Metabolism of very low- and low-density lipoproteins isolated from normolipidaemic Type 2 (non-insulin-dependent) diabetic patients by human monocyte-derived macrophages

Summary The very low- and low-density lipoprotein fractions were isolated from 16 normolipidaemic Type 2 (non-insulin-dependent) diabetic patients in good to fair glycaemic control and from corresponding age-, sex-, and race-matched, non-diabetic control subjects. Rates of cholesteryl ester synthesis averaged 268±31 vs 289±40 pmol ¹⁴C-cholesteryl oleate·-mg cell protein^–1·20 h^–1 for very low- and 506±34 vs 556±51 pmol ¹⁴C-cholesteryl oleate·mg cell protein^–1·20 h^–1 for low-density lipoproteins isolated from the Type 2 diabetic patients and control subjects, respectively, when they were incubated with human macrophages. A group of approximately one-third of the patients was selected for separate analyses because very low-density lipoproteins isolated from these patients did stimulate more cholesteryl ester synthesis when incubated with macrophages. There were no significant differences in the lipid composition of the lipoproteins isolated from the three groups of subjects. The relative proportion of apoprotein C to apoprotein E was significantly decreased (p<0.002) in the very low-density lipoproteins from diabetic patients and was further decreased in samples from these selected diabetic patients. The apoprotein C-I content of very low-density lipoproteins isolated from diabetic patients was increased compared to control subjects and was further increased in samples from the selected diabetic patients (p<0.02). There were no significant differences in the proportions of apoproteins C-III-0, C-III-1, or C-III-2 among the three groups. These studies suggest that in normolipidaemic Type 2 diabetic patients, the apoprotein composition of VLDL is abnormal and this may alter VLDL macrophage interactions and thus contribute to the increased prevalence of atherosclerosis in diabetic patients.     

The course of kidney function in Type 2 (non-insulin-dependent) diabetic patients with diabetic nephropathy

Summary We evaluated the impact of some putative progression promoters on kidney function in albuminuric Type 2 (non-insulin-dependent) diabetic patients with biopsyproven diabetic glomerulosclerosis. Twenty-six patients (1 female) with a mean age of 52 (standard error 2) years and a known mean duration of diabetes of 9 (1) years were followed-up prospectively for a mean of 5.2 (range 1.0–7.0) years. Twenty-one patients received antihypertensive treatment. During the observation period the glomerular filtration rate decreased from 83 (24–146) to 58 (2–145) ml·min⁻¹·1.73 m⁻² (mean (range)) (p<0.001). The mean rate of decline in glomerular filtration rate was 5.7 (−3.5 to 22.0) ml/min per year. Albuminuria increased from 1.2 (0.3–7.2) to 2.3 (0.4–8.0) g/24 h (geometric mean (range)) (p<0.001). Arterial blood pressure remained unchanged: 162/93 (SE 4/3) and 161/89 (4/2) mm Hg. Univariate analysis showed the rate of decline in glomerular filtration rate to correlate with systolic blood pressure (r=0.71,p<0.001), mean blood pressure (r=0.56,p<0.005), albuminuria (r=0.58,p<0.005) and the initial glomerular filtration rate (r=−0.49,p<0.02). The rate of decline in glomerular filtration rate did not correlate significantly with dietary protein intake, total cholesterol, high-density lipoprotein cholesterol or HbA_1c. Three patients died from uraemia and four patients died from cardiovascular disease. Two patients required renal replacement therapy at the end of the observation period. Our prospective observational study revealed that one-fifth of the patients developed end-stage renal failure during the 5-year observation period. The decline in glomerular filtration rate varied considerably between patients. Increase in arterial blood pressure to a hypertensive level is an early feature of diabetic nephropathy. Elevated systolic blood pressure accelerates the progression of diabetic nephropathy in Type 2 diabetic patients.     

