in the clinical practice is based on its form of presentation. "Paroxysmal AF" is defined as an episode of AF that terminates spontaneously or with medical intervention within seven days of onset. The term "permanent AF" refers to AF episodes longer than seven days, and "long-term persistent AF" is used by some authors to refer to cases longer than one year. Finally, the term "permanent AF" is used when attempts to convert to sinus rhythm have been abandoned. 
 
The prognosis of AF is related to its close association with increased risk of ischemic and hemorrhagic stroke, and mortality. Other important consequences of AF include cognitive changes and socioeconomic implications


Introduction
Since 2009, when the Brazilian Society of Cardiology released the Brazilian Guidelines for Atrial Fibrillation, 1 important studies on the subject have been published, particularly on new oral anticoagulants (NOACs). At least three of these drugs (dabigatran, rivaroxaban and apixaban) are currently approved for clinical use in Brazil.
In addition to pharmacological treatment, new data related to non-pharmacological treatment, notably the radiofrequency ablation (RA) procedure, have expanded the indication of this therapeutic approach. For this reason, an update of the guidelines is justified.

Epidemiological changes in atrial fibrillation
In the last two decades, atrial fibrillation (AF) has become a public health problem, with high consumption of health resources. AF is the most frequent sustained arrhythmia in the clinical practice, with a prevalence of 0.5% -1.0% in the general population. According to more recent studies, however, AF prevalence is almost two times higher than that in the last decade, ranging from 1.9% in Italy to 2.9% in Sweden, possibly associated with age increase . 2 However, in addition to ageing, other potential factors may explain the increment in AF prevalence, including advances in the treatment of chronic heart diseases, leading to greater number of patients susceptible to AF. Furthermore, besides the classical risk factors for AF -hypertension, diabetes mellitus, heart valve disease, heart infarction and heart failure (HF) 3,4 -new potential ones, including obstructive sleep apnea, 5 obesity, 6 alcohol consumption, 7 physical exercise, 8 family history and genetic factors, 9 contribute to the increase in AF prevalence.
The most used AF classification in the clinical practice is based on its form of presentation. "Paroxysmal AF" is defined as an episode of AF that terminates spontaneously or with medical intervention within seven days of onset. The term "permanent AF" refers to AF episodes longer than seven days, and "long-term persistent AF" is used by some authors to refer to cases longer than one year. Finally, the term "permanent AF" is used when attempts to convert to sinus rhythm have been abandoned.
The prognosis of AF is related to its close association with increased risk of ischemic and hemorrhagic stroke, and mortality. Other important consequences of AF include cognitive changes and socioeconomic implications

