Baseline characteristics and study outcome
Median P, Ca and iPTH levels were 5.5 mg/dL, 9.4 mg/dL and 267 pg/mL, respectively, at the time of enrollment (Table 1). At the last visit, median P and Ca levels remained nearly the same (5.2 mg/dL and 9.5 mg/dL, respectively), while median iPTH decreased to 165 pg/mL.
Table 1. Baseline characteristics of the study population
Variable
|
Value
|
Demographics
|
|
|
Age, years
|
63 (55-71)
|
|
Sex, female, %
|
37.7
|
|
Body mass index, kg/m2
|
20.9 (19.0-23.3)
|
|
Cause of end-stage kidney disease, %
|
|
|
|
Glomerulonephritis
|
45.1
|
|
|
Diabetic nephropathy
|
24.2
|
|
|
Other disease
|
30.7
|
Comorbidities, %
|
|
|
Diabetes mellitus
|
31.6
|
|
Cardiovascular disease
|
60.0
|
|
Lung disease
|
7.4
|
|
Liver disease
|
14.1
|
|
Malignancy
|
5.1
|
Dialysis
|
|
|
Duration of dialysis, years
|
8.3 (3.7-14.3)
|
|
Kt/V, single pool
|
1.4 (1.2-1.6)
|
|
Dialysate Ca, %
|
|
|
|
<3.0 mEq/L
|
52.0
|
|
|
≥3.0 mEq/L
|
48.0
|
Laboratory data
|
|
|
Serum albumin, g/dL
|
3.8 (3.5-4.0)
|
|
Blood hemoglobin, g/dL
|
10.5 (9.8-11.2)
|
MBD-related characteristics
|
|
|
Serum parameters
|
|
|
|
Ca, mg/dL†
|
9.4 (8.9-10.1)
|
|
|
P, mg/dL
|
5.5 (4.6-6.3)
|
|
|
iPTH, pg/mL
|
267 (197-401)
|
|
History of parathyroidectomy, %
|
6.2
|
|
Prescription of MBD-related agents, %
|
|
|
|
VDRA
|
77.6
|
|
|
|
Intravenous
|
48.4
|
|
|
|
Oral
|
30.4
|
|
|
Phosphate binder
|
85.1
|
|
|
|
Ca carbonate
|
66.7
|
|
|
|
Sevelamer hydrochloride
|
41.1
|
|
|
Cinacalcet hydrochloride¶
|
0.0
|
Data were derived from the subcohort (n=3276) randomly selected from the study population.
Continuous variables were expressed as median (interquartile range).
†Albumin-corrected value; calcium + [4.0 - albumin], if albumin is less than 4.0 g/dL.
¶Became available in January 2008 in Japan.
During the 3-year study period, a total of 1226 all-cause deaths were observed (506 among patients in the subcohort and 720 among those outside the subcohort). The overall mortality rate was 5.5 events/100 person-years.
Association between mortality and changing patterns of MBD parameters
Serum phosphorus
The aIR for patients whose P levels were maintained in the middle (M-M) category during the 3 month intervals was 4.9/100 person-years, while the aIRs for those whose P levels were maintained in the low (L-L) and high (H-H) categories were 7.4 and 11.1/100 person-years, respectively (Table 2). The risk of mortality was significantly higher in the L-L and H-H groups than in the M-M group (aIRR [95% CI]: 1.53 [1.14-2.03] and 2.28 [1.49-3.49], respectively).
Table 2. aIRs for patients whose parameters were maintained in the same category during the 3-month intervals
|
adjusted incidence rates (95% CI)
|
L-L group
|
M-M group
|
H-H group
|
P
|
7.4 (5.4-9.4)
|
4.9 (4.4-5.3)
|
11.1 (6.4-15.7)
|
Ca
|
3.7 (1.5-5.8)
|
4.5 (3.9-5.2)
|
6.8 (6.1-7.5)
|
iPTH
|
5.9 (5.3-6.5)
|
5.4 (4.7-6.1)
|
6.7 (4.1-9.3)
|
Levels of each parameter were divided into three categories (L, M and H); the middle category were defined as 4.0-7.0 mg/dL for P, 8.5-9.5 mg/dL for Ca and 200-500 pg/mL for iPTH. For each 3-month interval ending at visit t, the changing patterns of MBD parameters during the previous 3-month interval from visit t - 2 (baseline) to visit t - 1 (3 months later) were evaluated. Incidence rates were adjusted for patients’ characteristics (age, sex, primary kidney disease, diabetes, dialysis vintage, cardiovascular disease, lung disease, liver disease, malignancy and history of parathyroidectomy) and time-varying variables (VDRAs, phosphate binders, cinacalcet, albumin, hemoglobin, body mass index, Kt/V, and dialysate Ca concentration).