Impact of initial treatment on renal function in newly-diagnosed Type 2 (non-insulin-dependent) diabetes mellitus

Summary The impact of improved glycaemic control on renal function in newly-presenting Type 2 (non-insulin-dependent) diabetic patients has not been adequately researched. Consequently, glomerular filtration rate and effective renal plasma flow and urinary albumin excretion rates were determined in 76 subjects (age (mean (SD)): 54 (9.5) years; 50 male) of an original cohort of 110 newly-presenting normotensive non-proteinuric Type 2 diabetic patients following 6 months treatment with diet alone (n=42) or with oral hypoglycaemic agents (n=34). Significant reductions were observed in (presentation vs 6 months): body mass index (p<0.01); fasting plasma glucose (p<0.001); glycated haemoglobin (HbA₁) (p<0.001); systolic blood pressure (p<0.01); and diastolic blood pressure (p<0.001). Glomerular filtration rate declined from 117 (22) to 112 (21) ml·min^–1 (p<0.01), with unchanged effective renal plasma flow (534 (123) vs 523 (113) ml·min^–1) and filtration fraction (22.4 (3.0) vs 21.8 (3.4)%). Albumin excretion rate (median (range)) declined from 1.1 (0.1–34.7) to 0.5 (0.1–29.9) g·min^–1 (p<0.01). Changes in glomerular filtration rate ( values) were inversely correlated with presentation values (p<0.001), and positive relationships were observed with effective renal plasma flow (p<0.01), and glycated haemoglobin (p<0.05). Type 2 diabetic patients with glomerular filtration rate values at presentation over 120 ml·min^–1 demonstrated significant reduction in glomerular filtration rate (n=31; p<0.001), whilst those with original values less than 120 ml·min^–1 remained unchanged (n=45). Glomerular filtration rate, effective renal plasma flow and filtration fraction for the Type 2 diabetic patients remained elevated compared with age-controlled normal subjects (p<0.01-0.001). Albumin excretion rate at presentation and 6 months were positively correlated with fasting plasma glucose levels (p<0.05) but not renal haemodynamics. Thus, glomerular filtration rate and albumin excretion rate in newly-presenting Type 2 diabetic patients are influenced by metabolic control. Improved glycaemia for 6 months produces a reduction in glomerular filtration rate, mainly in the younger patients with values greater than 120 ml·min^–1 at diagnosis of diabetes. Despite these changes, renal haemodynamic parameters remain elevated compared with age-matched normal subjects.     

Metabolism by human endothelial cells of very low density lipoprotein subfractions isolated from Type 1 (insulin-dependent) diabetic patients

Summary The very low density lipoprotein (VLDL) fraction was isolated from 11 normolipidaemic Type 1 (insulin-dependent) diabetic patients in good to fair glycaemic control and from 11 age-, sex- and race-matched, non-diabetic, control subjects. The rate of receptor-mediated degradation by human endothelial cells was significantly greater (p<0.02) for the total VLDL fraction isolated from diabetic patients compared to control subjects and averaged 1008±300 and 717±150 ng·mg cell protein^–1·16 h^–1, respectively. The total VLDL fraction was separated into three subfractions: VLDL-I, S_f 100–400 (S_f = Svedberg units); VLDL-II, S_f 60–100; VLDL-III, S_f20–60. Rates of receptor-mediated degradation of VLDL-I and VLDL-II isolated from diabetic patients were significantly greater than the comparable subfraction isolated from control subjects and averaged 1023±279 vs 361±122 (p<0.01) and 433±70 vs 294±70 ng·mg cell protein^–1·16 h^–1 (p<0.03), respectively. Rates of receptor-mediated degradation of the V-III subfraction isolated from the two groups did not differ significantly. There were no significant differences in the chemical composition or in the plasma concentrations of the VLDL subfractions isolated from diabetic patients compared to control subjects. There was a significant increase in the apoprotein E content of VLDL-I (p<0.01) and VLDL-II (p<0.05) isolated from diabetic patients. There was a significant increase in the ratio of apoprotein C compared to apoprotein E (p<0.03) in VLDL-I isolated from control subjects compared to the diabetic patients. There were no significant differences in the apoprotein composition of VLDL-III isolated from the two groups.     

Dietary effects on very low-density lipoproteins in type 2 (non-insulin-dependent) diabetes mellitus

Summary To evaluate possible influences of dietary intervention on the composition of very low-density lipoproteins (VLDL), ten subjects with Type 2 (non-insulin dependent) diabetes mellitus received a hypocaloric regimen. Fifteen healthy subjects served as controls. Ultracentrifuged VLDL were analysed as cholesterol, triglycerides, apolipoprotein B (apo B), and the soluble apolipoproteins C and E (polyacrylamide gel electrophoresis in urea and densitometry) before the study, after 2 weeks and then after 3 months. Compared with the control subjects, the content of cholesterol and apo E in the VLDL was elevated in the diabetic subjects, while the area ratio of apo C-II to apo C-III₁ was lowered. After diet the reduction in VLDL was accompanied by compositional changes: a decrease of the cholesterol/triglyceride ratio and of the apo E/apo C area ratio. The apo C-II/apo C-III₁ area ratio remained unaffected. We conclude that one beneficial effect of therapeutic intervention in diabetes may lie in lowering the level of possibly atherogenic VLDL-components.     

