1. SURGICAL ABLATION OF ATRIAL FIBRILLATION DURING MITRAL VALVE SURGERY THE CARDIOTHORACIC SURGICAL TRIALS NETWORK Marc Gillinov, M.D. For the CTSN Investigators AATS 2015

2. Disclosures Consultant/Speaker AtriCure Medtronic On-X Edwards Tendyne Research Funding St. Jude Medical Equity Interest Clear Catheter Cleveland Clinic Right to receive royalties from AtriCure for a left atrial appendage occlusion device

3. AF Ablation in Mitral Patients

4. AF in Mitral Patients If left untreated AF causes: Stroke Mortality

5. Survival: AF and Mitral Repair % Years AF No AF N=1200 100 80 60 40 20 0 0246810

6. 35,000 30,000 25,000 20,000 15,000 10,000 5,000 0 2005 2006 2007 2008 2009 2010 Number of Patients 45 44 43 42 41 40 39 35 36 Percent of Patients 37 Ablation for AF Preop AF Percent with Ablation Year of Surgery Ad et al, J Thorac Cardiovasc Surg 2012;144:1051-60) AF Ablation in Cardiac Surgery

7. 70,000 60,000 50,000 40,000 30,000 20,000 10,000 0 65 60 55 50 45 40 35 25 30 Ablation for AF Preop AF Percent with Ablation CABG AVR MV Surgery MV Surgery CABG +AVR CABG +AVR CABG +MV CABG +MV Other Number of Patients Percent of Patients Ad et al, J Thorac Cardiovasc Surg 2012;144:1051-60) Concomitant Surgical Ablation

8. Reasons for No Maze 2010 Survey of AATS Attendees Concern about Added Risk

9. AF and Mitral Valve Surgery Patients Does Ablation Improve rhythm control? Increase risk? Improve clinical outcomes?

10. AF and Mitral Valve Surgery Patients Case Study 69 year old woman 4+ MR (Degenerative Disease) Long-standing persistent AF NYHA Class 2 How should the surgeon treat the AF?

11. RecommendationCORLOE An AF surgical ablation procedure is reasonable for selected patients with AF undergoing cardiac surgery for other indications IIaC J Am Coll Cardiol. 2014;64(21):2246-80 2014 AHA/ACC/HRS Guidelines Surgical AF Ablation

12. Clinical Trial

14. Purpose To assess the safety and effectiveness of ablation in patients presenting for mitral valve surgery who have persistent or long-standing persistent AF To compare two different lesion sets Pulmonary vein isolation (PVI) Biatrial Maze

15. Persistent and Long-Standing Persistent AF Persistent AF Non-self-terminating AF lasting more than 7 days or less than 7 days if cardioverted Long-Standing Persistent AF Continuous AF of more than one year’s duration HRS/EHRA/ECAS Consensus Statement, 2012

16. Surgical Ablation Options No Ablation PVIBiatrial Maze LAA closure performed in all patients

17. Primary Endpoint Freedom from AF at both 6 and 12 months by 3- day Holter monitor Powered (90%) to detect an increase of 20% in the proportion of patients free of AF with ablation therapy Pts who died before 12 month assessment or had subsequent ablation were considered treatment failures

18. Mortality MACCE Quality of life Serious adverse events Secondary Endpoints

19. CTSN Surgical AF Ablation Trial Design Excluded (n=3242) Enrollment Allocated to MVS + Ablation (n=133) Pulmonary Vein Isolation (PVI) (n=67) Biatrial Maze (n=66) Allocated to MVS Alone (n=127) Allocation Withdrawal or lost to follow-up (n=8) Death before month 12 (n=9) Withdrawal or lost to follow-up (n=10) Death before month 12 (n=11) Follow-Up Primary Endpoint Analysis (n=133) Primary Endpoint Data (n=106) 6 & 12 Month Holter (n=96) Died (n=9) Underwent Ablation (n=1) Imputed (n=27) Primary Endpoint Analysis (n=127) Primary Endpoint Data (n=102) 6 & 12 Month Holter (n=88) Died (n=11) Underwent Ablation (n=3) Imputed (n=25) Analysis Randomized (n=260) Assessed for Eligibility (n=3502)

