key: cord-0934096-aixtox0k
authors: Rushakoff, Joshua A.; Kransdorf, Evan P.
title: Heart Transplant in Older Adults
date: 2022-01-13
journal: Curr Transplant Rep
DOI: 10.1007/s40472-022-00358-1
sha: f53b23d3560383d0ca9b2e2c9191cf5c820b1a1b
doc_id: 934096
cord_uid: aixtox0k

PURPOSE OF REVIEW: Older adults with end-stage heart failure may be candidates for heart transplantation (HT) and changing guidelines and institutional policies have increased the availability of HT for septuagenarians. This review explores historical, pre-HT evaluation, and post-HT outcomes for older adult HT recipients. RECENT FINDINGS: Rates of HT in older adults have increased in the past decade and more than 800 septuagenarians have undergone HT. Older adult HT recipients have similar survival, rehospitalization, and graft failure rates when compared to younger patients despite additional comorbidities and higher risk donors. SUMMARY: HT is feasible in carefully selected older adults. As the number of older adults who are considered for HT increases, additional research into population-specific assessment tools will be needed. Furthermore, age-related immune changes warrant population-specific studies on immunosuppressive regimens.

Heart failure (HF) is common among older adults in the United States (US). Recent data reveal that 7.5% of men and 3.9% of women between 60 and 79 years old have HF and 9.5% of men and 11% of women over 80 years old carry this diagnosis [1] . With the aging of the population, the prevalence of HF is expected to continue increasing in coming years [1, 2] . The introduction of evidence-based medical and device therapies for heart failure over the past 30 years initially led to a significant decline in HF-related mortality. However, recent data show that HF-associated mortality is stable or up-trending across all regions of the US [3, 4] . Additionally, despite management improvements, HF remains a morbid diagnosis, especially for older patients and the 1-year mortality rate for Medicare beneficiaries with an incident HF diagnosis is 24.4%.

The high HF burden and aging population has led to an increase in the number of older patients with end-stage disease refractory to medical therapy. Patients with end-stage HF may be candidates for left ventricular assist device (LVAD) implantation or heart transplantation (HT). LVAD use in patients over 75 years old has increased dramatically from 3.5% of all LVAD implantations in 2003 to 10 .5% in 2014 [5] . Caraballo et al. reported age as an independent predictor of mortality following LVAD implantation suggesting this strategy may remain suboptimal [6] . More recently, Emerson et al. reported LVAD use in older patients are associated with improvements in functional capacity and quality of life [7] . HT has increasingly been considered for older patients including those over 70 years old [8••, 9] .

This review of HT in older adult patients explores the historical context, modern trends, peri-transplant management, and post-transplant outcomes for this important population.

Following the introduction of cyclosporine in 1981 and monoclonal antibody OKT3 in 1983, solid organ transplantation rapidly expanded. HT morphed from a rare procedure (189 HTs in 1982), to increasingly common (2343 HTs in 1995). Quickly, organ scarcity became the limiting factor in the HT process heightening focus on recipient selection [10] . The United Network for Organ Sharing (UNOS), administrators of the Organ Procurement and Transplantation Network (OPTN), established absolute and relative contraindications to guide organ allocation. Initially, advanced age was considered a contraindication to HT [11] . Ethical considerations and concerns that multi-comorbid older adults may have worse outcomes following HT limited access for older adults. However, in the 1990s, single center studies emerged reporting that carefully selected older adult patients had similar post-transplant outcomes when compared to younger recipients [11] [12] [13] [14] [15] [16] . With these HT successes, individual transplant programs began to view the upper age limit for candidate consideration with increasing flexibility, and by 2002, 10% of HT recipients were over 65 years old. In 2006, the International Society for Heart and Lung Transplantation (ISHLT) published updated listing criteria for HT which specified that patients up to 70 years of age should be considered for HT (class I recommendation) and carefully selected patients over 70 years of age could be considered for HT (class IIb recommendation) [17] .

Since the publication of the revised ISHLT listing criteria, the proportion of older adult patients newly listed for HT has increased. At the end of 2019, 16.4% of patients on the HT waiting list were over 65 years old [18, 19] . The proportion of new listings of candidates over 70 years of age has grown dramatically from 2.5% in 2000 to 11% in 2017 [8••] . The increased listing of older adult candidates has led to a corresponding increase in the heart transplant rate for these candidates. Following a nadir in 2015 for HTs in the US, there has been a rise in the rate of HT across all age groups. This trend is most pronounced in patients over 65 years old who went from a HT rate of 74. The impact of the coronavirus-19 (COVID-19) pandemic on these trends is yet to be determined. Initial reports suggest that the COVID-19 pandemic has had a profound effect on solid organ transplantation in the US. During the early stages of the pandemic (January-May 2020), there was a 75% increase in HT waitlist inactivations with a 26% decrease in HT volume [21] . A subsequent analysis of the first 9 months of the COVID-19 pandemic (January-September 2020) revealed a 43% decrease in HT nationally [22] . Additional research is needed to understand the implications of increased waitlist inactivations and decreased national HT volume on older adult HT candidates.