Renal function and insulin sensitivity during simvastatin treatment in Type 2 (non-insulin-dependent) diabetic patients with microalbuminuria

Summary The effect of simvastatin (10–20 mg/day) on kidney function, urinary albumin excretion rate and insulin sensitivity was evaluated in 18 Type 2 (non-insulin-dependent) diabetic patients with microalbuminuria and moderate hypercholesterolaemia (total cholesterol ≥5.5 mmol·l⁻¹). In a double-blind, randomized and placebo-controlled design treatment with simvastatin (n=8) for 36 weeks significantly reduced total cholesterol (6.7±0.3 vs 5.1 mmol·l⁻¹ (p<0.01)), LDL-cholesterol (4.4±0.3 vs 2.9±0.2 mmol·l⁻¹ (p<0.001)) and apolipoprotein B (1.05±0.04 vs 0.77±0.02 mmol·l⁻¹ (p<0.01)) levels as compared to placebo (n=10). Both glomerular filtration rate (mean±SEM) (simvastatin: 96.6±8.0 vs 96.0±5.7 ml·min⁻¹·1.73 m⁻², placebo: 97.1±6.7 vs 88.8±6.0 ml·min⁻¹·1.73 m⁻²) (NS) and urinary albumin excretion rate (geometric mean x/÷ antilog SEM) (simvastatin: 18.4x/÷1.3vs 16.2 x/÷1.2 μg·min⁻¹, placebo 33.1 x/÷ 1.3 vs 42.7 x/÷ 1.3 μg·min⁻¹)(NS) were unchanged during the study. A euglycaemic hyperinsulinaemic clamp was performed at baseline and after 18 weeks in seven simvastatin-and nine placebo-treated patients. Isotopically determined basal and insulin-stimulated glucose disposal was similarly reduced before and during therapy in both the simvastatin (2.0±0.1 vs 1.9±0.1 (NS) and 3.1±0.6 vs 3.1±0.7 mg·kg⁻¹·min⁻¹ (NS)) and the placebo group (1.9±0.1 vs 1.8±0.1 (NS) and 4.1±0.6 vs 3.8±0.2 mg·kg⁻¹·min⁻¹ (NS)). No different was observed in glucose storage or glucose and lipid oxidation before and after treatment. Further, the suppression of hepatic glucose production during hyperinsulinaemia was not influenced by simvastatin (−0.7±0.8 vs −0.7±0.5 mg·kg⁻¹·min⁻¹ (NS)). In conclusion, despite marked improvement in the dyslipidaemia simvastatin had no impact on kidney function or urinary albumin excretion rate and did not reduce insulin resistance in these microalbuminuric and moderately hypercholesterolaemic Type 2 diabetic patients.     

Subclinical diabetic neuropathy: similarities between electrophysiological results of patients with Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetes mellitus

Summary Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetic patients share many clinical and biochemical characteristics. However, sural nerve biopsies from patients with advanced and chronic neuropathy show ultrastructural differences between these two groups. We investigated whether at a subclinical stage of the illness, when Type 1 and Type 2 diabetic patients are clinically uniform and the histopathological nerve alterations are not advanced, comparison between the two diabetes groups might show differences in nerve fibre involvement related to the different pathogeneses of the neuropathies. A total of 88 diabetic patients (52 Type 1 and 36 Type 2), with a subclinical form of polyneuropathy were selected. The clinical neurophysiological examination consisted of motor and sensory nerve conduction studies, Hoffmann (H)-reflex, single fibre electromyography and static as well as dynamic pupillometry. With regard to clinical neurophysiological abnormalities, the severity of the polyneuropathy appeared to be equal in both groups. Despite the absence of clinical symptoms the neurophysiological abnormalities were pronounced and it was impossible to differentiate Type 1 diabetic patients from Type 2 diabetic patients on a clinical neurophysiology basis when correcting for differences in age, height, and duration of illness. In the Type 1 diabetic group as well as in the Type 2 diabetic group the autonomic nerve fibres and nerves in the legs were more frequently affected than the thick myelinated nerves in the arms. These findings do not support the assumption that there is a difference in the manifestation of polyneuropathy between Type 1 and Type 2 diabetic patients.     