Prevention of thromboembolic phenomena
Patients with AF are more likely to have blood clots, which is an inherent risk of arrhythmia. Those at very low risk do not need anticoagulation, and should be identified and considered as non-eligible for this therapy. The score used for this purpose is the CHA2DS2-VASc (initials for congestive HF, hypertension, age, diabetes mellitus, stroke, vascular disease, age, sex category) ( Table 1). 10 Patients with a score of zero do not need anticoagulation, for the risk of thrombotic complications is very low. A CHA2DS2-VASc of 1 is considered a low risk (1.3% per year); in this case, anticoagulation is optional, depending on the risk of bleeding or patient's decision. All other patients have a definite indication for anticoagulation. HAS BLED (initials for hypertension, abnormal renal or liver function, stroke, bleeding, labile international normalized ratio -INR, elderly, drugs or alcohol use) is the most used score to estimate bleeding risk. (Table 2) A score > 3 indicates increased risk of bleeding by OACs. It is worth mentioning, however, that the score does not contraindicate the use of OACs, but rather gives direction on special measures aimed to make the treatment safer.
There are four NOACs available for prevention of thromboembolic events: the direct factor Xa inhibitors rivaroxaban, apixaban and edoxaban and the direct fator IIa inhibitor dabigatran. Dabigatran was the first NOAC available at the market and validated by the RE-LY study (Randomized Evaluation of Long-term anticoagulant therapY with dabigatran etexilate. 11 This is a prospective, randomized, phase III study that compared two doses of dabigatran (110 mg and 150 mg) twice a day with adjusted doses of warfarin. The primary outcomes were stroke and systemic embolism. Warfarin 150 mg showed better safety outcomes, including major bleeding, without statistical significance. The dose of 110mg was non-inferior to warfarin, showing a reduction of 20% in bleeding rate.
The ROCKET-AF (Rivaroxaban-once daily, oral, direct factor Xa inhibition compared with vitamin K antagonism for prevention of stroke and Embolism Trial in Atrial Fibrillation) study introduced rivaroxaban in clinical practice to prevent thromboembolic phenomena in patients with nonvalvular . With respect to safety outcomes, there was a significant decrease in the incidence of hemorrhagic stroke and intracranial hemorrhage, with no effect on mortality rate.
The ARISTOTLE (Apixaban for Reduction in Stroke and Other Thromboembolic Events in Atrial Fibrillation) was the main study on evaluation of apixaban in patients with nonvalvular AF. 13 This randomized, double-blind study evaluated apixaban, given in 5mg doses twice a day or in adjusted dose of 2.5 mg, twice a day, in patients with at least two of the three following factors: age older than 80 years, body weight lower than 60 kg, and a serum creatinine level greater than or equal to 1.5 mg/dL . Warfarin was used as control. As compared with warfarin, apixaban significantly reduced the risk of the efficacy outcomes (stroke and systemic embolism) by 21%, major bleeding by 31%, and all-cause mortality by 11%.
Edoxaban was assessed in the ENGAGE -AF (Edoxaban versus Warfarin in Patients with Atrial Fibrillation) study. 14 This was a three-arm, randomized, double-blind study on the use of warfarin and two regimens (low dose and high dose) of edoxaban. Both high-dose (60 mg once a day) and low-dose (30 mg once a day) edoxaban was non-inferior to warfarin. In patients assigned to receive edoxaban, the dose established at randomization was halved if any of the characteristics was present: creatinine clearance lower than 50 mL/minute, a body weight lower than 60 kg, or the concomitant use of a potent P-glycoprotein inhibitor (verapamil). High-dose edoxaban significantly reduced the rate of ischemic and hemorrhagic stroke, whereas a significant increase in ischemic stroke rate was observed in patients that received a low-dose of the drug. Therefore, the best efficacy-safety ratio was obtained from high-dose regimen. While the low-dose regimen of edoxaban provides higher safety in terms of the risk of major bleeding and hemorrhagic stroke, it tends to lose in efficacy.
Recommendations for prevention of thromboembolic phenomena in nonvalvular AF are described in Chart 1.
The NOACs have caused a drastic change in the therapeutic approach to nonvalvular FA, in terms of prevention of thromboembolic events. However, drug-related hemorrhagic complications may represent a limitation. NOACs have short half-life, and hence a low-degree bleeding may be controlled by discontinuation of the drug. Different NOACs have distinct pharmacokinetic characteristics, which may influence the therapy. Dabigatran, for example, binds weakly to plasma proteins, and are potentially removed by hemodialysis. On the other hand, both riaroxaban and apixaban are not dialyzable, due to strong plasma protein binding. Activated charcoal could be used in case of anticoagulant ingestion within two hours of a hemorrhagic event, although its use is contraindicated in gastrointestinal bleeding. Activated charcoal is available in powder and may be diluted in water or juice for administration in awake patients or by nasogastric tube, at 1g/kg body weight. Despite not currently available in Brazil, there have been advances in medications that can reverse the effect of NOACs. Idarucizumab is a monoclonal antibody fragment that binds to dabigatran with higher affinity than to thrombin. The effect of idarucizumab as an anticoagulant reversal agent has been evaluated by intravenous administration; based on the results, the drug has been recently approved for clinical use in the United States.
Andexanet is an inactive recombinant protein that reverses the anticoagulant effect by binding to activated factor X inhibitors (rivaroxaban, apixaban and edoxaban). The effect of its intravenous administration has been also evaluated, with satisfactory rates of reversal. It is expected that the use of andexanet in clinical practice will be approved soon.
Administration of supplemental clotting factors via frozen plasma may also be an option of anticoagulant reversal. However, the concentrations of these factors are lower than in prothrombin complex concentrates (PCC), which, in turn, may be indicated for severe hemorrhage. 15 Although the OACs continue to be the main treatment option to prevent embolic phenomena in patients with AF, the use of anticoagulants is associated with risks, especially hemorrhagic stroke and other potentially severe bleeding, such as gastrointestinal bleeding. This therapeutic limitation, associated with the severity of AF-related embolic events, has motivated the development of new strategies aimed to reduce the incidence of thromboembolic phenomena. In this context, left atrial appendage closure (LAAC) emerged as an alternative approach. The main recommendations for this treatment strategy are described in Chart 2.

