Transcript Slide 1
Rhythm Management Defining Atrial Fibrillation • A supraventricular tachycardia characterized by uncoordinated atrial activation with consequent deterioration of atrial mechanical function • Characterized by replacement of consistent P waves with rapid oscillation of fibrillatory waves, varying in amplitude, shape, and timing • Associated with an irregular and frequently rapid ventricular response (with intact AV conduction) • For management purposes, atrial flutter should be treated as AF Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 2 www.HRSonline.org Management of Patient With AF Initial Presentation With AF Hemodynamically Stable Hemodynamically Unstable Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 3 www.HRSonline.org Classification of AF ACC/AHA/ESC Guidelines First Detected Paroxysmal (Self-terminating) Persistent (Not self-terminating) Permanent Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 4 www.HRSonline.org Pharmacologic Management of Patients With Newly Discovered AF ACC/AHA/ESC Guidelines Newly Discovered AF Paroxysmal No therapy needed, unless severe symptoms (eg, hypotension, HF, angina pectoris) Anticoagulation, as needed Fuster et al. J Am Coll Cardiol. 2006;48:854-906. Persistent Accept permanent AF Rate control and anticoagulation, as needed Anticoagulation and rate control, as needed Consider antiarrhythmic drug therapy Cardioversion Long-term drug prevention unnecessary 5 www.HRSonline.org Management of Stable Patients With AF • Control heart rate • Determine duration of AF • Anticoagulation as appropriate • Assess for comorbidities and contributing/reversible factors • Decide rate or rhythm strategy 6 www.HRSonline.org Pharmacologic Management of Patients With Newly Discovered AF Recurrent Paroxysmal AF Newly Discovered AF Paroxysmal No therapy needed, unless severe symptoms (eg, hypotension, HF, angina pectoris) Anticoagulation, as needed Fuster et al. J Am Coll Cardiol. 2006;48:854-906. Persistent Accept permanent AF Rate control and anticoagulation, as needed Anticoagulation and rate control, as needed Consider antiarrhythmic drug therapy Cardioversion Long-term drug prevention unnecessary 7 www.HRSonline.org Anatomic and Electrophysiologic Substrates Promoting AF Initiation and Maintenance Substrates Diseases Anatomic Cellular Electrophysiologic Substrate pathways during sinus rhythm (remodeling related to stretch and dilatation). Main pathways involve the RAAS, TGF-Beta, and CTGF Htn Atrial dilatation Myolysis Conduction Abnormalities HF PV dilatation Apoptosis, necrosis ERP dispersion CAD Fibrosis Channel expression change Ectopic activity Valvular disease Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 8 www.HRSonline.org Anatomic and Electrophysiologic Substrates Promoting AF Initiation and Maintenance Substrates Diseases Anatomic Cellular Electrophysiologic Substrate develops due to tachycardia (tachycardia-related modeling, downregulation of calcium channel, and calcium handling). Focal AF None or None or Ectopic activity A Flutter Atrial dilatation Ca++ channel downregulation Microreentry PV dilatation Myolysis Short ERP Large PV sleeves Connexin downregulation ERP dispersion Decrease Contractility Adrenergic supersensitivity Slowed conduction Fibrosis Changed sympathetic innervation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 9 www.HRSonline.org Etiologies and Factors Predisposing Patients to AF Endocrine disorders Electrophysiologic abnormalities Hyperthyroidism Enhanced automaticity (focal AF) Pheochromocytoma Conduction abnormality (reentry) Changes in autonomic tone Atrial pressure elevation Increased parasympathetic activity Mitral or tricuspid valve disease Increased sympathetic activity Myocardial disease (1o or 2o, with systolic or diastolic dysfunction) Primary or metastatic disease Postoperative Aortic valve disease with LVH Systemic or pulmonary hypertension Intracardiac tumors or thrombi Cardiac, pulmonary, or esophageal Atrial ischemia (CAD) Congenital heart disease Neurogenic Subarachnoid hemorrhage Nonhemorrhagic, major stroke Idiopathic (lone AF) Familial AF Inflammatory/infiltrative atrial disease Pericarditis, amyloidosis, myocarditis Age-induced atrial fibrotic changes Drugs Alcohol Caffeine Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 10 www.HRSonline.org Mechanisms of AF Focal Activation Multiple Wavelets SVC SVC LA RA LA RA PVs PVs IVC IVC Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 11 www.HRSonline.org Anatomy of Pulmonary Veins SVC Extension of muscular fibers into pulmonary vein (PV) Ganglia noted in yellow LSPV LIPV Common locations of PV (purple) and common sites of origin of non-PV triggers (black) LSPV LIPV RSPV RIPV SVC LSPV LIPV RIPV IVC IVC SVC SVC RSPV RIPV LSPV LIPV IVC Calkins et al. Heart Rhythm. 2007;4:1-46. www.HRSonline.org RSPV Large and small reentrant wavelets that play a role in initiating and sustaining AF RSPV Composite of anatomic and arrhythmic mechanisms of AF RIPV IVC 12 Mechanisms of AF: Triggers for Induction of AF Triggers that induce AF include Sympathetic or parasympathetic stimulation Bradycardias or atrial tachycardias or atrial premature contractions Acute atrial stretch Ectopic foci • Pulmonary vein, RA, SVC, coronary sinus, other areas Reentrant wavelets if wavelengths are short • Depressed conduction velocity • Unstable reentrant circuit of short cycling • Stable reentrant circuit of short cycling Allessie et al. Circulation. 2001;103:769-777. 13 www.HRSonline.org Mechanisms of AF: Perpetuation Substrate that sustains AF Persistence of triggers Persistence of atrial dilation Persistence of shortened AERP Increased dispersion in AERP Inhomogeneous dispersion of conduction abnormalities Disorganization and fragmentation of gap junctions Allessie et al. Circulation. 2001;103:769-777. 