10/10/2015 1 What Can We Treat and What Should We Treat Christian Spies, MD Interventional Cardiology The Queen’s Medical Center Associate Professor of Medicine University of Hawaii Percutaneous Mitral Valve Repair: Innovative Procedures, Devices & State of the Art Care for Arrhythmias, Heart Failure & Structural Heart Disease October 8-10, 2015 Hilton Hawaiian Village, Honolulu, HI 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 What Can We Treat and What Should We Treat
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Percutaneous Mitral Valve Repair · 2015. 10. 16. · As presented by Scott Lim MD, ACC 2013 ACC 2013, presented by Scott Lim, MD Left Ventricular Volumes Hospitalizations for Heart
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10/10/2015
1
What Can We Treat and
What Should We Treat
Christian Spies, MD Interventional Cardiology
The Queen’s Medical Center
Associate Professor of Medicine
University of Hawaii
Percutaneous Mitral Valve Repair:
Innovative Procedures, Devices & State of
the Art Care for Arrhythmias, Heart Failure &
Structural Heart Disease October 8-10, 2015
Hilton Hawaiian Village, Honolulu, HI
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
What Can We Treat and
What Should We Treat
10/10/2015
2
3 Nkomo et al. Lancet, 2006; 368: 1005-11.
> 9.3% for ≥75 year olds (p<.0001)
14
12
10
8
6
4
2
0
Pre
vale
nce (
%)
of m
odera
te
to s
evere
valv
e d
isease
Aortic valve disease
Age (years)
<45 45-54 55-64 65-74 >75
Mitral valve disease
All valve disease
Mitral Regurgitation Needs Assessment
Total MR Patients1,2
Eligible for Treatment3,4
(MR Grade ≥3+)
4,100,000
1,700,000
Annual MV Surgery5
Annual Incidence3
(MR Grade ≥3+) 250,000
30,000 Only 2% Treated Surgically
14% Newly Diagnosed
Each Year
1,670,000
Untreated Large
and Growing Clinical
Unmet Need
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 Thorac ic Surgery 2010.
Mitral Regurgitation 2009 U.S. Prevalence
Mitral Regurgitation Needs Assessment
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Annulus
Leaflets
Cordae
Papillary
Muscles
Adjacent
Myocardium
Mitral Regurgitation Anatomy
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
Mitral Regurgitation Classification
Primary = Degenerative MR
Secondary = Functional MR
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Primary
“The Valve”
Secondary
“The Ventricle”
Usually myxomatous Ischemic or not
Mitral Regurgitation Classification
8
Natural History
Avierinos JF, et al. Circulation 2002;106:1355
100
90
80
70
60
50
Surv
ival %
0 2 4 6 8 10
2 RF
1 RF
95 ±2
70 ±5
55 ±9
Risk Factors
Age 50 yrs
Atrial fibrillation
LA enlargement
Flail
Mild MR
MR 3
or
EF <50%
Years after diagnosis
Asymptomatic Degenerative MR
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9
Severity and Survival
Enriquez-Sarano M et al. NEJM 2005;352:875-83
Worse Survival
100
90
80
70
60
50
0
Surv
ival
(%)
Years
0 1 2 3 4 5
P<0.01
ERO <20mm2 (91 ±3%)
ERO 40mm2 (58 ±9%)
ERO 20-39mm2
(66 ±6%)
More CV Events
70
60
50
40
30
20
10
0 R
ate
of C
ard
iac E
vents
%
Years
0 1 2 3 4 5
P<0.01
ERO <20mm2 (15 ±4%)
ERO 20-39mm2
(40 ±7%)
ERO 40mm2 (62 ±8%)
Asymptomatic Degenerative MR
100
80
60
40
20
0
Surv
ival %
Years
0 1 2 3 4 5 6 7 8 9 10
EF 60%
EF 50-60%
EF <50%
P=0.0001
72 ±4%
53 ±9%
EF <60% is Abnormal in MR
32 ±12%
Enriquez-Sarano M, et al., Circulation 1994;90:830-837
EF and Surgical Outcome
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11
100
80
60
40
20
0
Surv
ival %
Years
0 1 2 3 4 5 6 7 8 9 10
NYHA I-II
NYHA III-IV
P<0.0001
90 ±2
76 ±5
73 ±3
48 ±4
Tribouilly CM et al., Circulation 1999;99:400-5
Symptoms and Surgery
12
Patients without Class I Indications
100
80
60
40
20
0
Surv
ival %
Follow-up, y
0 5 10 15 20
Suri R et al., JAMA 2013;310:609-16
Early surgery
Medical management
Log-rank P<.001
Degenerative MR- Early Surgery is Better
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Wu AH, et al. J Am Coll Cardiol 2005;45:381-87
1.0
0.8
0.6
0.4
0.2
0.0
Event-
free S
urv
ival
Time (Days)
0 500 1000 1500 2000
Functional MR- No Mortality Benefit with Surgery
Glower. JACC 2012;60:1315-22
Functional MR- High Risk of Recurrence
0 1 2 3 4 5 6 7 8 9 10 12 14 16 18 20
Years
100
80
60
40
20
0 Fre
edom
Fro
m
Mitra
l R
egurg
itation
DMR >3+
DMR >2+
IMR > 2+
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Degenerative MR
Surgery for symptoms or
LV dysfunction
Functional MR
Asymptomatic
if repairable
and low risk
Medical
therapy first
No medical
option for valve
Consider CRT
Surgery only in highly
selected patients with HF
Surgery is Class I
Indication
Surgery is Class II b
Indication
Nishimura et al. JACC 2014;63:e57
Current General Principals
of Therapy
16 Mirabel M, et al. Eur Heart J 2007;28:1358-1365
No surgery in 49%
Predictors were
age, morbidity, non-
ischemic etiology,
MR severity
396 patients with symptomatic severe MR
53% degenerative
0
20
40
60
80
100
120
140
160Decision notto operate
Decision to
operate
P<0.0001
63% 59% 67% 42%
15%
<50 50-60 60-70 70-80 >80
Unoperated MR in Europe
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Percutaneous Mitral Valve Repair MitraClip® System
EVEREST II Trial
279 Patients enrolled at 37 sites
Randomized 2:1
Significant MR (3+-4+) Specific Anatomical Criteria
Device Group MitraClip System
N=184
Control Group Surgical Repair/Replacement
N=95
Feldman et al. Engl J Med 2011;364:1395-406.
Echocardiography Core Lab and Clinical Follow-Up:
Baseline, 30 days, 6 months, 1 year, 18 months, and
annually through 5 years
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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
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 <4.0cm2
• 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.
All Etiologies included !
LCB = lower confidence bound
UCB = upper confidence bound
Safety Major Adverse Events
30 days
0 20 40 60
Device Group, n=180
Control Group, n=94
Met superiority hypothesis • Pre-specified margin =2%
• Observed difference = 32.9%
• 97.5% LCB = 20.7%
15.0%
47.9%
pSUP <0.0001
0 10 20 30 40 50 60 70 80 90 100
Effectiveness Clinical Success Rate
12 months
Control Group, n=89
Device Group, n=175
Met non-inferiority hypothesis • Pre-specified margin = 25%
• Observed difference = 7.3%
• 95% UCB = 17.8%
55%
73%
pNI =0.007
Feldman et al. Engl J Med 2011;364:1395-406.
EVEREST II Trial –
Primary Endpoints (ITT)
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Feldman et al. Engl J Med 2011;364:1395-406.
EVEREST II Trial –
Conclusions
FDA approval of MitraClip for all patients with mitral