Cellular cholesterol regulation — A defect in the Type 2 (non-insulin-dependent) diabetic patient in poor metabolic control

Summary This study investigates the relationship between Type 2 (non-insulin-dependent) diabetes mellitus and hypercholesterolaemia with regard to delivery of cholesterol to cells and regulation of endogenous cholesterol synthesis. The ability of LDL, from hypercholesterolaemic and Type 2 diabetic patients, to suppress cellular cholesterologenesis and to enhance mitogen-stimulated lymphocyte proliferation was compared. Cholesterol synthesis was estimated by measuring [¹⁴C]-acetate incorporation into cholesterol and lymphocyte proliferation was assessed by [³H]-thymidine incorporation into mitogen-stimulated normal lymphocytes. The results indicate that LDL from both Type 2 diabetic patients in poor metabolic control and hypercholesterolaemic patients was significantly less effective (p < 0.001) than LDL from non-diabetic normocholesterolaemic subjects in suppressing cholesterol synthesis in lymphocytes. LDL from all hypercholesterolaemic patients enhanced lymphocyte proliferation to a greater extent than LDL from normocholesterolaemic subjects and this effect was significantly increased using LDL from Type 2 diabetic, hypercholesterolaemic patients. Both suppression of [¹⁴C]-acetate incorporation and enhancement of [³H]-thymidine uptake could be related to an increased esterified/free cholesterol ratio in the LDL particle. The fact that cholesterol synthesis and cell proliferation were markedly altered by the above changes in LDL composition suggests a mechanism for cellular cholesterol accumulation in the Type 2 diabetic patient, even in the absence of elevated serum cholesterol levels.     

Plasma apolipoprotein (a) is increased in Type 2 (non-insulin-dependent) diabetic patients with microalbuminuria

Summary Patients with Type 2 (non-insulin-dependent) diabetes mellitus complicated by microalbuminuria or albuminuria, have an increased risk of developing macrovascular disease and of early mortality. Because lipoprotein abnormalities have been associated with diabetic nephropathy, this study tested the hypothesis that levels of apolipoprotein (a) are elevated in patients with Type 2 diabetes and increased levels of urinary albumin loss. Levels of apolipoprotein (a) in diabetic patients with microalbuminuria (n = 26, geometric mean 195 U/1, 95 % confidence interval 117–324) and albuminuria (n = 19, 281 U/1,165–479) were higher than in non-diabetic control subjects (n = 140,107 U/1, 85–134,p < 0.05), and in the albuminuric group than diabetic patients without urinary albumin loss (n = 58, 114 U/1, 76–169,p < 0.05). Patients with microalbuminuria and albuminuria had levels comparable with patients undergoing elective coronary artery graft surgery (n = 40,193 U/1,126–298). Apolipoprotein (a) levels were higher in diabetic patients with macrovascular disease than in those without (n = 49, 209 U/1, 143–306 vsn = 54, 116 U/1, 78–173,p < 0.05). These preliminary results suggest that raised apolipoprotein (a) levels of Type 2 diabetic patients with microalbuminuria and albuminuria may contribute to their propensity to macrovascular disease and early mortality.     

Linkage analysis of the glucokinase locus in familial Type 2 (non-insulin-dependent) diabetic pedigrees

Summary Glucokinase is among the few genes which may play a key role in both insulin secretion and insulin action. Glucokinase is present in pancreatic beta cells where it may have a key role in the glucose sensing mechanism, and it is present in hepatocytes, where it may participate in glucose flux. Glucokinase defects have recently been implicated in maturity-onset diabetes of the young. To examine the hypothesis that glucokinase plays a key role in the predisposition to common familial Type 2 (non-insulin-dependent) diabetes mellitus, we typed 399 members of 18 Utah pedigrees with multiple Type 2 diabetic individuals for two markers in the 5 and 3 flanking regions of the glucokinase gene. Linkage analysis was performed under both dominant and recessive models. We also repeated these analyses with individuals with impaired glucose tolerance who were considered affected if their stimulated (2-h) glucose exceeded age-specific normal levels for 95 % of the population. Under several dominant models, linkage was significantly excluded, and under recessive models log of the odds (LOD) score was less than –1. We were also unable to demonstrate statistical support for the hypothesis that a small subgroup of pedigrees had glucokinase defects, but the most suggestive pedigree (individual pedigree LOD 1.8–1.9) ranked among the youngest and leanest in our cohort. We can exclude a major role for glucokinase in familial Type 2 diabetes, but our data cannot exclude a role for this locus in a minority of pedigrees. Further testing of the hypothesis that glucokinase defects contribute to diabetes in a small proportion of Type 2 diabetic pedigrees must await thorough sequence analysis of the glucokinase gene, including regulatory regions, particularly from pedigrees with positive LOD scores.     