14 www.HRSonline.org Perpetuation of AF: Electrophysiologic Mechanisms Burst pacing AF Sinus rhythm Duration of fibrillation 5 seconds Control AF After 24 hours 20 seconds Sustained AF After 2 weeks >24 hours Wijffels et al. Circulation. 1995;92:1954-1968. 15 www.HRSonline.org Pharmacologic Management of Patients With Newly Discovered AF Rate Control vs Rhythm control Newly Discovered AF Paroxysmal No therapy needed, unless severe symptoms (eg, hypotension, HF, angina pectoris) Anticoagulation, as needed Fuster et al. J Am Coll Cardiol. 2006;48:854-906. Persistent Accept permanent AF Rate control and anticoagulation, as needed Anticoagulation and rate control, as needed Consider antiarrhythmic drug therapy Cardioversion Long-term drug prevention unnecessary 16 www.HRSonline.org Rate and Rhythm Control Definitions •Rate control • Ventricular rate is controlled both at rest and with exertion • No commitment to maintaining SR •Rhythm control • Attempts restoration and maintenance of SR • Rate control required as needed •Can switch from rhythm control to rate control, but harder to switch from rate control to rhythm control if AF has been persistent for a long period of time •DO NOT FORGET ANTICOAGULATION AS NEEDED for either strategy Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 17 www.HRSonline.org What Is Adequate Rate Control? • Adequate rate control is critical to avoid tachycardia-mediated cardiomyopathy • 60-80 beats per minute at rest AND • 90-115 beats per minute with exertion • Criteria vary with age • May be evaluated using 24-hour Holter recording Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 18 www.HRSonline.org Achieving Rate Control Class/Recommendations Acutely IV administration of -blockers (esmolol, metropolol, or propranolol) or nondihydropyridine calcium channel blocker (verapamil, diltiazem) IV administration of digoxin or amiodarone in patients with HF (only in the absence of an accessory pathway) Long-term Measurement of heart rate at rest and with exertion Beta blockers or nondihydropyridine calcium channel blocker Digoxin only in patients with HF, LV dysfunction, or sedentary individuals Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 19 www.HRSonline.org Agents for Heart Rate Control Acute Setting Drug Loading Dose Onset Maintenance Dose Major Side Effects Heart rate control in patients without accessory pathway 500 mcg/kg IV over 1 min 5 min 60 to 200 mcg/kg/m IV ↓ BP, HB, ↓ HR, asthma, HF Metoprolol 2.5 to 5 mg IV bolus over 2 min; up to 3 doses 5 min NA ↓ BP, HB, ↓ HR, asthma, HF Propranolol 0.15 mg/kg IV 5 min NA ↓ BP, HB, ↓ HR, asthma, HF Diltiazem 0.25 mg/kg IV over 2 min 2 to 7 min 5 to 15 mg/h IV ↓ BP, HB, HF Verapamil 0.75 to 0.15 mg/kg IV over 2 min 3 to 5 min NA ↓ BP, HB, HF Esmolol Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 20 www.HRSonline.org Agents for Heart Rate Control: Acute Setting Drug Loading Dose Onset Maintenance Dose Major Side Effects Heart rate control in patients with accessory pathway Amiodarone 150 mg over 10 min Days 0.5 to 1 mg/min IV ↓ BP, HB, pulmonary toxicity, skin discoloration, hypo- and hyperthyroidism, corneal deposits, optic neuropathy, warfarin interaction, sinus bradycardia Heart rate control in patients with HF and without accessory pathway Digoxin 0.25 mg IV each 2 h, up to 1.5 mg 60 min 0.125 to 0.375 mg daily IV or PO Digitalis toxicity, HB, ↓ HR Amiodarone 150 mg over 10 min Days 0.5 to 1 mg/min IV As above Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 21 www.HRSonline.org Agents for Heart Rate Control: Nonacute and Chronic Maintenance Drug Onset Loading and Maintenance Dose Major Side Effects Heart rate control Metoprolol 4 to 6 h 25 to 100 mg bid, PO ↓ BP, HB, ↓ HR, asthma, HF Propranolol 60 to 90 min 80 to 240 mg daily in divided doses, PO ↓ BP, HB, ↓ HR, asthma, HF Diltiazem 2 to 4 h 120 to 360 mg daily in divided doses; slow release available, orally ↓ BP, HB, HF, digoxin interaction Verapamil 1 to 2 h 120 to 360 mg daily in divided doses; slow release available, PO ↓ BP, HB, HF, digoxin interaction Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 22 www.HRSonline.org Agents for Heart Rate Control: Nonacute and Chronic Maintenance Drug Loading Dose Onset Maintenance Dose Major Side Effects Heart rate control in patients with HF and without accessory pathway 0.5 mg PO daily 2 days 0.125 to 0.375 mg qd, PO Digitalis toxicity, HB, ↓ HR 800 mg qd for 1 wk, PO 600 mg qd for 1 wk, PO 400 mg qd for 4 to 6 wk, PO 1 to 3 wk 200 mg qd, PO ↓ BP, HB, pulmonary toxicity, skin discoloration, hypo- and hyperthyroidism, corneal deposits, optic neuropathy, warfarin interaction, sinus bradycardia Digoxin Amiodarone Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 23 www.HRSonline.org Pharmacologic Management of Patients With Newly Discovered AF ACC/AHA/ESC Guidelines Newly Discovered AF Paroxysmal No therapy needed, unless severe symptoms (eg, hypotension, HF, angina pectoris) Anticoagulation, as needed Fuster et al. J Am Coll Cardiol. 2006;48:854-906. Persistent Accept permanent AF Rate control and anticoagulation, as needed Anticoagulation and rate control, as needed Consider antiarrhythmic drug therapy Cardioversion Long-term drug prevention unnecessary 24 www.HRSonline.org Clinical Considerations for Management Strategy • Duration and patterns of AF • Type and severity of symptoms • Associated cardiovascular disease • Potential for changes in cardiac function over time Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 25 www.HRSonline.org Rhythm vs Rate Control in AF Evidence Base 5 prospective, controlled, randomized trials comparing 2 different treatment strategies AFFIRM Atrial Fibrillation Follow-up Investigation of Rhythm Management RACE RAte Control versus Electrical Cardioversion for Persistent Atrial Fibrillation PIAF Pharmacological Intervention in Atrial Fibrillation (pilot) STAF STrategies in Atrial Fibrillation (pilot) HOT CAFÉ HOw to Treat Chronic Atrial Fibrillation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 26 www.HRSonline.org Rhythm vs Rate Control in AF Evidence Base Follow-up (y) Age, y (mean SD) AFFIRM (2002) 3.5 70 9 35% vs 63% (at 5 y) RACE (2002) 2.3 68 9 10% vs 39% (at 2.3 y) PIAF (2000) 1.0 61 10 10% vs 56% (at 1 y) STAF (2003) 1.6 66 8 11% vs 26% (at 2 y) HOT CAFÉ (2004) 1.7 61 11 NR vs 64% Trial aComparison Patients in SRa between rate and rhythm control group. Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 27 www.HRSonline.org Rhythm vs Rate Control in AF Evidence Base (cont'd) Rate 20 18 16 14 12 10 8 6 4 2 0 Rhythm Death AF É AF H O T C ST AF PI E R AC FI R M C T H O AF AF É AF ST AF PI E R AC AF FI R M Percent Stroke Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 28 www.HRSonline.org Patient Characteristics in AFFIRM • Long-term treatment of chronic and paroxysmal AF • Patients 65 years of age or other risk factor for stroke with • • • • • • AF 6 hours in past 6 months Not continuous AF for 6 months 1 episode documented by ECG in past 12 weeks 1 risk factor for stroke (age 65 years) AF likely to be recurrent Able to participate in trials of ≥2 drugs in both strategies • Randomized to rate vs rhythm control • Patients required to be able to tolerate AF; therefore, patients were a relatively asymptomatic group • Both groups anticoagulated The AFFIRM Investigators. N Engl J Med. 2002;347:1825-1833; Waldo. Am J Cardiol. 1999;84:698-700. 29 www.HRSonline.org Patient Characteristics in RACE • Inclusion criteria • Recurrent, persistent atrial fibrillation or flutter • No contraindication to anticoagulation • Undergone 1-2 cardioversions within 2 years prior to enrollment • Exclusion criteria • Duration of arrhythmia >1 year • NYHA functional class IV CHF • Current or previous treatment with amiodarone or pacemaker Van Gelder et al. N Engl J Med. 2002;347:1834-1840. 30 www.HRSonline.org Primary End Point All-Cause Mortality in AFFIRM Cumulative Mortality (%) 30 Rhythm N: Rate N: Rhythm Control 25 Rate Control 20 15 10 P=.058 5 0 0 1 2033 2027 1932 1925 2 3 Time (years) 1807 1316 1825 1328 4 5 780 774 255 236 Wyse. Presented at: American College of Cardiology 51st Annual Meeting; March 17-20, 2002; Atlanta, GA. 31 www.HRSonline.org Cumulative Cardiac Mortality in AFFIRM 30 Rhythm Control 25 Death (%) Rate Control 20 15 Log-rank statistic=0 P=.9517 10 5 0 0 1 2 3 4 5 Time (years) N, Events (%) Rate Rhythm 2027, 0 (100) 2033, 0 (100) 1926, 42 (2) 1932, 37 (2) 1827, 69 (3) 1807, 70 (4) 1329, 92 (5) 1316, 94 (5) 774, 115 (7) 780, 116 (7) 236, 130 (10) 1, 130 (10) 255, 129 (9) 1, 129 (9) Steinberg et al. Circulation. 2004;109:1973-1980. 32 www.HRSonline.org Cumulative Noncardiovascular Mortality in AFFIRM 30 Rhythm Control 25 Death (%) Rate Control 20 15 Log-rank statistic=11.2 P=.0008 10 5 0 0 1 2 3 4 5 Time (years) Steinberg et al. Circulation. 2004;109:1973-1980. 33 www.HRSonline.org AFFIRM Results Post-hoc Analysis Covariate HR 99% CI P Value Time dependent Sinus rhythm <.0001 Warfarin use <.0001 Digoxin use .0007 .0005 AAD use 0 0.5 1 1.5 2 2.5 The benefits of sinus rhythm are offset by the toxicity of AADs used in AFFIRM Corley et al. Circulation. 2004;109:1509-1513. 34 www.HRSonline.org Score (mean) on SF-36 Scales Quality of Life in AF RACE Study Control subjects (n=172) 100 81 80 62 60 67 63 64 73 RACE subjects (n=352) 74 77 77 84 81 71 59 54 65 47 40 20 0 Hagens et al. J Am Coll Cardiol. 2004;43:241-247. 35 www.HRSonline.org A4 Study Results: Quality of Life P=.0012 Physical function AAD Group (n=59) Ablation Group (n=53) P=.0024 Social function Mental health P=.0018 Physical component P=.0174 Mental component P=.0106 0 20 40 60 80 100 Jaïs et al. Presented at: Heart Rhythm Society 2006 Annual Scientific Sessions; May 17-20, 2006; Boston, MA. 36 www.HRSonline.org Symptoms in AF AF (n=152) Healthy (n=47) PTCA (n=69) 25 Quality of Life Score b b 20 a 15 a 10 5 0 Frequency Severity aP<.001 compared with AF patients; bP<.01 compared with AF patients. Dorian et al. J Am Coll Cardiol. 2000;36:1303-1309. 37 www.HRSonline.org Increase in Duration (seconds) Exercise Duration: AF vs SR SAFE-T Trial Sinus Rhythm 100 Atrial Fibrillation 80 P=.01 P=.02 60 40 20 0 8 Weeks 1 Year Singh et al. J Am Coll Cardiol. 2006;48:721-730. 38 www.HRSonline.org Rate vs Rhythm Control ACC/AHA/ESC “Before choosing rate control as a long-term strategy, the clinician should consider how permanent AF is likely to affect the patient in the future. RACE…and AFFIRM…do not necessarily apply to younger patients without heart disease or to patients whose dependency upon sinus rhythm is likely to change appreciably over time. This makes it important to ensure that a window of opportunity to maintain sinus rhythm is not overlooked early in the course of management of a patient with atrial fibrillation.” Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 39 www.HRSonline.org AF in Patients With HF HF may develop or deteriorate with AF Progression of underlying cardiac disease Uncontrolled heart rate Antiarrhythmic drug toxicity AF may exacerbate HF symptoms due to Loss of atrial “kick” Rapid heart rate Patients in AFFIRM did not develop or deteriorate differently in rate vs rhythm arms Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 40 www.HRSonline.org Impact of Rhythm Control on HF Study PIAF Key Findings Rhythm control resulted in better exercise capacity when compared with rate control CHF-STAT Patients with AF who converted to normal sinus rhythm on amiodarone had a lower mortality compared with those who did not Catheter ablation for atrial fibrillation in congestive heart failure Restoration and maintenance of sinus rhythm using catheter ablation improved cardiac function, symptoms, exercise capacity, and quality of life in patients with CHF and AF PABA-CHF trial AF ablation was superior to AV nodal ablation with biventricular pacing in improving ejection fraction, 6-minute walk distance and quality of life in a cohort of patients with CHF CHF=congestive heart failure. Akoum and Hamdan. Current Heart Failure Reports. 