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Download Presentation slides (PDF)VAD or heart transplantation after age 65
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VAD or heart transplantation after age 65
Dr. Phyllis Billia MD PhD FRCPC
Medical Director
Mechanical Circulatory Support Program
Peter Munk Cardiac Centre
May 11th 2019
Disclosure Slide
Grants/research support: CIHR, Medicine by Design, PMCC
Innovation Fund, NSERC-CIHR
Consulting fees: n/a
Speaker fees: n/a
I will NOT discuss off-label uses of drugs
Objectives
Review the evidence for advanced HF therapies in older patients
Outcomes with heart transplant in the older population
Outcomes with LVAD
Heart transplant versus LVAD
Age-adjusted leading cause of death, US 2009
National Vital Statistics Reports 2011
Naylor et al, ICES 1999
Senni et al, Circ 1998
Lee et al, Circulation 2009
Costanzo MR et al, AHJ 2008
Heidenreich PA et al, Circulation. 2011
Courtesy of Dr. HJ Ross.
50 000
Advanced HF
~ 200 transplants
75 VADs
500,000 with
HF diagnosis
Advanced therapies
Experimental Rx
Cardiac replacement
Tailored therapy
IV Vasodilators
IV diuretics
Optimization of oral
therapy
Referral for CRT/ICD
Aldosterone
antagonist
ACEi
/ARB, Beta blocker
Diet, exercise prescription
Risk factor control
Chronic Disease Management
Konstam, Circulation. 2012
Over the next 20 years:
• Prevalence will increase by
25%
• Annual direct medical costs will
increase $77.7 billion (2008
dollars)
Prognostic Markers
General
Age, diabetes, sex, weight (BMI), etiology of HF, comorbidities (COPD, cirrhosis)
Laboratory markers
Na, creatinine (and eGFR), urea, BUN,
Hgb, % lymphocytes,
uric acid
Low HDL
Insulin resistance
Urine
Abluminuria
NGAL - neutrophil gelatinase associated lipocalin
Biomarkers
BNP, NT pro BNP, troponin, CRP, cystatin C, GDF-15 (growth differentiation factor), serum cortisol, TNF, ET, NE, midregional-pro-adrenomedullin (MR-proADM), pro-apoptotic protein apoptosis-stimulating fragment (FAS)
Medication
Intolerance to ACEI, diuretic dose
FC IV
Especially if sustained > 90 days
6 minute walk
Cardiopulmonary markers
Peak VO2, % predicted, VE/VCO2, AT, workload, systolic BP < 130, HR recovery
Clinical Exam markers
BP (admission and discharge), heart rate, JVP, +S3, cachexia
Depression
Obstructive sleep apnea
Echo parameters
EF, chamber size (LV, LA, RA), sphericity,
RNA
RVEF, LVEF
Recurrent hospitalizations
ECG
IVCD
Hemodynamic markers
PA pressures, CO, CI, MVO2
Endomyocardial biopsies
Microarrays transcriptomic biomarkers
Marital status
World population pyramids
Canada’s Aging Population –
The baby boomers
0
5
10
15
20
25
1921
1931
1941
1951
1961
1971
1981
1991
1998
2016
2021
2026
2031
2036
2041
Age: 65 yrs and over
% of population >65 yrs old
Aging population
US/Canada Statistics
The proportion of the population that is >65 years of age will double in the
next 20 years.