Antiarrhythmic drugs in the clinical management of atrial fibrillation
When evaluating an AF patient, the patient may be allocated to a rhythm control or to a heart rate control strategy, depending on echocardiographic features and the progress in previous therapies. In this regard, the use of antiarrhythmic (AA) agents has a relevant role in both strategies. An initial assessment should identify the presence of structural heart disease, as well as to evaluate whether the cause is reversible.
There are a limited number of medications for the maintenance of sinus rhythm in Brazil. The available drugs are propaphenone, sotalol and amiodarone, and neither dofetilide nor droneadrone is available in the country. Propaphenone is useful for acute reversal and maintenance of sinus rhythm. It is a safe medication to be administered in patients with normal heart structure, but should be avoided in structural heart disease because of the risk of ventricular arrhythmia. 16 Sotalol has shown no significant result in reversing arrhythmia acutely, but was effective in maintaining sinus rhythm in up to 72% of some groups of patients within 6 months, and thus may be useful in recurrence prevention.
In addition, sotalol reduce the occurrence of symptoms by decreasing the ventricular response of the episodes due to its beta-blocker effect. The most common side effects are related to the beta-blocker effect, including tiredness and fatigue. Nevertheless, the most important symptom is prolongation of QT interval and development of torsade de pointes. Sotalol cannot be used in patients with congestive HF. 17 Amiodarone is effective in reversing and maintaining sinus rhythm. Some studies have shown superiority of this drug over the others; however, in addition to the proarrhythmic risk, amiodarone may produce important side effects in many organs. Currently, it is the available drug for patients with congestive HF. 18 Another strategy is the control of heart rate, which is important for both prevention of symptoms (e.g . palpitations, tiredness and reduced capacity for exercise), reduction of disease-related morbidity, and specially prevention of tachycardiomyopathy, which has an impact of patients' quality of life. However, the optimal heart rate in AF is still controversial. Many drugs have been tested and shown to be effective in the control of heart rate, including beta-blockers, non-dihydropyridine calcium channel blockers, and some antiarrhythmics, such as amiodarone and sotalol. To choose the most suitable drug, one must consider the severity of patients' symptoms, hemodynamic state, ventricular function, precipitating factors of AF and the risk for adverse events.
Beta-blockers are the most commonly used medications for the control of heart rate in AF. 19 The main action is the blockade of adrenergic tone by competitive inhibition of the binding of cathecolamines to beta-receptors. This class of drugs mitigates the reduction in spontaneous depolarization (phase 4 of action potential), particularly in sinus node and atrioventricular (AV) node cells (reduces AV node conduction), and increases refractoriness of the His-Purkinje system. Non-dihydropyridine calcium channel blockers such as verapamil and diltiazem block L-type calcium channels especially in the AV node of cardiac conduction system. These drugs are effective in the control of heart rate in acute or permanent AF 20 via intravenous or oral administration. Digoxin is commonly used in the control of heart rate in AF, although it is not considered a first line agent for this purpose. It has a direct action on the membrane of atrial cells, ventricular cells and conduction system, by increasing vagal tone, and consequently reducing sinus node automacity and AV node conduction. Recommendations for the use of antiarrhythmic drugs in AF are described in Chart 3.

Catheter ablation for atrial fibrillation
Intensive therapy by catheter ablation may be considered for rhythm control in AF.

Heart rate control
In patients resistant or intolerant to medications for heart rate control, AV junction ablation (induction of complete AV block) with pacemaker implantation may be indicated. 21,22 (Chart 4). This is a simple intervention with high success rate and low risk of complications, improving the quality of life of patients and reducing hospitalizations and HF incidence as compared with pharmacological treatments. Pacemaker implantation should be performed 4-6 weeks before the AV junction ablation for adequate maturation of electrode leads, since these patients are dependent on the pacemaker.

