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Patient and Graft Survival in Older Kidney Transplant Recipients: Does Age Matter?

Veronika Fabrizii^*, Wolfgang C. Winkelmayer^||, Renate Klauser^*, Josef Kletzmayr^*, Markus D. Säemann^*, Rudolf Steininger, Reinhard Kramar, Walter H. Hörl^* and Josef Kovarik^*,

*Division of Nephrology and Dialysis, Department of Medicine III, and Division of Transplant Surgery, Department of Surgery, University of Vienna, and Division of Nephrology and Dialysis, Department of Internal Medicine, Wilhelminenspital der Stadt Wien, Vienna, Austrian Dialysis and Transplant Registry, Krankenhaus der Kreuzschwestern Wels, Wels, Austria; and ^||Division of Pharmacoepidemiology and Pharmacoeconomics, Brigham and Women’s Hospital, Harvard Medical School, Boston, Massachusetts.

Correspondence to: Dr. Veronika Fabrizii, Division of Nephrology and Dialysis, Department of Internal Medicine III, Vienna Medical University, Währinger Gürtel 18-20, A-1090 Vienna, Austria. Phone: +43-1-40400-4390; Fax: +43-1-40400-4392; E-mail: veronika.fabrizii{at}akh-wien.ac.at

	Abstract

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ABSTRACT. An increasing gap between supply and demand of donor kidneys for transplantation exists. There is concern regarding the allocation of scarce organs to elderly patients, because the benefit obtained by the transplant may be less in elderly compared with younger recipients. It was the objective of this study to determine differences in patient and organ survival between organ recipients >65 yr and 50 to 64 yr of age at transplantation. A retrospective cohort of 627 patients >50 yr who received a kidney transplant between 1993 and 2000 was assembled. Detailed information on patient demographics, comorbidities, and immunological and donor characteristics was ascertained before transplantation. Five-year patient and graft survival were evaluated by Kaplan-Meier survival curves and multivariate Cox proportional-hazard models. Five-year patient mortality was similar between patients aged >65 and 60 to 64 at transplantation (relative risk [RR] = 1.07; 95% confidence interval [CI], 0.66 to 1.74). Patients aged 50 to 59 yr showed a clear trend toward lower 5-yr mortality (RR = 0.66; 95% CI, 0.43 to 1.03). Compared with patients >65 yr, 5-yr graft loss was not different in patients aged 60 to 64 (RR = 1.28; 95% CI, 0.82 to 2.02) or those aged 50 to 59 yr at transplantation (RR = 1.02; 95% CI, 0.68 to 1.53). After thorough control for confounding, 5-yr graft survival was not materially different by age group. Discrimination against older candidates for kidney transplantation on age-related grounds alone is not warranted.

	Introduction

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The number of patients requiring treatment for end-stage renal disease (ESRD) has increased dramatically over the past decades (1). Much of this increase is attributable to a disproportionate increase in older ESRD patients. Although the incidence of ESRD in the age group of 65 to 74 yr was 640 per million population in the United States in 1988, the rate of new patients on renal replacement therapy reached 1384 per million population in 2000. An even more pronounced increase was observed in patients 75 yr, with incident rates of 512 and 1588 per million population in 1988 and in 1997, respectively (1,2). In 2000, more than 51% of incident hemodialysis (HD) patients in the United States were 65 yr old.

Among the treatments that are available for ESRD—HD, peritoneal dialysis, and kidney transplantation—the latter is the most desirable because it has been found to be associated with greater longevity, better quality of life, and economic benefits resulting from a successful transplantation for the patient (3), and to be more cost-effective compared with HD or peritoneal dialysis (4). However, the disparity between the numbers of potential transplant recipients and available organs has progressively widened over the last 15 yr (5–7).

There has been concern that providing elderly ESRD patients with scarce donor kidneys may not be a worthwhile investment because of limitations on the useful life of the donor organ imposed by the inherently higher mortality risk in older patients (7). However, little is known about long-term patient and graft survival of elderly patients, especially after having undergone a uniform and thorough examination for comorbidities before being added to the wait list (8). Most of the previous studies lack adequate control for other factors that influence these outcomes. Although survival of elderly patients with ESRD is limited by higher age per se, patient survival is additionally influenced by several comorbid conditions (9–11). Graft loss in the elderly patient population is mainly related to patient’s death, primarily caused by cardiovascular disease, infection, and malignancy (11–14). Thus, careful assessment and control for such factors is of cardinal importance when studying outcomes of kidney transplantation in elderly patients or when drawing comparisons to younger age groups.