Need to understand outcomes in this patient population
It used to be that transplants would only be done patients <50
years of age
Some centers viewed advanced age as a contraindication to
consideration of advanced therapies and namely transplantation
HF in the real world:
Age 75 years
Female 52%
Hypertension 72%
Diabetes 44%
Atrial fibrillation 31%
COPD 31%
Chronic kidney
disease
30%
What the “average” HFrEF patient looks like
Gheorghiade
, 2005
Therapeutic Approach to Patients With HFrEF
CCS HF guidelines
The spectrum of HF
ACC/AHA
Disease Trajectory
NYHA
Stage A
High risk,
no symptoms
Stage B
Structural disease
No symptoms
Class I
No symptoms
INTERMACS
Stage C
Symptomatic
Stage D
Refractory symptoms
Very advanced HF
Class II
Limited with activity
Class III
Limited with less than
ordinary activity
Class IV
Severely limited
any activity
worsens symptoms
Risk of hospitalization for AHF
1
2
3
456
Dilemmas of Transplantation vs LVAD
Transplantation
‘Selective’ patient selection
Not readily available
Limited donor pool
Consequences of immunosuppression
LVAD
Driveline exit site
Adverse events
Batteries
Durability of device
Transplant (VAD) workup
CPET testing (Class 1B)
RHC (Class 1C) +/- vasodilator challenge
Co-morbidities
Age, BMI <35, cancer, DM, CKD, PVD, tobacco use, substance abuse
(?cannabis), psychosocial, frailty
“Carefully selected patients >70 years of age may be considered for cardiac
transplantation. For centers considering these patients, the use of an alternate-type
program (i.e., use of older donors) may be pursued (Class IIb, Level of Evidence: C).”
ISHLT 2016 – listing criteria 10-year update
Positives in patients ≥ 70 y.o.
More mature and compliant
less likely to derive a driveline injury (less active)
More accepting of inherent lifestyle limitations presented by LVAD
support
Appreciative of the improved quality of life
Have supportive adult children willing to assist in care
Financial stability
Precautions in patients ≥ 70 y.o.
Poor eye sight
Decreased manual dexterity
Older care givers
Higher rate of co-morbidities
Transplant in older patients
Goldstein et al. JHLT.2012 31:679-685
UNOS data – Jan 1998 to June 2010
Defining 2 age groups: 60-69; >70
11,307 patients >60 y.o. (including 445 >70 y.o.)
Age distribution of heart transplant recipients
Age distribution of heart transplant recipients
Cooper et al JHLT 2016
UNOS data – Jan 1987 to June 2014
Defining 2 age groups: 60-69; >70
50,432 patients (including 715 >70 y.o.)
UNOS registry
Cooper et al JHLT 2016
Goldstein et al. JHLT.2012 31:679-685
Median survival for age > 70 8.5 years
UNOS OHT Survival 2005-2013
Age > 70 versus < 70
George. Ann Thorac Surg 2013
ISHLT registry - 30d mortality
64,354 heart transplants, 1988-2013
Estimated effect of donor (A) and recipient (B) age on 30-d mortality
Univariant logistic regression model Bergenfledt et al JHLT 2019
Post-transplant survival stratified by age – 10
year follow-up
Post-transplant survival stratified by age Conditional post-transplant survival stratified by age
Wever-Pinzon et al, JHLT 2017
52,995 recipients – ISHLT registry 1995-2011
Wever-Pinzon et al, JHLT 2017
ISHLT registry captures 65%
of all heart transplants
performed world-wide
Confirmation that age >70 at
the time of transplant is
associated with increased risk
of death
Interestingly, at 3 and 5 years
post-transplant, fewer patients
had different strategies of IS
Risk of cause-specific mortality
Another way to look at the data
Kaplan-Meier survival curves of post-transplant mortality for donor-recipient age
64,354 heart transplants, 1988 – 2013 ISHLT registry
Recipient age associated with longer term mortality
Older donor age was associated with higher mortality at all f/u time points
Bergenfledt et al JHLT 2019
LVAD in older patients
Important things to consider
Patient Characteristics
Age
Size
Blood type
Hemodynamic stability
Associated illnesses
Center Specific Data
Wait times
Adverse events
From 2008-2017 – 18,539 patients with LVADs
20% females
LVAD implantation – INTERMACs data
Kormos et al., JHLT 2019
Based on Intermacs Profile
Kirklin et al., JHLT 2011
Age 60 to 70
Hazard ratio for death:
1.78 (p < 0.0001)
Age - independent risk factor for DT-LVAD
DT-VAD in older patients
Nair and Gongora Exp. Rev. Cardiol. 2018
2016
2013
2011
2015
Kim et al J. Card Failure 2016
MCS Research Network - 1149 CF LVADS
Thrombosis Stroke
SurvivalBleeding
Age distribution of LVAD recipients
% of older patients getting LVAD
Survival post-LVAD
Kim et al J. Card Failure 2016
Advanced age as a dichotomized variable around
age 70 is not a significant independent predictor of
survival
When age is set as a continuous variable – predicts
mortality with a 20% increase risk of death/10 years
of life.