2007;4:78-83. 41 www.HRSonline.org Hospitalization for Worsening HF DIAMOND CHF Probability of Survival 1.0 Placebo Events=290 n=756 Dofetilide Events=229 n=762 0.8 0.6 0.4 0.2 HR=0.75 95% CI, 0.63-0.89 P<.001 0.0 0 12 Time (months) 24 Torp-Pedersen et al. N Engl J Med. 1999;341:857-865. 42 www.HRSonline.org LV Function Postablation in HF P.001 LV Ejection Fraction (%) 70 65 P.001 P.001 6 12 P.001 60 55 50 45 40 35 30 25 0 0 Hsu et al. N Engl J Med. 2004;351:2373-2383. 1 3 Month 43 www.HRSonline.org AF-CHF Trial • Prospective, open-label, multicenter trial • Inclusion criteria –Symptomatic (NYHA class 2-4) with LVEF 35% –Asymptomatic with prior hospitalization for CHF or LVEF 25% –History of significant AF –1 episode >6-hour duration within past 6 months or –1 episode of shorter duration but with prior electrical cardioversion • 1376 patients randomly allocated to rhythm or rate control • 123 sites in North America, South America, and Europe • Minimum follow-up 2 years • Optimal heart failure management with ACE inhibitors, -blockers, and anticoagulation therapy for both groups Roy. Presented at: American Heart Association 2007 Scientific Sessions; November 2007; Orlando, FL. 44 www.HRSonline.org AF-CHF Trial: Methods and Patients • >66% had persistent AF • >50% previously hospitalized for AF or CHF • Cardioversion in rhythm-control group • Initial attempt with antiarrhythmic therapy • Electrical cardioversion within 6 weeks of randomization for those not converting on antiarrhythmic drugs » Amiodarone initial drug of choice » Sotalol and dofetilide used in select cases » Second cardioversion within 3 months if necessary » Patients refractory to antiarrhythmic drug therapy may receive additional nonpharmacologic therapies (eg, catheter ablation) • Rate control • Titrated doses of -blockers, digitalis, or both • Pacemaker and AV-node ablation as needed Roy. Presented at: American Heart Association 2007 Scientific Sessions; November 2007; Orlando, FL. 45 www.HRSonline.org AF-CHF Trial: Results • No difference in primary end point of CV death • 182 (26.7%) rhythm control vs 175 (25.2%) rate control (HR 1.058, P=.59) • No difference in prespecified secondary end points • Total mortality, worsening CHF, and stroke • Composite of CV death, worsening CHF, and stroke • CV mortality • 21% crossover from rhythm to rate control • Primarily due to inability to maintain SR • 10% crossover from rate to rhythm control • Primarily due to worsening HF • Higher hospitalization rate in rhythm control (46% vs 39% at 1 year; P=.0063) • Mainly due to hospitalization for AF and bradyarrhythmias (8.5% vs 4.9%; P=.0074) • Higher rate of cardioversions in rhythm control (39% vs 8%) Roy. Presented at: American Heart Association 2007 Scientific Sessions; November 2007; Orlando, FL. 46 www.HRSonline.org AF-CHF Trial of Rate vs Rhythm 50 Rate Rhythm Percent 40 30 20 10 0 CV Death Hospitalization Rate Bradyarrhythmias Also, no differences noted in secondary end points of total mortality, worsening CHF, and stroke Roy. Presented at: American Heart Association 2007 Scientific Sessions; November 2007; Orlando, Florida. 47 www.HRSonline.org AF-CHF Trial: Implications • In stable patients, no advantage to rhythm control for mortality or secondary end points • QoL results pending • Cannot be extrapolated to patients with clear-cut deterioration in clinical status at onset of AF • Decision for rate versus rhythm strategy must be symptom-driven Roy. Presented at: American Heart Association 2007 Scientific Sessions; November 2007; Orlando, FL. 48 www.HRSonline.org Rate vs Rhythm Control Current randomized studies do not demonstrate mortality differences in rate vs rhythm treatment approaches Patients randomized to these studies were older, relatively asymptomatic, and considered appropriate for either strategy QoL studies have indicated better results with SR Benefits of SR may be offset by AAD toxicity Symptom-driven decisions are recommended Caveat: symptoms may be subtle or difficult to elicit, so question patients carefully 49 www.HRSonline.org Pharmacologic Management of Patients With Newly Discovered AF Cardioversion Newly Discovered AF Paroxysmal No therapy needed, unless severe symptoms (eg, hypotension, HF, angina pectoris) Anticoagulation, Persistent Accept permanent AF Rate control and anticoagulation, as needed Anticoagulation and rate control, as needed Consider antiarrhythmic drug therapy as needed Fuster et al. J Am Coll Cardiol. 2006;48:854-906. Cardioversion Long-term drug prevention unnecessary 50 www.HRSonline.org Recommended Doses of Drugs Effective for Pharmacologic Cardioversion of AF Druga Amiodarone Route of Administration Oral Dosageb Potential Adverse Effects Inpatient: 1.2 to 1.8 g qd in divided dose Hypotension, bradycardia, QT, until 10 g total, then 200 to 400 mg qd TdP (rare), GI upset, constipation, maintenance or 30 mg/kg as single dose phlebitis (IV) Outpatient: 600 to 800 mg qd in divided dose to 10 g total, then 200 to 400 mg qd Intravenous/oral 5 to 7 mg/kg over 30 to 60 min, then 1.2 to 1.8 g qd continuous IV or in divided oral doses until 10 g total, then 200 to 400 mg qd maintenance Dofetilide Oral Creatinine Clearance Dose (mL/min) (mcg BID) >60 500 40 to 60 250 20 to 40 125 <20 Contraindicated QT, TdP; adjust dose for renal function, body size, and age aDrugs are listed alphabetically. bDosages given in the table may differ from those recommended by the manufacturers. Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 51 www.HRSonline.org Recommended Doses of Drugs Effective for Pharmacologic Cardioversion of AF (cont’d) Druga Flecainide Ibutilide Route of Administration Oral Dosageb 200 to 300 mgc Potential Adverse Effects Hypotension, atrial flutter with high ventricular rate Intravenous 1.5 to 3.0 mg/kg over 10 to 20 minc Intravenous 1 mg over 10 min; repeat 1 mg prn QT, TdP; Oral 600 mg Hypotension, atrial flutter with high ventricular rate Intravenous 1.5 to 2.0 mg/kg over 10 to 20 minc Propafenone Quinidined Oral 0.75 to 1.5 g in divided doses QT, TdP, GI upset, hypotension over 6 to 12 h, usually with a rateslowing drug aDrugs are listed alphabetically. bDosages given in the table may differ from those recommended by the manufacturers. cInsufficient data are available on which to base specific recommendations for the use of one loading regimen over another for patients with ischemic heart disease or impaired left ventricular function, and these drugs should be used cautiously or not at all in such patients. dThe use of quinidine loading to achieve pharmacologic conversion of AF is controversial, and safer methods are available with the alternative agents listed in the table. Quinidine should be used with caution. 52 www.HRSonline.org Pooled Results for the Efficacy and Adverse Effects of Drugs Used in Acute Conversion of AF Level of Evidence Drug Strong (# trials) Ibutilide (4) Range of Sustained Ventricular Arrhythmia in All Trials Reporting P Value Side Effects % <.01 0-9 Flecainide (5) <.01 0-2 Dofetilide (6) <.01 1-12 Propafenone (14) <.01 0-2 Amiodarone (15) <.01 0 Moderate (# trials) Quinidine (3) .02 0-12 Inconclusive (# trials) Disopyramide (1) .10 Not reported Sotalol (3) >.2 0-2 indicates placebo, calcium channel blockers, -blockers, or digoxin. McNamara et al. Ann Intern Med. 2003;139:1018-1033. aControl Odds Ratio of Conversion Compared With Control (95% CI)a 01 5 10 15 20 25 30 90 53 www.HRSonline.org Pharmacologic Management of Patients With Recurrent Paroxysmal Atrial Fibrillation : Sinus Rhythm Maintenance Recurrent Paroxysmal AF Minimal or no symptoms Disabling symptoms in AF Anticoagulation and rate control as needed Anticoagulation and rate control as needed No drug for prevention of AF Fuster et al. J Am Coll Cardiol. 2006;48:854-906. AAD therapy AF ablation if AAD treatment fails 54 www.HRSonline.org Indications for Use of Antiarrhythmic Therapy for SR Maintenance • First treat all precipitating or reversible causes • However, many factors, such as age, hypertension, HF, and enlarged LA, are not reversible • Success of SR maintenance can include infrequent, well-tolerated episodes of AF • Risk factors for recurrence of AF • Frequent AF (>1 episode per month) • Female, underlying heart disease • 4-year recurrence • Hypertension, age >55 years, AF duration >3 months • General risks • LA enlargement, rheumatic heart disease, HF Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 55 www.HRSonline.org Indications for Use of Antiarrhythmic Therapy for SR Maintenance • Short-term use • In AF >3 months, short-term therapy after cardioversion may be useful • Should be started before cardioversion (but after adequate length of anticoagulation) • Can be used for approximately 1 month • Long-term use • Best utilized in patients with recurrent paroxysmal AF in whom rhythm control is preferred • eg, patients with significant symptoms during AF Fuster www.HRSonline.org et al. J Am Coll Cardiol. 2006;48:854-906. 56 Determining Choice of Antiarrhythmic Agent for SR Maintenance • Guidelines contain an algorithm for choosing therapy to maintain SR • Choices include antiarrhythmic agents and nonpharmacologic therapy (ablation) • Algorithm is safety-based with clinical trial evidence of efficacy • Choices are dependent on patient characteristics • Classifying patients into appropriate categories is critical for management approach Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 57 www.HRSonline.org Maintenance of Sinus Rhythm No (or minimal) heart disease Hypertension Coronary artery disease Heart failure Flecainide Propafenone Sotalol Substantial LVH Dofetilide Sotalol Amiodarone Dofetilide Amiodarone Dofetilide Catheter ablation No Yes Flecainide Propafenone Sotalol Amiodarone Amiodarone Dofetilide www.HRSonline.org Catheter ablation Amiodarone Catheter ablation Catheter ablation Catheter ablation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 58 Maintenance of Sinus Rhythm No (or minimal) heart disease Hypertension Coronary artery disease Heart failure Flecainide Propafenone Sotalol Substantial LVH Dofetilide Sotalol Amiodarone Dofetilide Amiodarone Dofetilide Catheter ablation No Yes Flecainide Propafenone Sotalol Amiodarone Amiodarone Dofetilide www.HRSonline.org Catheter ablation Amiodarone Catheter ablation Catheter ablation Catheter ablation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 59 Special Considerations for Patients With HF • Particularly prone to proarrhythmic effects of antiarrhythmic drugs –Myocardial vulnerability –Electrolyte imbalance –Drug interactions –Renal dysfunction • Clinical trial evidence for safety with amiodarone and dofetilide • Utilize -blocker and ACE inhibitor (or ARB) therapy as indicated for HF or LV dysfunction • Flecainide and propafenone should be avoided Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 60 www.HRSonline.org Maintenance of Sinus Rhythm No (or minimal) heart disease Hypertension Coronary artery disease Heart failure Flecainide Propafenone Sotalol Substantial LVH Dofetilide Sotalol Amiodarone Dofetilide Amiodarone Dofetilide Catheter ablation No Yes Flecainide Propafenone Sotalol Amiodarone Amiodarone Dofetilide www.HRSonline.org Catheter ablation Amiodarone Catheter ablation Catheter ablation Catheter ablation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 61 Special Considerations for Patients With Coronary Disease • Beta blockers can be used, but data are not convincing for SR maintenance • Sotalol, amiodarone, and dofetilide have neutral effects on mortality • Sotalol preferred as monotherapy because of -blocking activity and fewer extracardiac side effects • Flecainide and propafenone should not be used in these patients because of increased mortalitya aIncreased mortality seen in CAST studies with flecainide and extrapolation to all class IC agents. Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 62 www.HRSonline.org Maintenance of Sinus Rhythm No (or minimal) heart disease Hypertension Coronary artery disease Heart failure Flecainide Propafenone Sotalol Substantial LVH Dofetilide Sotalol Amiodarone Dofetilide Amiodarone Dofetilide Catheter ablation No Yes Flecainide Propafenone Sotalol Amiodarone Amiodarone Dofetilide www.HRSonline.org Catheter ablation Amiodarone Catheter ablation Catheter ablation Catheter ablation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 63 Special Considerations for Patients With Hypertension • Hypertension is the most prevalent and modifiable risk factor for AF • Increased risk of torsades de pointes because of early ventricular after-depolarizations in hypertensive heart disease • In absence of ischemia or significant LVH, propafenone or flecainide are reasonable choices • Amiodarone first line in patients with LVH • In patients with substantial hypertensive heart disease, flecainide and propafenone should be avoided Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 64 www.HRSonline.org Maintenance of Sinus Rhythm No (or minimal) heart disease Hypertension Coronary artery disease Heart failure Flecainide Propafenone Sotalol Substantial LVH Dofetilide Sotalol Amiodarone Dofetilide Amiodarone Dofetilide Catheter ablation No Yes Flecainide Propafenone Sotalol Amiodarone Amiodarone Dofetilide www.HRSonline.org Catheter ablation Amiodarone Catheter ablation Catheter ablation Catheter ablation Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 65 No or Minimal Heart Disease • Patients with no obvious evidence of structural heart disease • Normal ECG and ventricular structure and function by echocardiogram; negative stress test (if indicated) • Flecainide, propafenone, and sotalol have demonstrated efficacy with fewer noncardiac side effects and minimal rates of proarrhythmia in this patient category Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 66 www.HRSonline.org Initiation of Antiarrhythmic Drug Therapy • Ensure normal electrolyte status • Initiate AV node blockade prior to use of antiarrhythmic agent without substantial AV-node–blocking activity • Initiate therapy with lower dose and appropriate up-titration as needed and after evaluating drug effects on ECG parameters • Ensure appropriate anticoagulation prior to starting antiarrhythmic drug therapy Fuster et al. J Am Coll Cardiol. 2006;48:854-906. 67 www.HRSonline.org Summary of Antiarrhythmic Trials for SR Maintenance 11,322 patients; 44 trials AF Recurrence Class IA Disopyramide vs other Class I drugs Class IC (Class II) Metoprolol Flecainide vs propafenone Class I drugs Class III: Sotalol Amiodarone Sotalol vs class I except quinidine Sotalol 0.10 1 10 Odds Ratio (95% CI) 0.10 1 10 Odds Ratio (95% CI) Lafuente-Lafuente et al. Arch Intern Med. 2006;166:719-728. 68 www.HRSonline.org New Formulations of AADs Propafenone RAFT and ERAFT Studies Proportion Free of Events RAFT (n=523) ERAFT (n=293) AF recurrence at 1 year (%) P 425 BID vs placebo: OR, 0.604 (95% CI, 0.433-0.843) P=.002 1 ERAFT 325 mg BID ERAFT 425 mg BID 0.8 0.6 0.4 RAFT 225 mg BID RAFT 325 mg BID RAFT 425 mg BID Placebo Propafenone 225 BID Propafenone 325 BID Propafenone 425 BID 0.2 0 0 50 100 150 Days 200 250 0 300 0.25 0.5 0.75 1 Propafenone better Pritchett et al. Am J Cardiol. 2002;92:941-946; Meinerz et al. Am J Cardiol. 2002;90:1300-1306. 69 www.HRSonline.org Free From AF Recurrence (OT/ITT) Sotalol vs Amiodarone SAFE-T 1.0 0.9 Amiodarone 809/487 0.8 0.7 Sotalol 209/74 0.6 Placebo 13/6 0.5 Sotalol 0.4 0.3 0.2 Placebo 0.1 0 100 200 300 400 500 600 700 800 900 1000 Days Singh et al. N Engl J Med. 2005;352:1861-1872. 70 www.HRSonline.org Typical Doses of Drugs Used to Maintain Sinus Rhythm in Patients With AF Drug Daily Potential Adverse Effects Amiodarone 100 to 400 mg Photosensitivity, pulmonary toxicity, polyneuropathy, GI upset, bradycardia, TdP (rare), hepatic toxicity, thyroid dysfunction, eye complications Disopyramide 400 to 750 mg TdP, HF, glaucoma, urinary retention, dry mouth Dofetilide 500 to 1000 mcg TdP Flecainide 200 to 300 mg VT, HF, conversion to atrial flutter with rapid conduction through AV node Propafenone 450 to 900 mg VT, HF, conversion to atrial flutter with rapid conduction through AV node Sotalol 160 to 320 mg TdP, HF, bradycardia, exacerbation of chronic obstructive or bronchospastic lung disease Fuster et al. Am Coll Cardiol. 2006;48:854-906. 71 www.HRSonline.org New AAD Development • Beta blockers with Class I or III effects • Amiodarone congeners • Atrial-selective antiarrhythmic drugs – IKur- , Ito and IKACh- blocker – Atrial-selective Na channel blocker – 5-HT4 receptor antagonist • Stretch-activated channel blockers • ACEI/ARB • NCX (Na/Ca exchanger) inhibitor • Anti-inflammatories (statins) • Gap junction conduction facilitation 72 www.HRSonline.org Selective Atrial Ion Channel Blockade Agent Mechanism of Action MPS IKur JTV 519 IKACh, IKr S1185, S9947, S2091 IKur AVE 0118 IKur, Ito, IKACh RS100302 (piboserod) 5-HT4 receptor Vernakalant IKur, Ito, INa, IKACh Wijffels et al. J Cardiovasc Electrophysiol. 2003;14(9 suppl):S40-S4; Camm et al. Heart Rhythm. 2004;1:244-246. 73 www.HRSonline.org Drugs That Block Multiple Ion Channels Agent Mechanism of Action Dronedarone IKr IKur Ito IKa INa -blocker Ambasilide IKr IKur IKs Azimilide IKr IKs Tedisamil IKr Ito IKATP INa IKur ATI-2042 IKr IKs B1 ICa Ito INa AZD 7009 IKr IKur INa Wijffels et al. J Cardiovasc Electrophysiol. 2003;14(9 suppl):S40-S4; Camm et al. Heart Rhythm. 2004;1:244-246. 