Percutaneous Mitral Valve Repair: What Can We Treat and What Should We Treat Innovative Procedures, Devices & State of the Art Care for Arrhythmias, Heart Failure & Structural Heart Disease October 8-10, 2015 Hilton Hawaiian Village, Honolulu, HI Christian Spies, MD Interventional Cardiology The Queen s Medical Center Associate Professor of Medicine University of Hawaii What Can We Treat and What Should We Treat Can treat (FDA approved): Moderate to severe, degenerative mitral regurgitation in patients who are deemed too high risk for surgery (STS score >6/8%) Should treat (Not FDA approved): Isolated moderate to severe, functional mitral regurgitation irrespectively of the operability of the patient 1
Prevalence (%) of moderate to severe valve disease 10/10/2015 Mitral Regurgitation Needs Assessment 14 12 10 8 6 4 2 0 All valve disease Mitral valve disease Aortic valve disease <45 45-54 55-64 65-74 >75 Age (years) > 9.3% for 75 year olds (p<.0001) Nkomo et al. Lancet, 2006; 368: 1005-11. 3 Mitral Regurgitation Needs Assessment Mitral Regurgitation 2009 U.S. Prevalence Total MR Patients 1,2 4,100,000 Eligible for Treatment 3,4 (MR Grade 3+) Annual Incidence 3 (MR Grade 3+) Annual MV Surgery 5 1,700,000 1,670,000 250,000 30,000 Untreated Large and Growing Clinical Unmet Need 14% Newly Diagnosed Each Year Only 2% Treated Surgically 1. US Census Bureau. Statistical Abstract of the US: 2006, Table 12. 2. Nkomo et al. Burden of Valvular Heart Diseases: A Population-based Study, Lancet, 2006; 368: 1005-11. 3. Patel et al. Mitral Regurgitation in Patients with Advanced Systolic Heart Failure, J of Cardiac Failure, 2004. 4. ACC/AHA 2008 Guidelines for the Management of Patients with Valvular Heart Disease, Circulation: 2008 5. Gammie, J et al, Trends in Mitral Valve Surgery in the United States: Results from the STS Adult Cardiac Database, Annals of Thoracic Surgery 2010. 2
Mitral Regurgitation Anatomy Annulus Leaflets Cordae Papillary Muscles Adjacent Myocardium Mitral Regurgitation Classification Primary = Degenerative MR Secondary = Functional MR Primary: Anatomic abnormality the mitral valve Leaflets Subvalvular apparatus Chordae and papillary muscles Secondary : LV dilation; often secondary to ischemic heart disease Leads to mitral annular dilation Incomplete coaptation of the mitral valve 3
Survival % 10/10/2015 Mitral Regurgitation Classification Primary The Valve Secondary The Ventricle Usually myxomatous Ischemic or not Asymptomatic Degenerative MR Natural History 100 1 RF 90 80 2 RF 95 ±2 MR 3 or EF <50% 70 60 50 70 ±5 55 ±9 0 2 4 6 8 10 Years after diagnosis Risk Factors Age 50 yrs Atrial fibrillation LA enlargement Flail Mild MR Avierinos JF, et al. Circulation 2002;106:1355 8 4
Survival % Survival (%) Rate of Cardiac Events % 10/10/2015 Asymptomatic Degenerative MR Severity and Survival Worse Survival More CV Events 100 90 80 70 60 50 0 P<0.01 ERO <20mm 2 (91 ±3%) ERO 20-39mm 2 (66 ±6%) ERO 40mm 2 (58 ±9%) 0 1 2 3 4 5 70 60 50 40 30 20 10 0 P<0.01 ERO 40mm 2 (62 ±8%) ERO 20-39mm 2 (40 ±7%) ERO <20mm 2 (15 ±4%) 0 1 2 3 4 5 Years Years Enriquez-Sarano M et al. NEJM 2005;352:875-83 9 EF and Surgical Outcome 100 80 72 ±4% 60 40 20 EF 60% EF 50-60% EF <50% 53 ±9% 32 ±12% 0 P=0.0001 0 1 2 3 4 5 6 7 8 9 10 Enriquez-Sarano M, et al., Circulation 1994;90:830-837 Years EF <60% is Abnormal in MR 5
Survival % Survival % 10/10/2015 Symptoms and Surgery 100 80 90 ±2 76 ±5 60 73 ±3 40 20 NYHA I-II NYHA III-IV 48 ±4 0 P<0.0001 0 1 2 3 4 5 6 7 8 9 10 Years Tribouilly CM et al., Circulation 1999;99:400-5 11 Degenerative MR- Early Surgery is Better Patients without Class I Indications 100 80 Early surgery 60 40 Medical management Suri R et al., JAMA 2013;310:609-16 20 0 Log-rank P<.001 0 5 10 15 20 Follow-up, y 12 6
Freedom From Mitral Regurgitation Event-free Survival 10/10/2015 Functional MR- No Mortality Benefit with Surgery 1.0 0.8 0.6 0.4 0.2 0.0 0 500 1000 1500 2000 Time (Days) Wu AH, et al. J Am Coll Cardiol 2005;45:381-87 Functional MR- High Risk of Recurrence 100 80 60 40 20 0 DMR >3+ DMR >2+ IMR > 2+ 0 1 2 3 4 5 6 7 8 9 10 12 14 16 18 20 Years Glower. JACC 2012;60:1315-22 7