The pre-transplant evaluation of older HT candidates should differ from that performed for younger patients (Fig. 2 ). Older patients often have a greater number of comorbidities which must be considered. For HT candidates added to the waitlist between 2000 and 2018, a higher percentage of septuagenarians had hypertension (55.6%), prior malignancy [20] (11.2%), and chronic kidney disease (mean creatinine clearance 56.9 ml/min) compared to candidates under 70 years old (48.6%, 6.6%, and 78.8 ml/min, respectively) [8••] . There were no significant differences in rates of diabetes, peripheral arterial disease (PAD), or chronic obstructive pulmonary disease (COPD) between the groups. While creatinine clearance was significantly lower for candidates over 70 years old, prior dialysis was less frequent. These characteristics largely mirror those reported in previous analyses of HT candidates over 70 years of age [23] . In addition to comorbidities, providers should evaluate cognitive function, psychosocial support, goals of care, and caregiver support [ A special consideration for older HT candidates is frailty. Frailty is a clinically recognizable state of decreased physiologic reserve resulting in a limited ability to cope with stressors. Its prevalence increases with age and impacts 7-12% of US adults over 65 years old [26] [27] [28] [29] . Biological age, which reflects a patient's frailty, has been shown to be more closely associated with mortality than chronological age [30, 31] . Age-independent frailty is especially relevant in older HT candidates who face the significant physiologic stressor of transplant. However, frailty assessment is complicated by the lack of standardized assessments and, in HT candidates, the overlap between the effects of end-stage heart disease and the effects of frailty on physical functioning. Scoring systems have emerged to systematically characterize frailty such as the Physical Frailty Phenotype (PFP), developed by Dr. Fried and colleagues, and the Short Physical Performance Battery (SPPB). Of these, the Frailty Heart Group recommended a modified PFP [32] in HT evaluation as it is easy to perform and has been validated in patients with advanced HF [26, 33] . While evidence remains sparse, observational studies have shown frailty can be incorporated into the HT evaluation process and is an independent risk factor for mortality and prolonged hospitalization following HT [34, 35 ••, 36] . Evidence from the kidney transplant literature reflects similar adverse short-and long-term posttransplant outcomes for frail candidates [27, [37] [38] [39] . As the evidence for frailty in HT candidates remains limited and assessment remains challenging, frailty has not yet formally been added to HT listing guidelines at this time.

A final consideration during the pre-transplant period is the donor. Donor organs remain scarce and HT waitlist mortality remains significant [40] . This organ scarcity and ethical concerns about allocating organs to older recipients is reflected in the 2016 ISHLT Listing Criteria for HT which specify that for carefully selected patients over 70 years of age who are considered for HT, an alternate-type program be considered [25] . Analyses of donors for patients over Fig. 2 Summary of heart transplantation considerations in older adults 70 years of age reflect these recommendations. Donors for older patients have been older themselves, 36 years old compared to 30 years old for younger patients, with more comorbidities (diabetes mellitus 5.1% vs 3.0%, hypertension 17.4% vs 13.8%) [8••, 23] .

The data from the past two decades reflects programs' hesitation in considering sicker older adult transplant candidates. For example, while COPD and PVD prevalence increase with age in the general population [41, 42] , the percentage of candidates over 70 years old added to the waitlist with these conditions was lower compared to younger patients. Similarly, the much lower rate of dialysis in older candidates (0.8%) compared to younger patients (2.7%) [8••] suggests that despite a lower median creatinine clearance few older candidates had advanced, end stage renal dysfunction. More septuagenarians wait at home, highlighting careful recipient selection strategies and less acute illness prior to transplant. Finally, while older HT candidates have a lower risk profile than younger candidates, donor hearts for this population are higher risk.

Two cohort studies have evaluated HT outcomes in septuagenarians (Table 1) Both retrospective studies used OPTN data, introducing crossover between the two cohorts.