A genetic study of retinopathy in South Indian Type 2 (non-insulin-dependent) diabetic patients

Summary Genetic marker studies in diabetic retinopathy are controversial and frequently complicated by possible independent associations of Type 1 (insulin-dependent) diabetes mellitus with the markers so far analysed. We have looked for associations of candidate genes with retinopathy in South Indian Type 2 (non-insulin-dependent) diabetic patients; patients were subdivided into those with exudative maculopathy (n=53), proliferative retinopathy (n=40) and patients free from diabetic retinopathy with a minimum disease duration of 15 years (n=45). DNA was extracted from blood samples and studied by Southern blot hybridisation techniques and the following probe enzyme combinations: HLA-DQB1; Taq 1, HLA-DQA1; Taq 1, HLA-DRA; Bgl II, insulin gene hypervariable region; Pvu II and the switch region of the immunoglobulin IgM heavy chain gene (S); Sac I. Differences in genotype distributions between the study groups were only detected with the S probe which detects polymorphism of both S and S1 (the switch region of IgA). Two alleles of S1 were detected sized 7.4 kilobase and 6.9 kilobase. The frequency of 6.9 kilobase homozygotes was lower in proliferative retinopathy (19%) compared to patients free from diabetic retinopathy (54%, p=0.005) and exudative maculopathy (46%, p=0.03). This data suggests that there is a genetic predisposition to proliferative retinopathy in Type 2 (non-insulin-dependent) diabetes of South Indian origin and that this is determined by polymorphism of the heavy chain immunoglobulin genes located on chromosome 14.     

Comparison of the course to end-stage renal disease of Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetic nephropathy

Summary Is the course leading to diabetic end-stage renal disease similar for Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetes mellitus? We identified all diabetic end-stage renal disease patients starting renal replacement therapy from 1989 to 1991 in two urban counties in Texas. Three ethnic/racial groups were enrolled: Mexican Americans, non-Hispanic Whites, African Americans. Patients were interviewed and their medical records, both inpatient and out-patient, were abstracted for relevant diagnostic and therapeutic information. We attempted to obtain records as far back as the onset of diabetes or hypertension and from all physicians who had cared for the patient. An historical algorithm was used to determine diabetic type. Of the patients enrolled, 91 were Type 1 and 438 were Type 2 diabetic patients. Type 1 diabetic patients had higher mean glucose levels in the first 10 years of diabetes (16.3 vs 11.4 mmol/l) but lower systolic blood pressures (148 vs 157 mmHg). The duration of diabetes prior to end-stage renal disease was longer for Type 1 than Type 2 patients (22 vs 17 years). Type 1 diabetic patients were more likely to have other microvascular complications (retinopathy, neuropathy, gastroparesis), less likely to have coronary disease (myocardial infarction and congestive heart failure), and had similar rates of stroke and vascular surgery procedures (carotid endarterectomy, coronary artery bypass surgery, aortofemoral bypass). Type 1 and Type 2 diabetic patients were just as likely to have a first degree relative with hypertension (60.5 vs 65.5%). The late manifestations of end-stage renal disease were similar between the two groups (kidney size, proteinuria, slope of the inverse of creatinine, laboratory data prior to end-stage renal disease, reasons for starting dialysis). The course to end-stage renal disease may be different for Type 1 and Type 2 diabetes, with hyperglycaemia playing a more dominant role in Type 1 and hypertension playing a more dominant role for Type 2. The Type 1/Type 2 differences in patterns of other diabetic complications add weight to this hypothesis. However, the late course of the renal disease and the end result on the kidney is very similar.     