74 www.HRSonline.org Upstream Therapy for Possible Prevention of AF: ACEIs and ARBs • Empiric observation of benefit in clinical trials • Decreased atrial pressure, frequency of APBs, fibrosis • May reduce signal-averaged P-wave duration, number of defibrillation attempts required, number of hospital readmissions for AF • May have role for primary prevention in patients with hypertension, MI, HF, or diabetes mellitus • May also reduce the recurrence of AF Fuster www.HRSonline.org et al. J Am Coll Cardiol. 2006;48:854-906. 75 Valsartan and AF in VALIANT Estimated Probability of AF 0.15 Placebo Valsartan 0.10 Log-rank test, P=.0001 0.05 0.00 0 3 6 9 12 15 18 21 24 27 Months Since Randomization Maggioni et al. Am Heart J. 2005;149:548-557. 76 www.HRSonline.org Candesartan and AF in CHARM P heterogeneity=0.57 Odds Ratio (95% CI), P Value Alternative 0.686 (0.470-1.002) Added 0.856 (0.617-1.187) Preserved 0.894 (0.618-1.295) 2 Low EF trials 0.779 (0.608-0.997), .0472 Overall 0.812 (0.662-0.998), .0476 0.2 0.4 0.6 0.8 1.0 1.2 Odds Ratio (95% CI) 1.4 Ducharme et al. Am Heart J. 2006;152:86-92. 77 www.HRSonline.org Kaplan-Meier Plot of Occurrence of Postop AF Patients Free of AF (%) 100 90 PUFAs Group 80 Log-rank, P=.009 70 Control Group 60 50 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Days After Surgery Calo et al. J Am Coll Cardiol. 2005;45:1723-1728. 78 www.HRSonline.org Ablation Catheter-based Second-line therapy in most patient categories • Especially in patients who cannot tolerate antiarrhythmics • In rare instances, may be first-line therapy Success rates vary depending on underlying disease, experience of operators, and definitions of success but are ~75% in select groups of patients Presence of LA thrombus is contraindication Surgical Generally MAZE procedure, utilized in patients already undergoing cardiac procedure Fuster www.HRSonline.org et al. J Am Coll Cardiol. 2006;48:854-906. 79 Indications for Catheter AF Ablation • Symptomatic AF refractory or intolerant to at least one Class I or III antiarrhythmic medication • In rare clinical situations, it may be appropriate as first-line therapy • Selected symptomatic patients with heart failure and/or reduced ejection fraction • Presence of a left atrial thrombus is contraindication to catheter ablation of AF Calkinswww.HRSonline.org et al. Heart Rhythm. 2007;4:1-46. 80 Who Should Be Referred for Ablation? • Patients who have been adequately evaluated for AF etiology and underlying diseases • Highly symptomatic patients in whom one or more antiarrhythmic agents have failed • Patients with understanding of efficacy and risks of ablation 81 www.HRSonline.org Patient Selection for Ablation More Optimal Patient Less Optimal Patient Highly symptomatic Minimally symptomatic 1 0 Paroxysmal Long-standing persistant Younger (<70 years) Older (70 years) Smaller (<5.0 cm) Larger (5.0 cm) Normal Reduced Congestive heart failure No Yes Other cardiac disease No Yes Pulmonary disease No Yes Sleep apnea No Yes Obesity No Yes Prior stroke/TIA No Yes Variable Symptoms Class I and III drugs failed AF type Age LA size Ejection fraction Courtesy of Hugh Calkins, MD. 82 www.HRSonline.org Controlled Trials of AF Ablation Patients Free of AF (% at 1 Year) Ablation 100 90 Control 87 86 79 75 80 86 70 56 Percent 60 50 40 30 20 10 0 RAAFT CACAF A4 APAF Milan/NR PABA CHF Courtesy of Jeremy N. Ruskin, MD, Massachusetts General Hospital. 83 www.HRSonline.org Pooled Studies: Observational and RCTs Patients Free of AF at 1-2 Years (%) OBS: N=1965; 8 Studies RCT: N=517; 4 Studies 100 77% 80 60 Percent Percent 80 100 40 76% 60 40 23% 20 20 0 0 Free of AF Recurrent AF 10% Ablation Control Courtesy of Jeremy N. Ruskin, MD, Massachusetts General Hospital. 84 www.HRSonline.org Worldwide Survey on Ablation Procedures for AF (1995-2002) • 8745 patients (age range 16-86 years); 90 ablation centers • Overall success rate: 76% –52% without AADs –24% with AADs • Major complication rate: 6% • 27% required >1 procedure • Follow-up: 11.6 7.7 months Cappato et al. Circulation. 2005;111:1100-1105. 85 www.HRSonline.org Success Rates With Ablation Worldwide Survey Success Without AADs Success With AADs Overall Success 100 90 80 Rates (%) 70 60 50 40 30 20 10 0 0-3 4-6 7-9 10-12 13-18 19-24 >24 Range of Follow-up (months) Cappato et al. Circulation. 2005;111:1100-1105. 86 www.HRSonline.org Worldwide Survey on Ablation for AF Major Complications 2 Percent 1.5 1 0.5 0 Death Tamponade Stroke TIA PV Infection, Femoral Valve stenosis pneumo/ pseudo- damage, Hemo- aneurysm, Ao thorax, AV dissection diaphragm fistula paralysis Cappato et al. Circulation. 2005;111:1100-1105. www.HRSonline.org 87 AF-Free Survival Ablation vs Pharmacologic Therapy AF-Free Survival Probability (%) 100 80 60 40 Ablation Group Medical Group 20 0 0 No. at risk Ablation 589 Medical 582 180 360 540 720 Days of Follow-up 900 1080 507 456 479 354 217 141 135 97 379 277 282 207 Pappone et al. J Am Coll Cardiol. 2003;42:185-197. 88 www.HRSonline.org Cumulative AF-Free Survival Freedom From AF Following Pulmonary Vein Isolation Normal vs Impaired LV Function 100 90 80 P=.03 70 60 Impaired LV Function (n=94) Normal LV Function (n=283) 50 40 30 60 90 120 150 180 210 240 270 300 330 360 390 420 Follow-up Time (days) Chen et al. J Am Coll Cardiol. 2004;43:1004-1009. 89 www.HRSonline.org RAAFT Outcomes at 1 Year No significant difference in Severe, moderate, or mild pulmonary vein stenosisa Bleeding Thromboembolic eventsb Significant difference Hospitalization • AAD (54%) vs PVI (9%) • P<.001 Symptomatic AF recurrence • AAD (63%) vs PVI (13%) • P<.001 Survival Free From Atrial Fibrillation Bradycardia 1.0 0.9 PVI Group 0.8 0.7 0.6 Antiarrhythmic Drug Group 0.5 0.4 0.3 0.2 0.1 0.0 0.0 100 200 Follow-up (days) 300 90 www.HRSonline.org CACAF Study of Ablation in Drug-Refractory AF Atrial Arrhythmia–Free Survival Curves After the Blanking Period 100 Percent Survival Ablation Group (n=68) 80 Control Group (n=69) 60 40 P<.001 20 0 0 1 2 3 4 Stabile et al. Eur Heart J. 2006;27:216-221. 