Lipid and apolipoprotein patterns during erythropoietin therapy: roles of erythropoietin, route of administration, and diet.

BACKGROUND: Long-term effects of rHuEpo on the blood lipid profile have not been well documented. The aim of this paper is to prospectively evaluate whether rHuEpo therapy affects lipid metabolism, and whether these effects are influenced by changes in dietary habits and by route of rHuEpo administration. METHODS: The study was performed in 33 maintenance haemodialysis patients (MHP) treated for one year with rHuEpo either intravenously (n = 15) or subcutaneously (n = 18), three times per week at the end of each dialysis session. The doses were 50 IU/kg intravenously or 35 IU/kg subcutaneously during the first 6 months and 20 IU/kg during the following months. The control group consisted of 17 MHP not treated with rHuEpo. Total cholesterol, LDL-cholesterol and HDL-cholesterol, triglycerides, apolipoproteins Al and B, haemoglobin, serum albumin, blood urea nitrogen, serum creatinine, Kt/V, protein catabolic rate, and plasma erythropoietin were assessed at months 0, 2, 4, 6, 9, 12 and 2 weeks after rHuEpo discontinuation. Changes in food intake were evaluated on the basis of weekly dietary diaries before, and 3 and 9 months after treatment. Patients were divided into two groups: group A consisted of 19 patients who showed an increase in their energy intake (10% or more of basal value), and group B was formed by 14 patients without or with slight changes in their food intake. After the 6th month, dialysis schedules were adapted to new protein catabolic rate values in patients who increased their food intake. RESULTS: During follow-up, there were no significant changes in any of the parameters in the control group. In group A, blood urea nitrogen, serum creatinine, protein catabolic rate, cholesterol, LDL cholesterol, triglycerides and apolipoprotein B increased significantly since the first months of rHuEpo treatment, and changes in cholesterol and apolipoprotein B correlated significantly with changes in protein catabolic rate. In group B, cholesterol, LDL cholesterol, and apolipoprotein B decreased significantly after the 6th month of treatment, without changes in blood urea nitrogen, serum creatinine and protein catabolic rate values. In both groups A and B, HDL cholesterol decreased significantly until the 6th month and returned to basal values in the following months and apolipoprotein Al decreased until the 4th month and rose to levels higher than basal values in the following months. First rHuEpo administration and rHuEpo suspension at end of follow-up did not show any acute effect on lipid profile, despite significant changes in plasma erythropoietin values. Changes in lipid profile were similar with intravenous and subcutaneous administration of rHuEpo. CONCLUSIONS: We infer that long-term rHuEpo treatment positively affects the lipid profile, but in some patients who show exaggerated increase in their food intake these effects may be balanced and overcome by increment in some atherogenic blood lipid fractions. The changes in lipid and apolipoprotein patterns during rHuEpo therapy are not influenced by route of rHuEpo administration.

Early and late effects of erythropoietin on glucose metabolism in maintenance hemodialysis patients.

The effects of recombinant human erythropoietin (rHuEPO) on the glucose metabolism were evaluated by intravenous glucose tolerance test in 20 maintenance hemodialysis patients. In 8 cases the glucose tolerance tests were performed before and after a single intravenous injection of 50 IU/kg of rHuEPO and in 12 cases before and after 3 months of rHuEPO therapy at doses of 50 IU/kg three times/week and 2 weeks after rHuEPO withdrawal. For each test glucose, immunoreactive insulin (IRI) and C peptide (C-p) plasma values were measured, and glucose constant decay, whole IRI (area IRI) and C-p area C-p) production, insulinogenic index, and insulin resistance index were calculated. After 3 months of rHuEPO therapy, the glucose constant decay increased significantly, area IRI, area C-p, and insulin resistance index decreased significantly, and the insulinogenic index did not change. No correlations were found between changes in hemoglobin values and changes in glucose metabolism parameters. Acute rHuEPO administration and rHuEPO withdrawal had no effect on glucose metabolism, despite significant changes in plasma erythropoietin levels. Long-term rHuEPO therapy improves glucose metabolism in maintenance hemodialysis patients significantly, mainly by reduction of insulin resistance. Neither anemia correction nor a direct effect of rHuEPO on some metabolic steps seem to be responsible of these effects.

Erythropoietin and cardiovascular risk.

We studied the changes in some cardiovascular risk (CVR) factors in 24 maintenance hemodialysis patients treated for 1 year with recombinant human erythropoietin (rHuEPO) either intravenously (12 cases) or subcutaneously (12 cases). In order to clarify whether changes in some parameters were due to direct action of rHuEPO or to changes in food intake, we divided the patients into two groups: group A was formed by 14 patients who showed an increase in their food intake during rHuEPO therapy and group B by 10 patients without or with slight changes in their food intake. rHuEPO induced an improvement in well-being in 20 of 24 patients and in physical working capacity in 14 of 24, an increase in mean blood pressure in all patients, and hypertension in 4 of 24 patients. The incidence of hypertension was slightly higher after intravenous (3/12) than after subcutaneous (1/12) treatment. The rate of dialysis treatment with symptomatic hypertension significantly decreased from 44.0 +/- 8.0 to 12.1 +/- 2.2% after intravenous and from 41.3 +/- 6.8 to 10.0 +/- 3.8% after subcutaneous treatment. Evaluation of glucose metabolism (intravenous glucose tolerance test) before and after 3 months of rHuEPO therapy showed an improvement in glucose utilization (insulin resistance reduction). Cholesterol (CH), low-density lipoprotein CH, triglycerides, and apolipoprotein B significantly increased in group A, but not in group B. Both in groups A and B, high-density lipoprotein CH significantly decreased during the first 6 months and returned to basal values during the following months, and the apolipoprotein A1 level significantly decreased during the first 4 months and increased to levels higher than basal values during the following months. Changes in CH and apolipoprotein B were also positively correlated with changes in the protein catabolic rate. We infer that rHuEPO has opposite effects on CVR, but subcutaneous administration, dietary control, and antihypertensive treatment may produce a net decrease in CVR of maintenance hemodialysis patients on rHuEPO therapy.