Insulin resistance in Type 2 (non-insulin-dependent) diabetic patients with hypertriglyceridaemia

Summary Hypertriglyceridaemia, which is frequently seen in Type 2 (non-insulin-dependent) diabetes mellitus, is associated with insulin resistance. The connection between hypertriglyceridaemia and insulin resistance is not clear, but could be due to substrate competition between glucose and lipids. To address this question we measured glucose and lipid metabolism in 39 Type 2 diabetic patients with hypertriglyceridaemia, i. e. mean fasting serum triglyceride level equal to or above 2 mmol/l (age 59±1 years, BMI 27.4±0.5 kg/m², HbA_1c8.0±0.2%, serum triglycerides 3.2±0.2 mmol/l) and 41 Type 2 diabetic patients with normotriglyceridaemia, i. e. mean fasting serum triglyceride level below 2 mmol/l (age 58±1 years, BMI 27.0±0.7 kg/m², HbA_1c7.8±0.2 %, serum triglycerides 1.4±0.1 mmol/l). Insulin sensitivity was assessed using a 340 pmol·(m²)^–1· min^–1 euglycaemic insulin clamp. Substrate oxidation rates were measured with indirect calorimetry and hepatic glucose production was estimated using a primed (25 Ci)-constant (0.25 Ci/min) infusion of [3-³H]-glucose. Suppression of lipid oxidation by insulin was impaired in patients with hypertriglyceridaemia vs patients with normal triglyceride levels (3.5±0.2 vs 3.0±0.2mol·kg^–1· min^–1; p<0.05). Stimulation of glucose disposal by insulin was reduced in hypertriglyceridaemic vs normotriglyceridaemic patients (27.0±1.3 vs 31.9±1.6 mol·kg^–1·min^–1; p<0.05) primarily due to impaired glucose storage (9.8±1.0 vs 14.6±1.4mol·kg^–1·min^–1; p<0.01). In contrast, insulinstimulated glucose oxidation was similar in patients with hypertriglyceridaemia and in patients with normal triglyceride concentrations (16.9±0.8 vs 17.2±0.7mol·kg^–1·min^–1). Hepatic glucose production in the basal state and during the clamp did not differ between the two groups. We conclude therefore that oxidative substrate competition between glucose and lipids does not explain insulin resistance associated with hypertriglyceridaemia in Type 2 diabetes. The question remains whether the reduced nonoxidative glucose disposal observed in the patients with hypertriglyceridaemia is genetically determined or a consequence of increased lipid oxidation.     

Epidemiology,development and treatment of end-stage renal failure in Type 2 (non-insulin-dependent) diabetic patients in Europe

Summary The aim of the present report was to compare the current patterns of incidence and prevalence of end-stage renal failure and mode of renal replacement therapy in patients with Type 1 (insulin-dependent) and Type 2 (non-insulin-dependent) diabetes mellitus in Europe. All Type 1 and Type 2 diabetic patients recorded on the Registry of the European Dialysis and Transplant Association as being alive on renal replacement therapy were analysed according to age, sex, geographic distribution, and mode of therapy (haemodialysis, peritoneal dialysis or renal transplantation). During 1990 3981 diabetic patients commenced renal replacement therapy in Europe, and at 31 December 1990 a total of 15, 197 diabetic patients were receiving treatment. One-third were reported to be Type 2 diabetic patients, but the true proportion is expected to be higher. Both male and female Type 2 diabetic patients were older than Type 1 patients. Major geographic variations were observed; annual acceptance of Type 2 diabetic patients for treatment was greatest in Austria (10.7 per million) and equal to Type 1 patients, whereas the number of Type 1 diabetic patients was four times that of Type 2 patients in Sweden, Finland and Norway. Overall, the majority of Type 2 diabetic patients (80%) were treated by haemodialysis, 14% by peritoneal dialysis, and 6% had a functioning renal transplant. However, transplantation was the preferred option in young patients (48% of 25–34 year olds) and in Sweden and Norway (45% of all Type 2 patients). On behalf of the European Dialysis and Transplant Association Registry     

Nerve function and its determinants in patients with newly-diagnosed Type 2 (non-insulin-dependent) diabetes mellitus and in control subjects — a 5-year follow-up