20. MVS Alone (N=127) MVS & Ablation (N=133) Female –no. (%)63 (49.6)57 (42.9) Age (yr)69.4 ± 10.069.7 ± 10.4 NYHA Class III & IV –no. (%)62 (49.2)56 (42.1) Atrial fibrillation duration –med (IQR) 29 (3, 96)18.5 (3, 65) Atrial fibrillation type28 (18.7)24 (16.0) Longstanding Persistent71 (55.9)70 (52.6) Persistent56 (44.1)63 (47.4) Anticoagulants –no. (%)97 (76.4)105 (79.0) Anti-arrhythmic Drugs (Class III)15 (11.8)14 (10.5) Mitral disease etiology Organic73 (57.5)75 (56.4) Functional non-ischemic48 (37.8)43 (32.3) Ischemic6 (4.7)15 (11.3) Baseline Characteristics

21. MVS Alone (N=127) MVS & Ablation (N=133) Female –no. (%)63 (49.6)57 (42.9) Age (yr)69.4 ± 10.069.7 ± 10.4 NYHA Class III & IV –no. (%)62 (49.2)56 (42.1) Atrial fibrillation duration –med (IQR) 29 (3, 96)18.5 (3, 65) Atrial fibrillation type28 (18.7)24 (16.0) Longstanding Persistent71 (55.9)70 (52.6) Persistent56 (44.1)63 (47.4) Anticoagulants –no. (%)97 (76.4)105 (79.0) Anti-arrhythmic Drugs (Class III)15 (11.8)14 (10.5) Mitral disease etiology Organic73 (57.5)75 (56.4) Functional non-ischemic48 (37.8)43 (32.3) Ischemic6 (4.7)15 (11.3) Baseline Characteristics

22. MVS Alone (N=127) MVS & Ablation (N=133) Female –no. (%)63 (49.6)57 (42.9) Age (yr)69.4 ± 10.069.7 ± 10.4 NYHA Class III & IV –no. (%)62 (49.2)56 (42.1) Atrial fibrillation duration –med (IQR) 29 (3, 96)18.5 (3, 65) Atrial fibrillation type28 (18.7)24 (16.0) Longstanding Persistent71 (55.9)70 (52.6) Persistent56 (44.1)63 (47.4) Anticoagulants –no. (%)97 (76.4)105 (79.0) Anti-arrhythmic Drugs (Class III)15 (11.8)14 (10.5) Mitral disease etiology Organic73 (57.5)75 (56.4) Functional non-ischemic48 (37.8)43 (32.3) Ischemic6 (4.7)15 (11.3) Baseline Characteristics

23. MVS Alone (N=127) MVS & Ablation (N=133) Female –no. (%)63 (49.6)57 (42.9) Age (yr)69.4 ± 10.069.7 ± 10.4 NYHA Class III & IV –no. (%)62 (49.2)56 (42.1) Atrial fibrillation duration –med (IQR) 29 (3, 96)18.5 (3, 65) Atrial fibrillation type28 (18.7)24 (16.0) Longstanding Persistent71 (55.9)70 (52.6) Persistent56 (44.1)63 (47.4) Anticoagulants –no. (%)97 (76.4)105 (79.0) Anti-arrhythmic Drugs (Class III)15 (11.8)14 (10.5) Mitral disease etiology Organic73 (57.5)75 (56.4) Functional non-ischemic48 (37.8)43 (32.3) Ischemic6 (4.7)15 (11.3) Baseline Characteristics

24. MVS Alone (N=127) MVS & Ablation (N=133) Mitral Valve Surgery Replacement61 (48.4)54 (40.6) Repair65 (51.6)79 (59.4) Concomitant Procedures Tricuspid Valve Surgery48 (38.1)50 (37.6) Aortic Valve Replacement20 (15.9)14 (10.5) CABG25 (19.8)27 (20.3) Cardiopulmonary Bypass Time (min)* 132.5 +51147.8 +63.3 Cross-Clamp Time (min) 95.9 +36.3102.9 +41.5 Operative Characteristics *P-Value for Cardiopulmonary Bypass Time = 0.03

25. MVS Alone (N=127) MVS & Ablation (N=133) Mitral Valve Surgery Replacement61 (48.4)54 (40.6) Repair65 (51.6)79 (59.4) Concomitant Procedures Tricuspid Valve Surgery48 (38.1)50 (37.6) Aortic Valve Replacement20 (15.9)14 (10.5) CABG25 (19.8)27 (20.3) Cardiopulmonary Bypass Time (min)* 132.5 +51147.8 +63.3 Cross-Clamp Time (min) 95.9 +36.3102.9 +41.5 Operative Characteristics *P-Value for Cardiopulmonary Bypass Time = 0.03