Thorough screening procedures have been put into place to select appropriate patients to be wait-listed for kidney transplantation. Applying such algorithms appears to be particularly important in elderly patients. At our institution, patients are screened for cardiovascular, gastrointestinal, pulmonary, infectious, and malignant comorbidities before being placed on the wait list. According to clinical practice guidelines (15–18), only patients free from significant comorbidities or after resolution of comorbidity-related issues are put on the wait list.

The data regarding the influence of comorbid conditions on patient and graft survival are conflicting. To better understand the importance of the combined effect of age and several comorbidities in elderly transplant recipients with respect to long-term patient and graft survival, we conducted the present retrospective study. It was our aim to specifically compare the outcomes of patients 65 yr of age at transplantation with their younger peers.

	Materials and Methods

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We included all patients who had been wait-listed and received a kidney transplant at the transplant center of the Vienna General Hospital and who were 50 yr on date of transplantation. As part of the wait-listing process, all patients had to undergo a standardized workup of all major organ systems. Results from the workup process were reported and documented on a standardized form. For all patients, we extracted a large number of baseline characteristics from these forms and notes from medical charts at admission for kidney transplantation: age, gender, date of transplantation, time on renal replacement therapy, time on wait list, whether it was the first kidney transplant received, and identity of the referring dialysis unit. We assessed several comorbidities: hypertension, diabetes, coronary artery disease (CAD; all patients underwent routine coronary angiography), cerebrovascular disease, peripheral artery vascular disease, congestive heart failure, valvular disease or previous valve repair surgery, atrial fibrillation, any malignancy, chronic obstructive pulmonary disease, tuberculosis, and gastrointestinal comorbidity such as peptic and duodenal ulcers, diverticulosis, diverticulitis, gastritis, or past gastrointestinal surgery (Table 1). We also categorized the underlying renal disease with the system adopted by the European Renal Association-European Dialysis and Transplant Association (19). From height and weight, each patient’s body mass index was calculated as the weight in kilograms divided by the square of height in meters. From laboratory tests, we registered hepatitis B, hepatitis C and CMV status, and the highest/latest titer of panel-reactive antibodies. Other covariates pertained to donor characteristics, or the transplant procedure: donor age, donor gender, donor CMV status, living related/unrelated or cadaveric donor, cold ischemia time, and number and types of HLA mismatch. Information on induction and immunosuppressive therapy was also collected.

Patients were grouped into three categories by age at time of transplantation: 50 to 59 yr, 60 to 64 yr, or 65 yr. Because it was our aim to specifically study the oldest age group, all analyses used this category as the referent group. We then compared the baseline characteristics among these groups by simple linear regression for continuous variables, and simple logistic regression for categorical variables. Primary outcomes analyses focused on patient survival, graft survival, and graft survival censored for patient death. We used Kaplan-Meier curves to display the time course of each event of interest. We then used univariate and multivariate Cox proportional-hazard models to test for the independent effects of the available covariates on the outcomes. All patients were censored at 5 yr after transplantation, because the data became sparse beyond that follow-up range. We forced two dummy covariates indicating the two younger age categories into all multivariate models. With model parsimony in mind, we selected the other model covariates by an automated backward elimination process at P > 0.15. Observing the rule that not more than one covariate per ten events be used in multivariate models, we then used a manual elimination process to select out variables with the highest P values step by step. However, all independently significant covariates at the P < 0.05 level were included in the final multivariate models. We examined the validity of the proportional-hazard assumption by testing for significance of covariate-time interaction terms. All analyses were conducted by SAS version 8.2 statistical analysis software (SAS Institute, Cary, NC). This study was approved by the local institutional review board.