Current General Principals of Therapy Degenerative MR No medical option for valve Surgery for symptoms or LV dysfunction Asymptomatic if repairable and low risk Surgery is Class I Indication Functional MR Medical therapy first Consider CRT Surgery only in highly selected patients with HF Surgery is Class II b Indication Nishimura et al. JACC 2014;63:e57 Unoperated MR in Europe 396 patients with symptomatic severe MR 53% degenerative 160 140 120 100 80 60 40 20 0 P<0.0001 63% 59% 67% 42% Decision not to operate Decision to operate 15% <50 50-60 60-70 70-80 >80 No surgery in 49% Predictors were age, morbidity, nonischemic etiology, MR severity Mirabel M, et al. Eur Heart J 2007;28:1358-1365 16 8
Percutaneous Mitral Valve Repair MitraClip System EVEREST II Trial 279 Patients enrolled at 37 sites Significant MR (3+-4+) Specific Anatomical Criteria Randomized 2:1 Device Group MitraClip System N=184 Control Group Surgical Repair/Replacement N=95 Echocardiography Core Lab and Clinical Follow-Up: Baseline, 30 days, 6 months, 1 year, 18 months, and annually through 5 years Feldman et al. Engl J Med 2011;364:1395-406. 9
EVEREST II Trial Inclusion Candidate for MV Surgery Moderate to severe (3+) or severe (4+) MR Symptomatic >25% EF & LVESD 55mm Asymptomatic with one or more of the following LVEF 25-60% LVESD 40mm New onset atrial fibrillation Pulmonary hypertension All Etiologies included! Exclusion AMI within 12 weeks Need for other cardiac surgery Renal insufficiency Creatinine >2.5mg/dl Endocarditis Rheumatic heart disease MV anatomical exclusions Mitral valve area <4.0cm 2 Leaflet flail width ( 15mm) and gap ( 10mm) Leaflet tethering/coaptation depth (>11mm) and length (<2mm) Feldman et al. Engl J Med 2011;364:1395-406. EVEREST II Trial Primary Endpoints (ITT) Safety Major Adverse Events 30 days Effectiveness Clinical Success Rate 12 months Device Group, n=180 15.0% Device Group, n=175 55% Control Group, n=94 p SUP <0.0001 47.9% Control Group, n=89 p NI =0.007 73% 0 20 40 60 Met superiority hypothesis Pre-specified margin =2% Observed difference = 32.9% 97.5% LCB = 20.7% Feldman et al. Engl J Med 2011;364:1395-406. LCB = lower confidence bound UCB = upper confidence bound 0 10 20 30 40 50 60 70 80 90 100 Met non-inferiority hypothesis Pre-specified margin = 25% Observed difference = 7.3% 95% UCB = 17.8% 10
EVEREST II Trial Conclusions FDA approval of MitraClip for all patients with mitral regurgitation (degenerative and functional)? Feldman et al. Engl J Med 2011;364:1395-406. Prohibitive Surgical Risk DMR Cohort (n=127) Age: 82 ±9 years Prior MI: 24% Prior stroke: 10% Diabetes: 30% COPD: 32% Renal disease: 28% Mean STS Risk 13.2% Lim et al. JACC 2014;64:182-192. 11
Patients (%) Patients (%) Volume ml HF Hospitalization Rate per Patient Year 10/10/2015 Primary Primary Safety Safety Endpoint Endpoint 30-day Observed Mortality Lower than Predicted 20% p < 0.0001 15% N = 351 Mean Mortality Rate 10% 5% 0% 18.2% 4.8% Predicted Mortality Observed As presented by Scott Lim MD, ACC 2013 ACC 2013, presented by Scott Lim, MD Prohibitive Surgical Risk DMR Cohort (n=127) Mitral Regurgitation Grade 100% 1+ 2+ 0 80% 1+ 1+ 2+ 60% 3+ Clinically Important Reduction 3+ 40% of Mitral Regurgitation 4+ 40% 2+ 20% 4+ 3+ 0% 4+ Baseline 12 Months NYHA Functional Class 100% I II I I 80% I II III Clinically 60% Important Improvement III IV in NYHA Functional Class 20% IV III III IV IV 0% Baseline 30 Days 12 Months II II Hospitalizations for Heart Failure 1.0 73% Reduction 0.8 0.67 0.2 0.18 0.0 1 Year Prior 1 Year Post Left Ventricular Volumes Left Ventricular End Diastolic Volume Left Ventricular End Systolic Volume 140 60-16 ml -3 ml 130 125 55 120 109 50 49 110 Clinically Important Reverse 46 100 45 90 Clinically 0.6 Important Reduction in the Rate of Hospitalization 0.4 for Heart Failure LV Remodeling 80 35 70 60 0 30 0 Paired Baseline 1 Year Baseline 1 Year (N = 69) (N=69) Data 40 12