26. Freedom From AF (%) Risk Difference of Success 0.34 (95% CI, 0.21 - 0.47), P<0.001 Randomization Group Primary Endpoint

27. Freedom From AF (%) Risk Difference of Success 0.05 (95% CI, -0.13 - 0.23), P=0.60 Ablation Group Biatrial Maze vs. PVI

28. Mortality Mortality (%) Months MVS Alone127118111108104 MVS + Ablation133127120119116

29. MACCE Composite Cardiac End Point (%) Months MVS Alone1271101019690 MVS + Ablation13311411010697

30. Quality of Life MVS Alone (N=127) MVS & Ablation (N=133) P-Value SF-12 Physical Function45.3 ±7.944.3 ±9.00.38 Mental Function48.5 ±6.548.0 ±6.30.56 AF Severity Scale Daily AF –no. (%)42 (45.2)20 (19.8)<0.001 Life Rating (1-10, median) 8.0 (7,9) 0.45 NYHA Class III + IV –no. (%) 3 (2.9)8 (7.0)0.17

31. Serious Adverse Events (Rate/100 Pt-Yrs) Incidence Rate Ratio 1.20 (95% CI, 0.95 - 1.51), P=0.12 Randomization Group Serious Adverse Events

32. Serious Adverse Events (Rate/100 Pt-Yrs) Randomization Group Pacemaker Implantation Incidence Rate Ratio 2.64 (95% CI, 1.20 - 6.41), P<0.001

33. Permanent Pacemaker Timing (%) Randomization Group Pacemaker Timing Index Hospitalization During After

34. Unique Trial Features Largest RCT of surgical ablation for AF Mitral valve patients Persistent and long-standing persistent AF Stringent heart rhythm endpoint 3-day Holter monitor Both 6 and 12 months Repeat ablation procedures and death considered treatment failures

35. Limitations Primary endpoint not a clinical endpoint Trial with mortality or stroke endpoint would require more than one thousand patients and many years of follow up Twenty percent of patients did not have primary endpoint data (Holter recordings, death or subsequent ablation)

36. Summary Ablation significantly increased 1-year freedom from AF (63% vs. 29%) No apparent difference between PVI and biatrial maze lesion sets Ablation did not increase mortality or major adverse cardiac or cerebrovascular events Ablation was associated with increased risk of permanent pacemaker implantation

37. Conclusion Surgical ablation improves rhythm control in mitral valve patients with persistent and long-standing persistent AF Establishing the impact of ablation on long-term survival, freedom from stroke and need for anticoagulation will require further investigation

38. Investigators Data Coordinating Center: InCHOIR Montefiore – Einstein Emory University Duke University Hôpital Laval University of Virginia Health System Montreal Heart Institute University of Pennsylvania Columbia University Medical Center Cleveland Clinic Foundation University of Maryland Brigham and Women's Hospital Sacré-Cœur de Montréal Ohio State University Medical Center East Carolina Heart Institute Wellstar / Kennestone Baylor Research Institute University of Southern California St. Michael’s Hospital Toronto General Hospital Mission Hospital NIH Heart Center at Suburban Hospital Inova Heart & Vascular Institute University of Alberta Hospital Centre Hospitalier de l'Université de Montréal Sunnybrook Health Sciences Centre Aarhus University

39. Acknowledgements Supported by U01 HL088942 Cardiothoracic Surgical Trials Network (CTSN) Funding Agencies: National Heart, Lung, and Blood Institute National Institute of Neurological Disorders and Stroke Canadian Institutes for Health Research

40. AF Treatment Clinical Outcomes

41. Louagie et al: Ann Thorac Surg, 2009 Treated AF Untreated AF Restoration of Normal Sinus Rhythm 1.0.8.6.4.2 0 024487296120 Percent Sinus Rhythm P < 0.001 Months after surgery

42. Variables Good Quality Poor Quality p-value of Life of Life Follow-up (mos) 20 ± 1823 ± 15 NS Normal Sinus Rhythm59%22%0.0004 Atrial fibrillation40%78% NYHA III–IV (%)10360.007 Fortani et al: Ann Thorac Surg, 2006 Improved Quality of Life