Patients with P levels shifting from the middle to low/high (M-L/M-H) category had a higher risk of mortality compared with those in the M-M group (Figure 2a, middle). Changes in patterns from the low/high to middle category (L-M/H-M) were significantly associated with a lower risk of mortality compared with the unchanged patterns (L-L/H-H) (Figure 2a, top/bottom).
Figure 2. aIRRs for each combination of the values at baseline and 3 months later.
Levels of each parameter were divided into three categories (L, M and H); the middle category were defined as 4.0-7.0 mg/dL for phosphorus, 8.5-9.5 mg/dL for calcium and 200-500 pg/mL for intact PTH. For each 3-month interval ending at visit t, the changing patterns of MBD parameters during the previous 3-month interval from visit t - 2 (baseline) to visit t - 1 (3 months later) were evaluated. Incidence rate ratios were adjusted for patients’ characteristics (age, sex, primary kidney disease, diabetes, dialysis vintage, cardiovascular disease, lung disease, liver disease, malignancy and history of parathyroidectomy) and time-varying variables (VDRAs, phosphate binders, cinacalcet, albumin, hemoglobin, body mass index, Kt/V, and dialysate Ca concentration).
Serum calcium
The aIRs for patients whose Ca levels were maintained in the same category during the 3 month intervals were 3.7/100 person-years for the low category, 4.5/100 person-years for the middle category and 6.5/100 person-years for the high category (Table 2). The mortality risk increased linearly according to Ca levels. There was no significant difference between the L-L and M-M groups. On the other hand, the aIR in the H-H group was significantly higher than that in the M-M group (aIRR [95% CI]: 1.51 [1.27-1.79]).
Among patients with Ca levels in the middle category at baseline, those who shifted to the high (M-H) category 3 months later were at a significantly higher risk compared with those who remained in the M-M group (Figure 2b, middle). Among patients with Ca levels in the low category at baseline, those who shifted to the high category had a higher risk of mortality compared with those who remained in the low (L-L) category; however, there was no significant difference between the L-L and L-M groups (Figure 2b, top). Among patients with Ca levels in the high category at baseline, those who shifted to the middle (H-M) category had a lower risk of mortality compared with those who remained in the high (H-H) category (Figure 2b, bottom).
Table 3 shows a comparison of the background characteristics of patients in the M-H group versus the M-L/M-M groups. The former group was administered intravenous VDRA and cinacalcet more often than the latter groups (SMD: 0.22 and 0.21, respectively).
Table 3. Characteristics of patients shifted toward to high category in Ca level during the 3-month intervals
|
M-L and M-M groups
|
M-H group
|
SMD
|
Demographics
|
|
|
|
Age, years
|
62.0±20.2
|
60.8±19.6
|
0.06
|
Sex, female, %
|
36.5
|
40.4
|
0.15
|
Body mass index, kg/m2
|
21.5±5.7
|
21.4±5.6
|
0.01
|
Cause of end-stage kidney disease, %
|
|
|
|
Glomerulonephritis
|
39.3
|
46.6
|
|
Diabetic nephropathy
|
29.4
|
22.6
|
0.17
|
Others
|
31.4
|
30.8
|
|
Comorbidities, %
|
|
|
|
Diabetes mellitus
|
36.9
|
28.5
|
0.18
|
Cardiovascular diseases
|
58.6
|
57.8
|
0.02
|
Lung diseases
|
7.2
|
7.0
|
0.01
|
Liver diseases
|
12.8
|
13.8
|
0.03
|
Malignancies
|
4.7
|
4.1
|
0.03
|
Dialysis
|
|
|
|
Log duration of dialysis, years
|
0.7±0.7
|
0.7±12.6
|
0.14
|
Kt/V, single pool
|
1.4±0.5
|
1.5±0.5
|
0.07
|
Dialysate calcium, mEq/L
|
2.7±0.4
|
2.8±0.4
|
0.03
|
Laboratory data
|
|
|
|
Albumin, g/dL
|
3.7±0.5
|
3.7±0.5
|
0.00
|
Hemoglobin, g/dL
|
10.5±1.8
|
10.6±1.8
|
0.05
|
MBD-related characteristics
|
|
|
|
Serum parameters
|
|
|
|
P, mg/dL
|
5.4±2.2
|
5.6±2.2
|
0.09
|
Log iPTH, pg/mL
|
2.3±0.5
|
2.3±0.5
|
0.05
|
History of parathyroidectomy, %
|
4.4
|
6.2
|
0.08
|
Prescription of MBD-related agents, %
|
|
|
|
VDRAs
|
79.8
|
86.4
|
0.22
|
Intravenous
|
45.3
|
55.4
|
|
Oral
|
34.5
|
31.0
|
|
Phosphate binders
|
85.8
|
89.5
|
0.16
|
Both
|
26.4
|
31.4
|
|
Non–Ca-based
|
15.0
|
17.3
|
|
Ca-based
|
44.4
|
40.7
|
|
Cinacalcet
|
19.3
|
28.2
|
0.21
|
Values are presented as mean ± standard deviation for continuous variables and proportions for categorical variables.