Cooper et al. reported increased adjusted 5-year mortality for patients over 70 years old both compared to the 18-59-year-old group (HR 1.35, p < 0.001) and to 60-69-year-old group (HR 1.20, p = 0.02). However, when they excluded transplants before 2004, they showed no difference in adjusted 5-year mortality for patients over 70 years old compared to the 60-69-year-old group (HR 1.13, p = 0.28) [23] . Length of stay was comparable across age groups and patients over 70 years old had fewer rehospitalizations within 1 year of HT. The decreased rate of rehospitalization may reflect the lower risk of rejection for older HT recipients and the careful selection of healthier HT candidates. More patients over 70 years old had a stroke within 1 year of HT (2.4%) compared to the 60-69-year-old (1.1%) or 18-59-year-old (1.0%) groups.

The more recent cohort studied by Jaiswal et al. similarly showed no difference in adjusted 5-year mortality for HT recipients over 70 years old compared to younger recipients (HR 1.06, p = 0.43) [8••] . The unadjusted 1-year and 5-year mortality for patients over 70 years old, 11.5% and 20.4%, respectively, was higher than younger HT recipients. Like the previous study, incidence of stroke was higher in the older cohort.

Despite older donors with additional comorbidities, these two studies demonstrate that patients over 70 years of age have similar post-HT outcomes when compared to younger patients.

HT recipients over 70 years old experience fewer rejection episodes than younger patients [8••, 23] . Reports on older kidney transplant recipients mirror this pattern of decrease rates of rejection [43] [44] [45] . While rates of rejection are lower in older solid organ recipients, there is an increased risk for infection or malignancy in this population [46] [47] [48] . This risk profile suggests that post-transplant management could be tailored to the older adult to balance the risks of rejection with those of infection or malignancy.

There are numerous known age-related changes in immune system function. These age-related alterations in the immune system, important to consider in the post-transplant patient, are characterized by dysfunctional immune responses and termed immunosenescence [49] . T cell immunosenescence leads to reductions in differentiation and circulation of T cells and decreases in naïve T cells and T cell receptor diversity [44, 50] . Furthermore, thymic involution is a hallmark of T cell immunosenescence [51] . Adjunct immune functions are similarly altered with aging including loss of the costimulatory CD28 molecule and abnormal production of pro-inflammatory cytokines [43] . The decline in T cell diversity limits older adults' ability to recognize foreign antigens and pathogens; however, this altered response may also explain the reduced risk of acute cellular rejection following transplant. Immune system changes impact humoral responses as well [44] . With aging, the B cell repertoire is skewed towards memory responses and there is a reduction in the volume of progenitor B cells [43, 52] . Though there is a paucity of studies on B cell immunosenescence and solid organ transplant, some evidence suggests a decrease in donor-specific antibodies (DSA) with increasing recipient age. Decreased DSA formation could be due to reduced humoral immune reactivity [44, 53] . While older patients may form fewer DSAs, decreased humoral response leaves patients at increased risk of malignancy and infection. Another consideration is the choice of immunosuppressive agents in older adult patients. There are no formal trials comparing post-HT immunosuppression regimens in older patients and furthermore older patients were often specifically excluded from clinical trials [43] . Providers should be aware of age-related physiologic changes which may impact immunosuppressant pharmacokinetics. For example, calcineurin inhibitors are metabolized by the cytochrome P450 3A subfamily (CYP3A) in the liver. However, studies of liver samples have shown significant declines in CYP3A activity with aging, and a prospective study of kidney transplant recipients showed that calcineurin inhibitor (tacrolimus and cyclosporine) trough levels are 50% higher in recipients over 65 years of age [54] . Similarly, the active metabolite of mycophenolate mofetil, mycophenolic acid, reversibly binds to serum albumin. Age-associated changes in albumin can result in increased clearance of the unbound, active metabolite [55, 56] .

Older transplant recipients have a different post-HT risk profile when compared to younger peers [57] . While the risk of rejection is lower in these patients, there are elevated risks of malignancy and infectious complications. Immunosenescence suggests that older solid organ transplant recipients may benefit from an individually tailored immunosuppression regimen. As the number of transplants in older candidates continues to increase, additional research is needed to clarify optimal immunosuppression strategies for this population following transplant.

HT in older adults is feasible and, in carefully selected patients, outcomes appear comparable to that in younger HT recipients. As the mean age continues to increase in the US population, an increasing number of older patients will require evaluation for advanced therapies. The HT evaluation process for this population should include the same steps as that for younger patients with additional consideration of determining biological age. Frailty evaluation may play an important role in this patient population. For those candidates who receive a HT, there is an observed decreased risk of rejection but increased risk of malignancy and infection in the post-transplant period. These outcomes in the context of immunosenescence and altered immunosuppressant pharmacokinetics suggest additional research is needed to optimize post-HT care for older adult patients.

The authors declare no competing interests.

This article does not contain any studies with human or animal subjects performed by any of the authors.

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