43. Stulak et al: Ann Thorac Surg, 2008 Halts Progression of Tricuspid Insufficiency 70 60 50 40 30 0 Preop to postop Percent with TR Progression Time Comparison Postop to FUPreop to FU 20 10 No Maze Maze

44. Itoh et al: Eur J Cardiothorac Surg, 2006 Successfully Treated AF Persistent AF Greater Freedom from Stroke 100 80 60 40 20 0 151012 Freedom from Stroke (%) Years after surgery P < 0.003

45. Successfully Treated AF Untreated AF Fukunaga et al: Ann Thorac Surg, 2008 Fewer Long-Term Thromboembolic and Valve-Related Complications P = 0.002 100 80 60 40 20 0 051015 Freedom from Stroke (%) Years after surgery

46. Successfully treated AF Untreated AF Fukunaga et al: Ann Thorac Surg, 2008 Decrease in All Complications P = 0.002 100 80 60 40 20 0 051015 Freedom from Complications (%) Years after surgery Intractable AF

47. Treated AF Untreated AF Fukunaga et al: Ann Thorac Surg, 2008 Decrease in All Complications P = 0.002 100 80 60 40 20 0 051015 Freedom from Complications (%) Years after surgery

48. 1.0.8.6.4.2 0 012345 Survival Probability Months after surgery Lee et al: J Thor CardiovascSurg, 2012 Treated AF Untreated AF P = 0.0001 Improved Long-Term Survival No AF

49. AF and Mitral Valve Surgery Patients Does Ablation Improve rhythm control?Yes Increase risk?No Improve clinical outcomes?Probably

50. Conclusion In the mitral patient with AF Perform ablation Treat appendage

51. Parked Slides

53. Prophylactic Maze Based on current data…

55. AF and Mitral Valve Surgery Patients Present in 30% to 50% Associated with adverse outcomes How should surgeons treat the AF?

56. Surgical Treatment Options No AblationPVIBiatrial Maze

57. Heart Rhythm Interventions MVS Alone (N=127) MVS & Ablation (N=133) P-Value Cardioversion (3 mths post- randomization) –no. (%) 12 (9.5)8 (6.0)0.30 AADs (1 year) –no. (%)15 (14.6)15 (13.2)0.76 Ablation –no. (%)3 (2.4)1 (0.8)0.36 Pacemaker –no. (rate/100 Pt-yrs)9 (8.1)26 (21.5)0.01

58. Pacemaker Indications MVS Alone (N=9 PPM) MVS & Ablation (N=26 PPM) Heart Block –no. (%)4 (44.4)14 (53.9) Sinus Node Dysfunction –no. (%)3 (33.3)9 (34.6) Control AF –no. (%)2 (22.2)0 (0.0) Unknown –no. (%)0 (0.0)3 (11.5)

59. Primary Safety Endpoint (Composite) Death Stroke Heart failure MI Cardiac Readmissions Pulmonary embolism Peripheral embolism Excessive bleeding DSWI/Mediastinitis Permanent pacemaker Damage to adjacent structures TIA At 30 days post index surgery / hospital discharge (whichever is first)

60. Primary Safety Endpoint

61. CTSN Surgical AF Ablation Trial Design Excluded (n=3242) Enrollment Allocated to MVS + Ablation (n=133) Pulmonary Vein Isolation (PVI) (n=67) Biatrial Maze (n=66) Allocated to MVS Alone (n=127) Allocation Withdrawal before month 12 (n=6) Lost to follow-up before month 12 (n=2) Death before month 12 (n=9) Withdrawal before month 12 (n=6) Lost to follow-up before month 12 (n=4) Death before month 12 (n=11) Follow-Up Primary Endpoint Analysis (n=133) Primary Endpoint Data (n=106) 6 & 12 Month Holter (n=96) Died (n=9) Underwent Ablation (n=1) Imputed (n=27) Primary Endpoint Analysis (n=127) Primary Endpoint Data (n=102) 6 & 12 Month Holter (n=88) Died (n=11) Underwent Ablation (n=3) Imputed (n=25) Analysis Randomized (n=260) Assessed for Eligibility (n=3502)

62. Explore Two Different Lesion Sets Ablation arm further randomized to pulmonary vein isolation vs. biatrial maze Lesion set randomization for exploratory analysis only