	Results

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Of the 1250 patients having received a kidney transplant at our institution between January 1, 1993, and December 31, 2000, 627 patients were 50 yr of age at transplantation and so constituted our study cohort: 335 patients (53.4%) were between 50 and 59 yr old at time of transplantation (group 1), 141 patients (22.5%) were between 60 and 64 yr old (group 2), and 151 patients (24.1%) were 65 yr (group 3; median = 68.4 yr; interquartile range: 66.4 to 70.9; maximum = 78.6). The median follow-up for the three age groups were 1179 d, 1170 d, and 899 d, respectively. Only 6 patients were lost to follow-up, all in the youngest age group. Table 1 shows important covariate information for each age group. Several baseline covariates differed significantly by age group: older patients tended to have less hypertension, but more coronary artery disease and peripheral artery disease. Older patients were also less likely to have had a previous kidney transplant, or to have had high panel-reactive antibody titers, but they were more likely to have mismatches on the HLA-DR locus. Donor age was also higher in recipients 65 yr compared with the other age groups. The likelihood of induction therapy with antithymocyte globulin appeared to increase with age, and the oldest age group was less likely to receive cyclosporine A or azathioprine as part of the immunosuppressant regimen (Table 1).

Short-Term Outcomes of Kidney Transplantation
Among the three age groups, the rates of undesired short-term outcomes were very similar (Table 2). Primary nonfunction was observed in 6.6%, 5.8%, and 7.3% of patients (P = 0.87), and among the remaining patients, delayed graft function was found in 23.2%, 23.9%, and 22.3% (P = 0.96) of 50 to 59, 60 to 64, and 65 yr olds, respectively. The corresponding in-hospital mortality rates were 4.2%, 3.5%, and 3.3%, respectively (P = 0.67). The median length of the initial hospital stay was 28 d for patients between 50 and 59 yr, 26 d for transplant recipients 60 to 64 yr, and 27 d for those 65 yr (P = 0.79). Among those patients discharged with a functioning transplant, serum creatinine at discharge was 1.57 mg/dl (±0.59), 1.48 mg/dl (±0.49), and 1.48 mg/dl (±0.48) for the 50 to 59, 60 to 64, and 65 yr groups, respectively.

View larger version (13K): [in this window] [in a new window] [as a PowerPoint slide]   Figure 1. Kaplan-Meier plot of cumulative 5-yr patient survival.

View larger version (13K): [in this window] [in a new window] [as a PowerPoint slide]   Figure 2. Kaplan-Meier plot of cumulative 5-yr graft survival.

	Discussion

Top Abstract Introduction Materials and Methods Results Discussion References

 
In our study of 627 renal transplant recipients aged 50 yr at time of transplantation, we found most outcomes to be similar in recipients 65 yr in comparison to their 60- to 64- and 50- to 59-yr-old peers. Short-term outcomes such as primary nonfunction, delayed graft function, in-hospital mortality, and length of hospital stay did not differ among the age groups; neither did renal function among those discharged alive. Compared with transplant recipients 65 yr, those between 60 and 64 yr at time of the procedure had similar mortality (HR = 1.07; 95% CI, 0.66 to 1.74) and comparable rates of graft loss (HR = 1.28; 95% CI, 0.82 to 2.02). The youngest age group in this study (50 to 59 yr) demonstrated a clear trend toward lower mortality compared with those 65 yr (HR = 0.66; 95% CI, 0.43 to 1.03), but statistical power was limited to discover a survival difference between these two groups. However, graft survival was clearly not different between these two groups (HR = 1.02; 95% CI, 0.68 to 1.53). These results arose from analyses that simultaneously controlled for a large number of potential confounders of these associations. We are confident that the assessment of risk factors of mortality and graft loss that may confound the associations of age with these outcomes is the most thorough effort thus far. Hence, these findings have important implications for the discussion about who should have access to the limited pool of donor organs.

Successful kidney transplantation is the treatment of choice for patients with ESRD. There is an increasing gap between supply and demand for donor organs as the incidence of ESRD patients is growing worldwide. In addition, the proportion of patients older than 65 yr in need of renal replacement therapy has increased dramatically over the past decades. Long-term patient survival in the elderly has been shown to be significantly better in transplanted patients versus patients on dialysis, regardless of the dialytic modality (20,21). For patients aged 60 to 74 yr, the projected lifespan while being on the wait list for a transplant is 6 yr, whereas it is 10 yr for those with a transplanted kidney (22). Quality of life is also significantly better in transplanted patients compared with patients on the wait list among the elderly (21,23).