Summary MitraClip therapy safely reduces DMR in patients at prohibitive risk for MV surgery In this group of prohibitive risk DMR patients, MitraClip therapy provides meaningful clinical improvements Reduction of LV volumes Improvements in NYHA Functional Class Improvements in Quality of Life Reduction in Hospitalizations for Heart Failure FDA Approval MitraClip Delivery System Approved by FDA on October 24, 2013. Indication for Use: The MitraClip Clip Delivery System is indicated for the percutaneous reduction of significant symptomatic mitral regurgitation (MR 3+) due to primary abnormality of the mitral apparatus [degenerative MR] in patients who have been determined to be at prohibitive risk for mitral valve surgery by a heart team, which includes a cardiac surgeon experienced in mitral valve surgery and a cardiologist experienced in mitral valve diseased, and in whom existing comorbities would not preclude the expected benefit from reduction of the mitral regurgitation. Definition of Prohibitive Risk: STS score of surgical MV repair >6% or mitral valve replacement >8% 13
Options for Degenerative MR STS score > 6/8% Less Invasive Medical Therapy MitraClip MV Surgery Increased MR Reduction Functional Mitral Regurgitation Limited treatment options (medications, CRT) Surgery with no mortality benefit High recurrence rate after surgical MV repair Class IIb indication in recent guidelines to consider surgery 14
Worldwide Mitraclip Experience Treating Centers: 491 Patients: 20,018 Implant Rate: 96% Etiology Functional MR 65% Degenerative MR 22% Mixed 13% Etiology Mixed 13% DMR 22% FMR 65% Realism: 70% FMR Access-EU: 69% FMR TRAMI: 71% FMR Data as of 03/31/2015. Source: Abbott Vascular. Functional Mitral Regurgitation Beigel et al. JACC 2014;64:2688-2700 15
Transcatheter Valve Treatment Sentinel Pilot Registry (TCVT) TCVT: Transcatheter Valve Treatment Sentinel Pilot Registry Part of European Society of Cardiology Prospective, independent registry of consecutive patients 628 Patients at 25 centers in 8 countries Nickenig G. Et al. J Am Coll Cardiol 2014;64:875 84 TCVT Baseline Characteristics Nickenig G. Et al. J Am Coll Cardiol 2014;64:875 84 16
TCVT Procedural Characteristics TCVT NYHA Class 17
TCVT Degree of MR TCVT Echo Characteristics 18
Cardiovascular Outcomes Assessment of the MitraClip Percutaneous Therapy for Heart Failure Patients with Functional Mitral Regurgitation Purpose COAPT is a landmark trial to further study the MitraClip device in symptomatic FMR patients with heart failure COAPT is the first randomized controlled clinical trial to compare non-surgical (medical) standard of care treatment to a percutaneous intervention to reduce MR 19
Objective To evaluate the safety and effectiveness of the MitraClip System for treatment of functional mitral regurgitation (FMR 3+) in symptomatic heart failure subjects who are treated per standard of care and who have been determined by the site s local heart team as not appropriate for mitral valve surgery STS score is no inclusion or exclusion criterion! Trial Design Goals: 430 patients at up to 79 US sites Significant FMR ( 3+ by core lab) Symptomatic heart failure subjects who are treated per standard of care Determined by the site s local heart team as not appropriate for mitral valve surgery Specific valve anatomic criteria Randomize 1:1 MitraClip N=215 Control group Standard of care N=215 Clinical and TTE follow-up: Baseline, Treatment, 1-week (phone) 1, 6, 12, 18, 24, 36, 48, 60 months 41 20
Number of Subjects D-12 J-13 F-13 M-13 A-13 M-13 J-13 J-13 A-13 S-13 O-13 N-13 D-13 J-14 F-14 M-14 A-14 M-14 J-14 J-14 A-14 S-14 O-14 N-14 D-14 J-15 F-15 M-15 A-15 M-15 J-15 J-15 A-15 S-15 O-15 N-15 D-15 J-16 F-16 M-16 10/10/2015 Current Enrollment 450 425 400 375 350 325 300 275 250 225 200 175 150 125 100 75 50 25 0 Projected Actual Accelerated Randomization Projection Months Percutaneous Mitral Valve Repair: What Can We Treat and What Should We Treat Can treat (FDA approved): Moderate to severe, degenerative mitral regurgitation in patients who are deemed too high risk for surgery (STS score >6/8%) Should treat (Not FDA approved): Isolated moderate to severe, functional mitral regurgitation irrespectively of the operability of the patient 21
spies.cvm@gmail.com (808) 225-5050 22