Known that age is a strong predictor of GIB – age
>65 associated with a 20-fold increased risk
GIB is associated with increase risk for
thromboembolic events
The most significant independent predictor of survival
was creatinine
There is a 2-fold higher risk of death for every 0.1
mg/dL increase in creatinine
Kirklin et al., JHLT 2013
Age as an independent risk factor for
death among LVAD recipients
Freedom from adverse events after LVAD
stratified by age
Community experience
Adamsom et al., JACC 2011
No significant differences in survival, LOS,
functional status improvement or adverse
events (55 patients).
Pre-operative risk factors for outcomes
Boyle et al 2014
Retrospective
Patients with HMII as part of DT or BTT clinical trials
2005 – 2010
1,302 patients (956 patients included in the analysis)
2 years follow-up
Effects of Gender and Age
Boyle et al, JACC 2014
Older age, and its
associated risk of GIB
has been well
documented.
This analysis showed
older patients were at
a higher risk of:
• bleeding events
• female gender
• anemia before
surgery
• risk of stroke
(females)
LVAD vs Transplant
LVAD vs OHT
Abstract - Melnitchouk et al., JHLT 2011
Single centre – Columbia
• 19 LVAD vs 28 OHT
• LVAD patients were older
(72yo vs 68 yo)
• 1year survival similar
• LVAD group had a longer
ICU and total length of stay
Survival: HeartMate II vs Transplant
42
Months
0 6 12 18 24 30 36
Survival (%)
0
10
20
30
40
50
60
70
80
90
100 Age < 70 (N=122)
Age >=70 (N=74)
81±4%
70±5%
56±6%
79±5%
70±6%
56±7%
p=0.959
Adamson et al., 2011; unpublished
INTERMACs – Cumulative incidence
post-VAD mortality post-VAD transplantation post-VAD recovery
Aleksova et al, unpublished data 2019
Complications post-VAD
Adverse event type
Cause-specific HR for age of 70 or
above [95% CI] P-value
GI bleeding 1.200 [1.089, 1.322] <0.001
Infection 0.962 [0.886, 1.044] 0.35
Stroke 0.858 [0.741, 0.992] 0.039
Pump-related thrombosis 1.247 [0.408, 3.813] 0.70
Pump exchange 0.683 [0.562, 0.830] <0.001
Right heart failure 0.690 [0.532, 0.894] 0.005
Pump exchange Right heart failure
Aleksova et al, unpublished data 2019
Things to consider
Older patient population is growing.
Heart failure is an epidemic associated with a need to consider advanced
therapies in older patients.
Heart transplantation is resource limited.
Age does affect outcomes post-transplant (median survival 8.5 years, age >70
y.o.)
DT-LVAD numbers are growing
LVAD outcomes is affected by age but patients >70 y.o. do well BUT we have
VAD-related complications to consider
Conclusions
“Aging” does not equate to being frail nor does youth guarantee
good health.
“Chronologic Age” cannot be a strict discriminator for patients that
need advanced therapies.
The decision regarding “older patients “ should be made with
careful consideration.
It is still unknown whether age-based treatment policies in
primary/secondary care reflect prejudices against older people.
Questions?