The literature on long-term outcomes of elderly patients after kidney transplantation is inconclusive (9,11,14,20,24–29). In particular, assessment and inclusion of information on comorbid conditions in previous analyses of long-term outcomes is limited at best. To fill this void, we retrospectively assessed 5-yr patient and graft survival in elderly patients compared with patients in the adjacent age groups at our institution and collected information on many possible confounding factors.

Our findings that undesired short-term outcomes did not differ among the three age groups are novel. Interestingly, neither delayed graft function nor primary-non function differed among the age groups, although donor age tended to be higher in the oldest recipient-group, which is likely attributable to the initiation of the Eurotransplant Senior Program in 1999 (30). Surgical complications, transplant nephrectomy, discharge on HD, and death during initial hospitalization were also not different among the three age groups; neither was renal function at discharge. Our finding that average hospital length of stay did not differ among the age groups confirms previous findings (31).

Crude 5-yr patient survival was superior for those aged 50 to 59 yr at transplantation compared with those in the older age groups (Figure 1). Our findings that, after multivariate adjustment, survival was similar between patients aged 60 to 64 and 65, and only nonsignificantly better in recipients 50 to 59 compared with those 65 yr of age at transplantation, require further comment. Although similar survival between patients aged 60 to 65 and those older than 65 may appear intuitive, nondifferential survival between the oldest group and those patients between 50 and 60 yr at transplantation is not. However, the statistical power to detect mortality differences between these groups was rather limited in our study. Kappes et al. (11) reported a significantly reduced 5-yr patient survival in recipients over the age of 60 (80%) compared with patients under the age of 60 (95%). This survival difference was mainly attributable to cardiovascular deaths: although cardiac complications were less frequent in older compared with younger recipients, the case fatality was much higher in the older group. Another study reported significantly lower survival over 2 yr of follow-up in recipients older than 60 (90%) compared with patients younger than 60 yr (96%) (32). In this study, cardiovascular events were also the leading cause of death. In contrast to the standardized workup implemented at our center, patients in this study were evaluated with a thallium scan only. However, age-related mortality due to cardiovascular disease is still twice as high in patients on the wait list compared with transplanted patients, suggesting that patients have an increased benefit in terms of cardiovascular mortality from transplantation with higher age (33).

In congruence with our results, Cantarovich et al. (34) reported similar 5-yr patient survival (80%) between transplant recipients 60 yr and those between 50 to 59 yr, whereas patients aged 20 to 29 yr at time of transplantation had a significantly better 5-yr survival (94%). Cardiovascular death rates were not different among the age groups, which might explain the similar survival rates observed among the two older groups. In this study, the rate of fatal cardiovascular events in elderly transplant recipients was roughly the same as in the French population aged 55 to 74 yr. The authors concluded that elderly patients, if correctly selected, did not have an increased risk of death due to cardiovascular events compared with the age-matched general population. When comparing life expectancy of transplanted patients of all Austrian transplant centers to the Austrian general population, approximation was achieved only for patients older than 65 yr (35). With respect to relative life expectancy compared with the general population, patients older than 60 yr at time of transplantation may have the largest benefit from receiving a kidney transplant (34).

Another important cause of death in elderly recipients are infectious complications. With conventional immunosuppressive regimens, the risk of infectious death in older recipients increases exponentially because there is a general trend toward increased infectious vulnerability in the elderly population. In the group of patients aged 18 to 29, the incidence of death due to infectious complications was 0.8%, whereas the incidence increased to 4.8% in patients older than 65 (33,36).

From the Kaplan-Meier curves of 5-yr graft survival, the combined end point of graft loss or patient death (Figure 2), we learned that at least for the first 3 yr of follow-up, the survival curves for the three age groups were virtually superimposed; only beyond 3 yr did patients between 50 and 59 yr appear to experience better graft survival. However, because Kaplan-Meier plots convey unadjusted information such analyses are crude and do not take into account any confounding factors. Formal multivariate analyses confirmed that graft survival was not different at all among the three age groups. These findings are in congruence with the literature. Cantarovich et al. (34) found 5-yr graft survival not to differ between the youngest (20 to 29 yr) and the oldest patients (>60), and Kappes et al. (11) found that 5-yr graft survival was even superior in the older recipients (90%) compared with the younger ones (82%). This effect may be due to less acute rejection in elderly patients given that the immune system weakens as age increases (37). Doyle et al. (10) discriminated between low-risk and high-risk recipients among the elderly and found graft survival in low-risk recipients to be equivalent to that of younger patients, with a 10-yr graft survival of 50% in the older compared with 53% in the younger ones. Graft survival in the high-risk patients was significantly worse than in the low-risk older and the younger patients, with a 10-yr graft survival of 15%. An explanation for this phenomenon may be a lower nephron mass or increased glomerular sclerosis in kidneys retrieved from older donors (5). Older kidneys have fewer functioning nephrons (38). The parenchymal cells of grafts from older donors might also undergo premature senescence as a result of multiple injuries such as reperfusion (39). Furthermore, kidneys from old donors also seem to have an impaired ability to restore tissue (39).