Glucose-induced insulin secretion in uremia: role of 1 alpha,25(HO)2-vitamin D3.

To evaluate the role and mechanism of action of calcitriol on glucose-induced insulin secretion in uremia, 17 patients with severe chronic renal failure were studied. Glucose metabolism was investigated by the intravenous glucose tolerance test (IVGTT) before and after treatment for 21 days with 0.5 microgram/day of calcitriol and 500 mg/day of calcium (C+Ca) (6 cases) or 0.5 microgram/day of calcitriol alone (C) (11 cases). After these evaluations the patients on C+Ca were shifted to C and 6 patients on C were shifted to C+Ca, and IVGTT was repeated 21 days after the shift. For each test plasma glucose (G), immunoreactive insulin (IRI) and C-peptide (C-p) were measured at -30, 0, 2, 5, 15, 30, 45, 60 min, and baseline plasma values of 1 alpha,25(HO)2-vitamin D3, C-terminal parathyroid hormone (PTH-C), intact parathyroid hormone (PTH-I), calcitonin, and serum values of total and ionized calcium were dosed. Also, glucose constant decay (K-G), insulin response (IRI area), C-p production (C-p area), insulinogenic index (IGI) and insulin resistance index (RI) were calculated. A historical group of 21 healthy volunteers formed the normal controls. 1 alpha,25(HO)2-vitamin D3 plasma levels in uremic patients before treatment were significantly lower than normal range. As compared to controls, uremic patients showed significantly lower K-G, IRI area and IGI values and significantly higher RI values. After treatment with C or C+Ca, the insulin response improved significantly at 2 and 5 min and G decrement was more marked at 30, 45 and 60 min.(ABSTRACT TRUNCATED AT 250 WORDS)

Glucose-induced insulin secretion in uremia: relation with acid-base balance and effects of bicarbonate administration.

In order to evaluate effects of metabolic acidosis on glucose metabolism in uremia, we studied, by an intravenous glucose tolerance test (IVGTT), 46 patients with severe chronic renal failure divided into three groups according to their blood bicarbonate (BB) values: group A formed by 15 patients without or with light metabolic acidosis (BB > or = 20 mEq/1); group B formed by 18 patients with moderate metabolic acidosis (16 < or = BB < 20 mEq/1); group C formed by 13 patients with severe metabolic acidosis (BB < 16 mEq/1). In 8 patients of group B (subgroup B1) and in 8 of group C (subgroup C1), IVGTT was also repeated after adjustment of acid-base balance by intravenous or oral bicarbonate administration. Twenty-nine healthy volunteers formed the normal controls. For each test, glucose constant decay (K), immunoreactive insulin (IRI) area and C-peptide (C-p) area response, insulinogenic index (IGI) and insulin resistance index (RI) were calculated. Compared to controls, all uremic groups showed significantly lower values of K and IGI and significantly higher values of C-p area and RI. In group C, RI was significantly higher than in groups A and B. No differences were found in the other glucose metabolism parameters among the uremic groups. After bicarbonate administration, subgroup C1 showed a significant decrease in RI and a rise in K values, while subgroup B1 showed no changes in glucose metabolism parameters. From these data, we infer that abnormalities of acid-base balance do not affect insulin response but severe metabolic acidosis may play an additional role in the insulin resistance of uremic patients.

Glucose-induced insulin secretion in uremia: effects of aminophylline infusion and glucose loads.

To explain mechanisms responsible for derangement of insulin release in uremia, we investigated glucose metabolism through three different tests in 14 patients with end-stage chronic renal failure. These tests were: intravenous glucose tolerance test with 0.33 g/kg of glucose solution (IVGTT); IVGTT with 0.5 g/kg of glucose solution (IVGTT2); IVGTT during aminophylline infusion (IVGTT + A). Twelve of the patients had IVGTT repeated after two to four months of thrice-weekly regular hemodialysis (IVGTT3). In each test we measured plasma glucose (G), immunoreactive insulin (IRI) and C-peptide. We also calculated glucose constant decay (K), insulin production (IRI area), insulinogenic index (IGI), and insulin resistance index (RI). Twenty-nine healthy volunteers formed the normal controls for IVGTT. As compared to controls, during IVGTT uremic patients showed significantly lower values in K, IRI area and IGI, and showed a significant RI value increase. During IVGTT2, IRI are values were higher than during IVGTT but IGI and K values were unchanged. During IVGTT + A both IRI area and IGI values were higher than during IVGTT. After hemodialysis treatment (IVGTT3) K, IRI areas and IGI increased significantly as compared to the predialysis period. K increase after hemodialysis correlated directly to IGI increase and inversely to RI changes. IGI increase during IVGTT3 was directly correlated to IGI rise during IVGTT + A. From these data we infer that defective insulin release in uremia is due to a decrease of beta-cell glucose sensitivity rather than to their functional exhaustion. An impaired adenyl cyclase-cAMP system may have an important role in the pathogenesis of this abnormality.