5 6 7 8 9 10 11 12 Months 91 www.HRSonline.org A4 Study Results Ablation Group (n=53) 80 AAD Group (n=59) 70 60 Percent 50 40 30 20 10 0 Free of Arrhythmia Recurrence at 1 Year (%) Discontinued Oral Anticoagulation (%) Jaïs et al. Presented at: Heart Rhythm Society 2006 Annual Scientific Sessions; May 17-20, 2006; Boston, MA. 92 www.HRSonline.org A4 Study Results Kaplan-Meier Plots for Time to AF Recurrence Probability of No AF Recurrence Ablation 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 Antiarrhythmic Drug 75% P<.0001 (log-rank test) 7% 0 100 200 300 400 500 Follow-up Days Jaïs et al. Presented at: Heart Rhythm Society 2006 Annual Scientific Sessions; May 17-20, 2006; Boston, MA. 93 www.HRSonline.org Limitations of Current Ablation Data • Few current trials are prospective • Single-center results not necessarily reflective of general results • Ablation patients frequently also receive AADs • Therapy crossovers 94 www.HRSonline.org CABANA Trial Recent-onset AF Eligible for ablation or drug therapy 65 years old or <65 years with 1 risk factor for CAD or stroke Primary Ablation (technique at operator discretion) Discontinued Anticoagulation Continued Anticoagulation Drug Therapy (rate or rhythm control [at operator discretion] with anticoagulation) Packer. Presented at 2005 Scientific Sessions of the American Heart Association. November 13-16; Dallas, TX. 95 www.HRSonline.org P<.001 LV End-Diastolic Diameter (mm) 0 75 70 65 60 55 50 45 0 1 3 Month P=.001 0 1 P<.001 P<.001 P<.001 P=.03 3 Month 6 P=.02 6 LV Fractional Shortening (%) 70 65 60 55 50 45 40 35 30 25 0 40 35 P=.001 12 P<.001 P<.001 P<.001 P<.001 30 25 20 15 0 12 0 LV End-Systolic Diameter (mm) LV Ejection Fraction (%) Improvement in LV Function and Dimensions After Ablation in Patients With CHF 55 50 45 40 35 30 0 1 3 Month 6 12 P<.001 P<.001 P=.001 P=.001 0 1 3 Month 6 12 Plotted values are means SD. P values, which are for the comparison with baseline data, were determined with the use of Fisher’s least-significant-difference test. The numbers of patients included at each time point were as follows: 0 month, 58; 1 month, 55; 3 months, 48; 6 months, 40; 12 months, 34. Hsu et al. N Engl J Med. 2004;351:2373-2383. 96 www.HRSonline.org Estimated Outcomes and Risks of AF Ablation Success Single Procedure Multiple Procedure Optimal patient 60%-80% 80%-90% Less optimal patient 50%-70% 70%-80% <40% 40%-60% Poor candidate Major Complication Rates 2%-12% Left atrial flutter 2%-5% Vascular access related 1%-5% Cardiac tamponade 0.5%-3% Stroke 0.5%-2% PV stenosis <1% Phrenic nerve injury <0.5% Esophageal perforations <0.2% Mitral valve entrapment <0.1% Acute coronary occlusion <0.1% Death <0.1% Courtesy of Hugh Calkins, MD. 97 www.HRSonline.org Common Lesions Performed in AF Ablation SVC LSPV LIPV LSPV LIPV RSP V RIPV SVC LSPV LIPV RSPV RIPV IVC IVC SVC SVC RSP V RIPV IVC LSPV LIPV RSP V RIPV IVC Calkins et al. Heart Rhythm. 2007;4:1-46. 98 www.HRSonline.org Ablation Techniques • Ablation strategies that target PVs and/or PV antrum are cornerstones for most AF ablation procedures • If PVs are targeted, complete electrical isolation should be goal • For surgical PV isolation, entrance and/or exit block should be demonstrated • Careful identification of PV ostia is mandatory to avoid ablation within PVs • If focal trigger is identified outside PV at time of AF ablation procedure, it should be targeted if possible Calkins et al. Heart Rhythm. 2007;4:1-46. 99 www.HRSonline.org Postablation Management • LMWH or IV heparin as bridge to systemic anticoagulation • Warfarin for all patients for 2 months • Use of warfarin >2 months following ablation based on patient’s risk factors for stroke and not presence or type of AF • Discontinuation of warfarin therapy postablation generally not recommended for CHADS2 score 2 Calkins et al. Heart Rhythm. 2007;4:1-46. 100 www.HRSonline.org Postablation Management Blanking period • Blanking period 3 months after ablation when reporting outcomes Definition of success • Freedom from AF/flutter/tachycardia without antiarrhythmic therapy is 1o end point • Freedom from AF at various points following ablation may be better marker of true benefit; consider as 2o end point • Atrial flutter and other atrial tachyarrhythmias=treatment failures • An episode of AF/flutter/tachycardia with duration of 30 seconds detected by monitoring considered recurrence Calkins et al. Heart Rhythm. 2007;4:1-46. 101 www.HRSonline.org Postablation Management Minimal monitoring • Follow-up minimum of 3 months following ablation procedure; then every 6 months for 2 years • Obtain event monitor to screen for recurrrent AF/flutter/tachycardia in patients with palpitations during follow-up • AF/flutter/tachycardia episode present if documented by ECG lasting 30 seconds • 24-hour Holter monitoring is acceptable minimal monitoring strategy for patients in clinical trials and recommended at 3-6 month intervals for 1-2 years Calkins et al. Heart Rhythm. 2007;4:1-46. 102 www.HRSonline.org Postablation Management Repeat procedures • Repeat procedures should be delayed for at least 3 months following initial ablation if patient’s symptoms can be controlled with medical therapy Complication reporting • Major complications are defined as those that result in permanent injury or death, require intervention for treatment, or prolong or require hospitalization Calkins et al. Heart Rhythm. 2007;4:1-46. 103 www.HRSonline.org Take-Home Points • Heart rate control at rest and with exertion is critical for either AF strategy • Rate vs rhythm approach should be guided by many factors, most importantly, symptoms and appropriate application of clinical trials • Guidelines contain algorithms on how to choose method for SR maintenance • Certain antiarrhythmics are appropriate for select groups of patients • Ablation is an important option in SR maintenance • Appropriate patient categorization is critical for management 104 www.HRSonline.org