In our study, donor age was also an important determinant of graft loss, as described previously by Doyle and others (10): graft survival in low-risk recipients was equivalent to that of younger patients, with a 10-yr graft survival of 50% in the older compared with 53% in the younger ones. Graft survival in the high-risk patients was significantly worse than in the low-risk older and the younger patients, with a 10-yr graft survival of 15%. Although an association between donor age and graft loss seems intuitive, the association with mortality is not. It is possible that, especially in elderly patients, graft loss is often associated with a high risk of subsequent patient death as described elsewhere (10).

A positive history of CAD was highly associated with an increased risk of death or graft failure in our cohort, even though all patients were thoroughly screened for CAD before being placed on the wait list. Patients with a history of CAD are only registered, if the lesion is not significant (e.g., stenosis <70% in any coronary artery), or after appropriate intervention. Although CAD is an important predictor of mortality in the general population, it is likely that this effect is accentuated in transplant recipients with a history of CAD by the known acceleration of the disease associated with various immunosuppressive agents, such as corticosteroids (40–42) or calcineurin inhibitors (43).

Our findings that presence of any gastrointestinal comorbidities was highly associated with both patient death and graft loss has not been reported to date. A rationale for this effect may be the high prevalence of corticosteroid treatment in this population. It is well known that high dose corticosteroids aggravate preexisting gastric ulcers (44) and so may lead to gastric hemorrhage, perforated ulcer disease or spontaneous rupture of diverticula. Appropriate screening for gastrointestinal disease and consistent medical prophylactic therapy after transplantation seem obligatory (34).

From the analyses of 5-yr patient and graft survival, it becomes apparent that application of a standard selection process leads to a convergence of outcomes across age groups. Thus, the patients studied are carefully selected and the study population is rather homogenous. Although age can be assumed to still be a risk factor for mortality, everything else being equal, it is possible that the contribution of death on graft loss is counterbalanced by other forces, such as less immunological graft rejection, that lead to a net rate of graft loss in older recipients that is at least equal to the one observed in relatively younger patients.

The study presented here has certain limitations. First, it may not be generalizable to other centers or countries, because of the special situation in Austria with a higher organ supply compared with most other industrialized countries. Furthermore, patient selection algorithms may differ across centers and countries despite general guidelines. However, such concerns don’t invalidate our results. From our data, we cannot assess the age-specific rates of ESRD patients being evaluated for a transplant, being added to the wait list, and finally receiving a transplant. It can be assumed, though, that the degree of preselection increases with age, and fewer patients finally receive a transplant as age increases. Also, residual confounding of our findings is still possible, mainly as a result of crude dichotomization of comorbidities into present versus absent. Such categorization fails to capture any information on the severity of each condition. Nevertheless, we are confident that the study presented here excels with thorough confounding control compared with previous analyses on the topic of interest. Finally, the study period was limited to 5-yr of follow-up. Studies with long-term follow-up beyond 5 yr are warranted.

In summary, our findings suggest that kidney transplantation can be offered even to very elderly patients on renal replacement therapy once they have undergone a thorough pretransplant workup and received treatment of preexisting comorbidities, where possible. Transplantation is a safe procedure regardless of recipient age. Five-year patient survival was similar and graft survival was at least equal in the elderly when compared with relatively younger patients. Thus, our findings provide good evidence that age per se is not associated with a lower return on investment when distributing a scarce donor organ. Thus, discriminating on the basis of age is not supported by the medical research and is thus not justified in the discussion of who should have preferred access to the limited supply of donor kidneys.

	Footnotes

 
Drs. Fabrizii and Winkelmayer contributed equally to this study.

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