Rhythm control
There is solid evidence that AF ablation (pulmonary vein isolation) is more effective than AA drugs in rhythm control, [23][24][25] which has gradually increased the use of interventional therapy for AF. In recent international guidelines, 26-28 ablation is recommended (Class I) in case of failure of an AA drug and also as the first choice (Class IIa) in patients with paroxysmal AF, without structural disease. Both patients with structural heart disease and patients with paroxysmal AF may be considered for ablation as the initial therapy, in case of suspicion of tachycardiomyopathy and patient's desire for this therapy.
Data confirming the benefits of AF ablation in very old patients, patients with long-standing persistent AF, or advanced HF are still missing. 28 Its indication for asymptomatic patients has not been established yet, and is still a matter of controversy. [26][27][28] There is still no evidence that AF ablation is a better intervention as compared with AA drugs with respect to reduction of hard outcomes, such as mortality, HF and stroke. These issues are being addressed by ongoing studies. 29 The main objective of AF ablation is the electrical isolation of pulmonary veins. Among the available techniques, the most widely used is the conventional point-by-point radiofrequency (RF) ablation, guided by electroanatomical mapping and/or intracardiac electrocardiogram. [30][31][32] The use of cryoablation balloon for circumferential ablation of pulmonary veins is an equally validated, alternative technique. 28,33,34 Also, the use of circular multipolar catheters (that perform simultaneous delivery of energy through all electrodes) 35 and laser balloon catheters 36 to create RF lesions has also increased.
Despite its proven efficacy, AF ablation is a highcomplexity procedure that involves a nearly 4.5% risk for major complications. 28,[37][38][39] In addition, AF ablation is not a curative procedure. Recurrence is common, particularly following pulmonary vein reconnections or atrial substrate progression. 40 In these cases, a new ablation procedure may be needed, 41 and after ablation, all patients should be anticoagulated for a 2-3 month-period . [26][27][28] At the end of this period, the anticoagulants may be suspended in patients with low risk of thromboembolic phenomena. 42,43 Since late and asymptomatic recurrences of AF may also occur after ablation, 44,45 patients should be monitored for a long period to ensure the control of arrhythmia.
Indications for AF are listed in Chart 3.

New mapping and ablation technologies
Three-dimensional mapping of AF is nowadays considered the standard therapy for this condition worldwide. Aiming to visually guide the examiner in the analysis of left atrial anatomy and catheter localization, the technique allowed the reduction of radiation exposure for patients and staff.

Three-dimensional mapping systems
The three-dimensional mapping systems allow a 3-D reconstruction of the left atrium and pulmonary veins by mobilization of a catheter positioned in heart chamber and in direct contact with the left atrial wall, with reduced X-ray exposition. 46 There is a consensus among Brazilian experts that the use of treedimensional mapping increases the safety of ablation procedure.

Intracardiac echocardiography
In intracardiac echocardiography, the catheter is placed inside the right atrium, corresponding to an optimal adjuvant strategy in ablation procedures.

Rotational angiography
Rotational angiography is a x-ray method used for image acquisition of the left atrium in the electrophysiology laboratory using a basic hemodynamic system. 47,48 The disadvantage of this method, as compared with the above described three-dimensional mapping technique, is the requirement of an ionic contrast media and a large amount of radiation.

Ablation catheter technologies
Nowadays, nearly all procedures are performed using irrigated ablation catheters. 49,50 More recently, irrigated ablation catheters with contact force sensor have become available, which measure the intensity of the interaction between the catheter and the myocardium, and may increase the efficacy of the lesion by reduction of complications. [51][52][53][54] With respect to new energy sources, three types of sources are currently available -ultrasound, laser and cryotherapy.

Robotic navigation technologies
Robotic navigation has emerged based on the high radiation exposure present in most AF catheter ablation modalities. [55][56][57] However, studies demonstrating higher success or decreased complication rates with these technologies are not available yet, and their high cost is also a barrier to be overcome.

Surgical treatment for atrial fibrillation
Many surgical procedures for the treatment of AF have been developed since the 80's. [58][59][60][61][62] The Cox-Maze III procedure, or labyrinth surgery, is the gold standard for surgical treatment of AF. The key components in this procedure and in most of the new surgical techniques for AF are also pulmonary vein isolation and atrial appendage resection.
Although the Maze surgery may be performed by a minimally invasive approach, involving a small chest incision, the technique requires 45-60 minutes of extracorporeal circulation (when performed by experienced hands) and cardioplegia. [63][64][65] Furthermore, although this procedure may be performed alone, the surgery is commonly indicated for patients that require surgical interventions for other conditions, such as valvular and ischemic heart diseases.
Today, few patients are referred to surgery for AF alone. Even in those undergoing a surgical approach for other reasons, surgeons are reluctant to perform the Maze surgery, due to its complexity and magnitude.

Hybrid treatment of atrial fibrillation
The so called "hybrid procedures" combine the minimally invasive epicardial surgery with electrophysiological mapping techniques and endocardial catheter ablation. This mixed approach is aimed to patients with persistent AF or longstanding persistent AF, to whom the use of one of these techniques alone would be unsatisfactory. [66][67][68][69][70][71][72][73] In general, the initial results of hybrid procedures have been encouraging, especially considering the complexity of the treated population (persistent, long-standing AF). However, these results have been obtained from small samples. It is expected that the use of hybrid procedures expands as improvements in these techniques are made.