Mortality in Kidney Disease Patients Treated with Phosphate Binders: A Randomized Study

Materials and Methods

This is a multicenter, prospective, randomized, nonblinded study. The primary end point was all-cause mortality; secondary end points were dialysis inception and the composite end point (all-cause mortality and dialysis inception).

This study should be regarded as a pilot study because no data were available from the medical literature on the potential effect of phosphorus binders on mortality in nondialysis-dependent CKD patients. On the basis of our historical data, we decided to randomize 240 patients to have 80% power to detect a 60% reduction in all-cause mortality at the 5% significance level considering a 7% of all-cause mortality rate in the control group (7). In addition, because of limited resources and because sevelamer was not reimbursed by the national health care system at the time of the study design, the sample size was limited to ≤120 patients being treated with sevelamer for 3 years.

Consecutive asymptomatic outpatients receiving care at 12 nephrology clinics in South Italy were evaluated. Inclusion criteria were being aged ≥18 years, having 6 months of follow-up before the enrollment, and having stage 3–4 CKD. Exclusion criteria were heart failure, coronary artery disease, previous myocardial infarction, coronary by-pass, angioplasty, stroke, arrhythmia, liver dysfunction, nephrotic syndrome, and fast progression of kidney function (defined as 24-hour measured creatinine clearance loss ≥12 ml/min per year). The latter may not allow a long-lasting follow-up because of accelerate dialysis initiation. Patients were informed of the nature of study and that sevelamer was not approved by the Italian Health Department in NDD-CKD patients. Patients entered the study after they had provided written informed consent. This study was conducted in adherence to the Declaration of Helsinki.

Enrollment began in November 2005. Patients were randomized to receive either open-label calcium carbonate or sevelamer. A binder was randomly assigned (in a 1:1 fashion) by the coordinating center. A single simple randomization list was generated by computer and was concealed with the use of numbered, opaque sealed envelopes that were opened in sequence by the administrative personnel of the coordinating center not involved in patient care. All participating centers followed the same procedure via a phone call to the coordinating center.

The initial dose of each binder was established based on data of a previous study in predialysis patients in which 1600 mg/d sevelamer and 2000 mg/d calcium carbonate were found as the minimum dosages able to reduce urinary phosphorus excretion (11). Clinicians were free to increase the initial dose of binder to maintain serum phosphorus concentrations between 2.7 and 4.6 mg/dl for patients with stage 3–4 CKD, and between 3.5 and 5.5 mg/dl for patients with stage 5 CKD, as suggested by Kidney Disease Outcomes Quality Initiative (KDOQI) guidelines available at the time the study was started. Investigators were not blinded to binder assignment. The follow-up continued until death of any cause, dialysis inception, or 36 months from study entry.

Blood chemistry was assessed at enrollment and every 6 months. Laboratory variables recorded closer to the event or at the end of study was regarded as final; intermediate recordings performed after assignment to binder were averaged and reported as on-treatment average.

GFR was obtained by the 24-hour measured creatinine clearance. Intact parathyroid hormone (PTH) was assayed by using the chemiluminescent immunometric method (Diagnostic Products, Los Angeles, CA) and high-sensitivity C-reactive protein (CRP) by the immunoturbidimetric method.

The CAC score was assessed by a multi-slice computed tomography (CT) scan (GE Medical Systems) at study entry as well as scans at 6, 12, 18, and 24 months. CT scans were performed at and analyzed by a single center (Department of Radiology, Ospedale di Solofra, Avellino). Two readers unaware of phosphate binder assignments read the CT scans. CAC score was performed using a semi-automated threshold-dependent algorithm. Calcifications within the coronary artery tree above a threshold of 130 HU were included. CAC score was reported in Agatston units (AUs).

Data are expressed as mean ± SD, median and interquartile range (IQR), or frequencies. The paired samples t test for continuous variables and chi-squared test were used for comparison of baseline clinical characteristics and to compare final and on-treatment average values versus baseline values for both treatment groups. Kaplan–Meier survival curves were created and a long-rank test was used for comparisons between patients treated with sevelamer and with calcium carbonate. Multivariable cox-regression analysis was performed to assess predictors of events. Cox analysis was adjusted for covariates regarded as traditional predictors of all-cause mortality or dialysis inception such as age, sex, diabetes, hypertension, GFR, serum calcium, PTH, and CRP. Baseline time invariant and time-varying covariates (treated as repeated measures) were included in the models. Baseline time invariant covariates included age, sex, diabetes, hypertension, treatment group assignment after randomization, basal values of creatinine clearance, and CAC score. Time-varying covariates included creatinine clearance, serum concentration of calcium, phosphorus, PTH, CRP, total cholesterol, triglycerides, and LDL cholesterol. The largest possible meaningful considered model included clinical and biochemical variables on the basis of their plausible univariate relation to the outcome, considering the overall model fit and hazard proportionality. Variables to be dropped as non-confounders were eliminated manually (backward elimination), monitoring variations of the exposure regression coefficient and giving validity precedence over precision. The contribution of covariates to explain the dependent variable was assessed using a two-tailed Wald test, with P<0.05 considered as significant. Model specification, proportionality assumption, and overall fit were checked by using re-estimation and formal and graphical tests based on residuals, as well as by testing the interaction with time of the variables in the model. Data are expressed as hazard ratios and 95% confidence intervals.