Higher mortality of patients on haemodialysis with pancreatic diabetes compared to type 2-diabetes.

In rare cases (1-8%) diabetic patients with end-stage renal disease (ESRD) suffer from diabetic nephropathy (dNP) due to pancreatic diabetes mellitus (PDM). Aim of this study was to investigate differences in the outcome of patients with PDM and those with type 2 diabetes.In a retrospective study we evaluated 96 diabetic patients, who started hemodialysis (HD) in our dialysis centre (1997-2005). In 12 patients PMD was diagnosed, and 84 patients had type 2 diabetes. In both groups we compared vascular risk factors and prevalence of vascular diseases at the start of dialysis. We also evaluated incidence of malnutrition, and 5-year survival in both patient groups.The vascular risk factors were similar in both patient groups, also the prevalence of vascular diseases at the initiation of HD was similar in both groups. In the patients with PDM the mean BMI (kg/m2) was lower (22 + 3 versus 25 + 3), and also their serum albumin was lower (2.7 + 0.3 versus 3.4 + 0.3 g/dl, p < 0.05). Four of these patients (33%) developed malnutrition (BMI < 18.5). In the patients with PDM the age adjusted 5-year survival was significantly lower (8% versus 27%, p < 0.05) than in the type 2 diabetic patients.Conclusions in HD-treated patients with type 2 diabetes or PDM the prevalence of vascular diseases was not significantly different. The lower survival of PDM patients can be related to poor nutrition status.

Metabolic control and vascular diseases under oral antidiabetic drug versus insulin therapy and/or diet alone during the first year of hemodialysis in type 2 diabetic patients with ESRD.

INTRODUCTION: Uremic type 2 diabetic patients on hemodialysis need various types of antidiabetic therapies. The aim of the present study was to identify differences between patients on oral antidiabetic drug therapy or insulin substitution or diet therapy alone during their first year of hemodialysis. PATIENTS AND METHODS: Sixty-four type 2 diabetic patients who had started hemodialysis (HD) at our dialysis center between 2003 and 2007 were included in the study. Kidney-transplanted patients (n = 1) and those with chronic infectious or malignant diseases (n = 4) were excluded. Patients were divided into three groups according to their antidiabetic therapy: group 1 consisted of patients on oral antidiabetic drug therapy (n = 12), group 2 of those on insulin therapy (n = 42), and group 3 of those being treated with diet alone (n = 10). At the start of HD and 12 months later, we measured fasting plasma glucose (FPG), HbA1c, the incidence of hypoglycemia (n/patient/month), cholesterol, triglycerides, body weight, and insulin requirements in the insulin-treated group. C-peptide was only measured at the start of dialysis. We evaluated changes in antidiabetic therapy during the first year on dialysis, and the prevalence of vascular disease in each group at the start of HD. RESULTS: FPG and HbA1c values were similar in all groups at the start of HD and after 1 year. Hypoglycemia occurred more frequently in insulin-treated patients; however, the difference was not significant. Cholesterol levels were similar in all groups, whereas triglycerides were significantly lower in insulin-treated patients (138 ± 28 vs. 176 ± 46 mg/dl; P < 0.05). Body weight was similar in all groups. No significant change in body weight was observed in any group after 12 months on dialysis. At the start of HD, C-peptide levels were lower in insulin-treated patients than in the other groups (1.8 ± 0.9 ng/ml vs. 2.2 ± 1.1 and 2.4 ± 1.1 ng/ml; P < 0.05). During the first 12 months on HD, two patients from group 1 were shifted to group 3 (diet alone), while four patients could reduce their drug dosage (33%). However, two subjects became insulin-dependent. In group 2, insulin therapy could be terminated in two cases, while the insulin dose could be reduced in 20 patients (48%). In group 3, one patient was switched to oral antidiabetic therapy. The prevalence of vascular disease was slightly higher in group 3 (NS). CONCLUSION: Within 1 year after the start of HD, the dose of sulfonylurea as well as insulin could be reduced in a large majority of patients. Metabolic control was similar in all groups. Only triglycerides were significantly lower in group 2. The frequency of hypoglycemia and the prevalence of vascular disease were just slightly higher in the group on insulin therapy.

Relationship of non-LDL-bound apo(a), urinary apo(a) fragments and plasma Lp(a) in patients with impaired renal function.

BACKGROUND: Plasma lipoprotein (a) [Lp(a)] has been shown to be a risk factor for atherosclerosis in numerous studies. However, the catabolism of this lipoprotein is not very clear. We and others have shown that Lp(a) is excreted into urine in the form of fragments. Lp(a) has also been shown to exist in a low-density non-lipoprotein (LDL)-bound form. Since Lp(a) is increased in all forms of kidney disease with reduced excretory kidney function and decreased excretion of apo(a) fragments could be partially responsible for this increase, we investigated the relationship of non-LDL-bound apo(a), urinary apo(a) fragments and plasma Lp(a) in patients with impaired renal function. METHODS: Plasma Lp(a), non-LDL-bound apo(a) and urinary apo(a) fragments were measured in 55 kidney disease patients (28 males and 27 females) and matched controls. RESULTS: Plasma Lp(a) and non-LDL-bound apo(a) were increased in patients, whereas urinary apo(a) was decreased, especially in patients with a creatinine clearance < 70 ml/min. There was a significant correlation between plasma Lp(a) and non-LDL-bound apo(a) in patients and controls. CONCLUSION: We conclude that decreased urinary apo(a) excretion could be one possible mechanism of increased plasma Lp(a) and non-LDL-bound apo(a) in patients with decreased kidney function.