Age Affects Outcomes in Chronic Kidney Disease

RESULTS

The study cohort consisted of 209,622 patients who met criteria for stages 3 to 5 CKD. The mean age for the cohort was 73 yr (SD ± 9), and 47% (n = 99,060) of cohort members were ≥75 yr. Race was white in 86%, black in 11%, other in 0.9%, and unknown in 2.2%. Three percent (n = 6842) of cohort members were women. From the youngest to the oldest age group, the percentage of black and female patients decreased and the prevalence of comorbid conditions other than diabetes increased (Table 1). The prevalence of diabetes was highest among those aged 55 to 64 yr and decreased thereafter. Median Charlson score also increased across age groups. The majority of cohort patients had moderate (estimated glomerular filtration rate [eGFR] 30 to 59 ml/min per 1.73 m²) rather than severe CKD (eGFR 15 to 29 ml/min per 1.73 m²) or renal failure (eGFR <15 ml/min per 1.73 m²; Figure 1).

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Figure 1.

Distribution of eGFR among cohort patients in each age group.

A total of 668,820 person-years were available for analysis of time to death and time to treated ESRD. From the time of cohort entry through September 30, 2004, 9227 (4.4%) patients were treated for ESRD. Dialysis was the initial modality in all but 47 patients, who received a transplant before starting long-term dialysis. Overall, 5774 (63%) cases of ESRD occurred among cohort patients who were ≥65 yr and 2601 (28%) occurred among patients who were ≥75 yr. During the same period, 45,772 (21.8%) patients died without ever being treated for ESRD. An additional 2925 (1.4%) patients died af-ter starting treatment for ESRD.

As expected, patients with the lowest levels of eGFR at baseline experienced both the highest rates of death (Table 2) and the highest rates of treated ESRD (Table 3) during follow-up. However, among patients with comparable levels of eGFR at baseline, trends across age groups in rates of death (Table 2) and treated ESRD (Table 3) were in opposite directions: Among patients with comparable levels of baseline eGFR, rates of death were higher and rates of treated ESRD were lower for older than for younger patients. Among patients who were younger than 45 yr, the incidence of treated ESRD was greater than that of death at all eGFR levels <45 ml/min per 1.73 m² (Figure 2). Conversely, among those aged 65 to 84, only at eGFR levels <15 ml/min per 1.73 m² did risk for ESRD exceed risk for death. Among those aged 85 to 100, risk for death exceeded risk for ESRD even at eGFR levels <15 ml/min per 1.73 m². Adjustment for gender, race, comorbid conditions, and Charlson score in Cox proportional hazard analysis did not alter the direction of the association of age with either death or ESRD. Within each age group, the adjusted hazards for ESRD and for death increased with falling eGFR (data not shown).

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Figure 2.

Baseline eGFR threshold below which risk for ESRD exceeded risk for death for each age group.

Among patients whose initial eGFR was <45 ml/min per 1.73 m², the percentage of patients experiencing an annual decrement in eGFR of >3 ml/min per 1.73 m² decreased with advancing age (Table 4). Among those with an eGFR of 45 to 59 ml/min per 1.73 m² at baseline, the percentage of patients experiencing a decrement in eGFR of >3 ml/min per 1.73 m² was actually greater among older than among younger patients. The direction of these associations did not alter with adjustment for race, gender, comorbid conditions, and Charlson score and was similar among black patients, women, and patients with diabetes.

DISCUSSION

Among a large national cohort of US veterans who met criteria for stage 3 or higher CKD, the incidence of both death and ESRD was inversely related to eGFR among patients of all ages; however, the relative frequency of these outcomes among patients with a comparable level of eGFR varied considerably by age. Most older members of this cohort, especially those ≥75 yr, were far more likely to die than to develop ESRD, even when their eGFR was severely reduced (15 to 29 ml/min per 1.73 m²). Conversely, younger patients with severe or even moderate reductions in eGFR (30 to 44 ml/min per 1.73 m²) were far more likely to develop ESRD than to die. Collectively, our findings indicate that age is an important effect modifier in CKD. Similar to conditions such as hypertension and subclinical hypothyroidism,^18,19 an equivalent level of eGFR can have very different prognostic implications in patients of different ages.

Age differences in the prognostic significance of eGFR observed here probably reflect a variety of different phenomena. The lower incidence of ESRD among older compared with younger patients with similar levels of eGFR is likely due, at least in part, to their greater competing risk for death. Other considerations include the greater likelihood that older patients in this prevalent cohort (and in the clinical setting) are long-term CKD survivors and thus by definition have nonprogressive or slowly progressive disease. Differences in outcomes may also reflect age differences in the underlying cause of low eGFR. Perhaps in older patients, low eGFR functions more commonly as a “marker” for a variety of other age-related coexisting comorbid conditions and thus tends to be a better predictor of “global” health outcomes (e.g., mortality) than of more “specific” renal outcomes. In contrast, in younger patients, perhaps low eGFR results more frequently from a single disease affecting the kidney and thus may better predict renal outcomes. An additional consideration is that some loss of GFR is believed to occur as part of “normal” aging.²⁰ Although the distinction may be somewhat semantic, it is possible that in some patients, moderate reductions in eGFR (e.g., 45 to 59 ml/min per 1.73 m²) occur as part of “normal aging” rather than as a “disease process” per se. An additional consideration is that the Modification of Diet in Renal Disease (MDRD) equation used here to estimate GFR has not been validated across the range of age and eGFR levels examined here; therefore, age differences in the accuracy of the equation for estimating true GFR may introduce age differences in its prognostic significance. Finally, although the lower incidence of treated ESRD in the elderly is broadly consistent with slower rates of eGFR decline among those with eGFR levels <45 ml/min per 1.73 m², it is also possible (particularly in the oldest patients with the lowest levels of eGFR) that the lower incidence of treated ESRD may reflect a greater reluctance on the part of patients and/or physicians to initiate dialysis when indications arise.