Serum intact parathyroid hormone
Compared with patients whose iPTH levels were maintained in the middle (M-M) category, those whose iPTH levels were maintained in the low (L-L) and high (H-H) categories did not show any significant differences in mortality risk (aIRR [95% CI]: 1.09 [0.93-1.27] and 1.24 [0.82-1.86], respectively) (Table 2).
Among patients with iPTH levels in the middle category at baseline, those who shifted to the low (M-L) or high (M-H) category did not show any difference in the risk of mortality compared with the M-M group (Figure 2c, middle). However, among patients with iPTH levels in the low category at baseline, those who shifted to the middle (L-M) category had a significantly lower risk of mortality compared with those who remained in the low (L-L) category (Figure 2c, top). Among patients with iPTH levels in the high category at baseline, those who shifted to the middle (H-M) or low (H-L) category had a lower, albeit statistically insignificant, risk of mortality compared with those who remained in the high (H-H) category (Figure 2c, bottom).
Sensitivity analysis with 12-month intervals
Serum phosphorus
In the sensitivity analysis with 12-month intervals, the trend of aIRs among patients whose P levels were maintained in the same category was similar to that of the analysis with 3 month intervals (Table 4). However, the aIRR for the H-H group was attenuated and was not significantly different (aIRR [95% CI]: 1.81 [0.95-3.42]), and the significant differences observed between the L-M and L-L/H-M groups and between the H-M and H-H groups in the analysis with 3-month intervals were not observed in the sensitivity analysis (Figure 3, top/bottom).
Table 4. aIRs for patients whose parameters were maintained in the same category during the 12-month intervals
|
adjusted incidence rates (95% CI)
|
L-L group
|
M-M group
|
H-H group
|
P
|
8.7 (4.7-12.7)
|
5.6 (5.1-6.1)
|
10.1 (3.7-16.5)
|
Ca
|
7.6 (3.1-12.2)
|
5.3 (4.4-6.3)
|
6.7 (5.9-7.5)
|
iPTH
|
6.2 (5.3-7.1)
|
6.5 (5.5-7.4)
|
13.1 (6.7-19.6)
|
Levels of each parameter were divided into three categories (L, M and H); the middle category were defined as 4.0-7.0 mg/dL for P, 8.5-9.5 mg/dL for Ca and 200-500 pg/mL for iPTH. For each 12-month interval ending at visit t, the changing patterns of MBD parameters during the previous 12-month interval from visit t - 2 (baseline) to visit t - 1 (12 months later) were evaluated. Incidence rates were adjusted for patients’ characteristics (age, sex, primary kidney disease, diabetes, dialysis vintage, cardiovascular disease, lung disease, liver disease, malignancy and history of parathyroidectomy) and time-varying variables (VDRAs, phosphate binders, cinacalcet, albumin, hemoglobin, body mass index, Kt/V, and dialysate Ca concentration).
Figure 3. aIRRs for each combination of the values at baseline and 12 months later.
Levels of each parameter were divided into three categories (L, M and H); the middle category were defined as 4.0-7.0 mg/dL for phosphorus, 8.5-9.5 mg/dL for calcium and 200-500 pg/mL for intact PTH. For each 12-month interval ending at visit t, the changing patterns of MBD parameters during the previous 12-month interval from visit t - 2 (baseline) to visit t - 1 (12 months later) were evaluated. Incidence rate ratios were adjusted for patients’ characteristics (age, sex, primary kidney disease, diabetes, dialysis vintage, cardiovascular disease, lung disease, liver disease, malignancy and history of parathyroidectomy) and time-varying variables (VDRAs, phosphate binders, cinacalcet, albumin, hemoglobin, body mass index, Kt/V, and dialysate Ca concentration).
Serum Calcium
In the sensitivity analysis with 12-month intervals, the H-H group had a significantly higher risk of mortality compared with the M-M group (aIRR [95% CI]: 1.25 [1.00-1.56] for the H-H group); however, the magnitude of difference was smaller than in the analysis with 3-month intervals (Table 4). There were no significant differences in mortality between the L-H and L-L groups and between the H-M and H-H groups in the sensitivity analysis (Figure 3, top/bottom).
Serum intact parathyroid hormone
In the sensitivity analysis with 12-month intervals, the H-H group had a significantly higher risk of mortality compared with the M-M group (aIRR [95% CI]: 2.03 [1.22-3.39]) (Table 4). There was no significant difference in mortality between the L-M and L-L groups in the sensitivity analysis (Figure 3, top).