It is broadly accepted that rates of death exceed those of ESRD, even among patients with severe reductions in eGFR. This phenomenon was first described by Keith et al.¹² among 27,998 members of a large health maintenance organization with a sustained eGFR of <90 ml/min per 1.73 m². The mean age of this cohort was >60 yr. Foley et al.⁵ reported a similar phenomenon among a 5% sample of Medicare beneficiaries who were aged ≥67 yr and had diagnosed CKD. Similar to these studies, rates of death among older members of our cohort far exceeded rates of ESRD across a wide eGFR spectrum; however, after stratifying by age, we identified a very different pattern in younger patients. In younger cohort members, rates of ESRD exceeded those of death among patients with severe reductions in eGFR and in some with moderate reductions. This observation is broadly consistent with other studies showing that the rate of progression of CKD may decrease with advancing age^11,21–23 and is often slow in older patients.^24,25

With the future prospect of more widespread eGFR-based screening for CKD in the primary care setting,^3,26 it is critical that providers understand how the clinical implications of eGFR vary by age and that practice guidelines address this variation. At the same time, any effective management strategy must embrace the reality that, although less likely to develop ESRD than their younger counterparts with similar levels of eGFR, older patients comprise a large and growing percentage (and number) of all new cases of ESRD in the United States.

The considerable heterogeneity in outcomes among patients of different ages with similar levels of eGFR observed here suggests that the uniform stage-based approach advocated in most practice guidelines is probably not adequate (http://www.renal.org/CKDguide/ckd.html, http://www.cari.org.au/guidelines.php).¹⁵ Because such a small percentage of elderly patients with severe reductions in eGFR go on to be treated for ESRD, there is a clear need for prognostic tools that will enable clinicians to target CKD-related interventions to the subgroup of older patients who are most likely to benefit. In contrast, interventions that address the exceedingly high mortality rates among elderly patients with severe reductions in eGFRare likely to be of greater benefit to a greater number of patients in this group. At the opposite end of the spectrum, high rates of progression to ESRD in younger patients with severe (and in some cases moderate) decrements in eGFR provide a more compelling case for an inclusive proactive approach toward slowing progression and preparing for dialysis in this group.

Although our study leverages the unique strengths of the VA system to examine clinical outcomes in CKD across a wide age spectrum, there are a number of limitations to consider in interpreting our results. First, specific point estimates for each outcome may not be generalizable to nonveteran groups, women, or VA patients who had a low eGFR and did not have the minimum number and spacing of creatinine measurements required to fulfill criteria for CKD. Because the frequency with which creatinine is measured in our system is probably affected by how sick patients are perceived to be, our results probably overestimate rates of both treated ESRD and death among the wider population of veterans with CKD. This may be of particular concern in younger patients, in whom serum creatinine may not be incorporated into routine care to the same extent as for older patients. A second concern related to cohort selection is that limiting the cohort to patients with an eGFR <60 ml/min per 1.73 m² and stratification of results by initial eGFR may have introduced some bias as a result of regression to the mean. This bias could have occurred differentially by age group if the accuracy of eGFR varies by age; however, it is unlikely that either of these biases would have had a substantial impact on the ratio of death to ESRD in this cohort.

Third, the MDRD equation has not been validated in the elderly, and given the dependence of serum creatinine on muscle mass, there is particular concern that eGFR slope in the elderly may be affected by changes in muscle mass over time. In addition, there are more general concerns about the accuracy of this equation at eGFR levels close to and above 60 ml/min per 1.73 m², particularly when creatinine assays are not calibrated to the MDRD laboratory, as is the case in the VA. Thus, eGFR slope for patients with an eGFR 45 to 59 ml/min per 1.73 m² should be interpreted with caution; however, we argue that the accuracy of MDRD estimates for true GFR does not detract from the clinical significance of our findings. Although potentially inaccurate as in indicator of true GFR, eGFR is widely used in the clinical setting and does seem to have prognostic value for both death and ESRD. It is therefore important that clinicians using these estimates understand that outcomes for patients with a given level of eGFR vary by age. Fourth, in interpreting the incidence of ESRD, it is important to keep in mind that onset of ESRD is essentially a treatment decision; unfortunately, our data sources did not allow us to identify patients who had indications for dialysis but were not started on dialysis. Finally, because we followed patients only for a mean of 3.2 yr, our study does not provide information on long-term outcomes associated with low eGFR.

In a large national cohort of veterans who fulfilled criteria for stage 3 or higher CKD, the prognostic implications of eGFR for death and ESRD varied greatly depending on the age of the patient. These findings question the wisdom of a uniform “age neutral” approach to the management of CKD and underline the critical need for better prognostic tools with which to identify the small percentage but large and growing number of older individuals who will progress to ESRD.

CONCISE METHODS

DISCLOSURES

M.A. serves as a consultant for Arrow International. J.S.K. receives grant support from Hoffmann-La Roche and Keryx Pharmaceuticals and serves as a consultant for Hoffmann-La Roche, Amgen, Genzyme, and Advanced Magnetics. These funding sources had no involvement in the design or execution of this study.