Summary In order to assess the changes in nerve function 5 years after the diagnosis of diabetes mellitus and the determinants of progression of neuropathy, we studied 113 Type 2 (non-insulin-dependent) diabetic patients and 127 non-diabetic control subjects. Motor and sensory nerve conduction velocities were measured at the time of diagnosis of diabetes and 5 years later. At both examinations conduction velocities and response amplitudes were lower in diabetic patients than in control subjects. During the follow-up sural nerve conduction was impaired in both diabetic and control subjects, but, in general, changes in neurophysiological parameters were slight and inconsistent. In 12 diabetic patients nerve function deteriorated significantly during the follow-up. These patients had higher glycaemic indices at both examinations and lower baseline blood pressure levels as compared to the rest of the diabetic patients. No differences between these patient groups were found in other baseline risk factors (age, obesity, use of alcohol, smoking, serum insulin levels, albuminuria, lipids). In conclusion, Type 2 diabetic patients have disturbed nerve function at the time of diagnosis, but neurophysiological impairment during the next 5 years is on the average slight. Poor glycaemic control seems to be the most important risk factor in the deterioration of nerve function in these patients.     

Coronary heart disease and urinary albumin excretion rate in Type 2 (non-insulin-dependent) diabetic patients

Summary Associations between overnight urinary albumin excretion rate and prevalent coronary heart disease and its major risk factors were examined in a cross-sectional study of 141 Type 2 (non-insulin-dependent) diabetic patients. Mean albumin excretion rate was higher in men (geometric mean 13.5 g/min; 95% confidence interval 10.3–17.6) than women (7.5 g/min; 5.7–9.8, p<0.01). In diabetic men and women mean albumin excretion rate was higher in those with electrocardiographic and/or symptomatic evidence of coronary heart disease than in those without (men, 23.1 g/ min; 95% confidence interval 13.7–39.0 versus 10.6 g/min; 7.9–14.2, p<0.01, women, 13.7 g/min; 8.0–23.5 versus 5.4 g/min; 4.2–6.8, p<0.01). Multiple logistic regression analysis was used to allow for confounding between variables. In the diabetic group as a whole, raised albumin excretion rate (p<0.001), gender (p<0.05) and systolic blood pressure (p=0.06) entered the best model for coronary heart disease prediction. In women, albumin excretion rate alone (p<0.01) and in men albumin excretion rate (p<0.01) and age (p=0.05) entered the best models. We conclude that albumin excretion rate is significantly associated with coronary heart disease morbidity after taking into account the confounding effects of raised blood pressure and other cardiovascular risk factors.     

Relationship of progressively increasing albuminuria to apoprotein(a) and blood pressure in Type 2 (non-insulin-dependent) and Type 1 (insulin-dependent) diabetic patients

Summary This study has explored the temporal relationship between apoprotein(a), blood pressure and albuminuria over a mean interval of 11 years in a cohort of 107 diabetic patients of whom 26 (14 Type 2 (non-insulin-dependent), 12 Type 1 (insulin-dependent) had progressively increasing albuminuria (‘progressors’). In Type 2 diabetic patients, no significant differences were noted for HbA₁, blood pressure, creatinine clearance or serum lipids between progressors and non-progressors. In Type 1 diabetic patients, final systolic and diastolic blood pressures were higher in progressors compared with non-progressors and progressors showed impairment of renal function in association with a rise in blood pressure at the macroalbuminuric stage. Initial apoprotein(a) levels were similar in progressors and non-progressors of either diabetes type. Apoprotein(a) levels increased exponentially with time in 12 of 14 Type 2 progressors but only in 5 of 12 Type 1 progressors (p<0.01). In Type 2 diabetic patients, the annual increase in apoprotein(a) levels was 9.1±2.4%, which was significantly greater than in non-progressors, 2.0±1.2% (p<0.01) and also exceeded the rates of increase of apoprotein(a) in progressors with Type 1 diabetes, 4.0±1.4%, (p<0.05). Apoprotein(a) levels correlated significantly with albuminuria in 8 of 14 Type 2 progressors but only in 3 of 12 Type 1 progressors (p<0.05). The rate of increase of apoprotein(a) levels was not related to mean HbA₁, creatinine or creatinine clearance levels, or to albuminuria. The rate of rise of apoprotein(a) was not influenced by initial apoprotein(a) levels, suggesting that specific apoprotein(a) isoforms do not influence albuminuria-related increases in apoprotein(a). The data are consistent with the hypothesis that apoprotein(a) levels increase in response to albuminuria and may be part of a self-perpetuating process. This study also suggests that increases in apoprotein(a) levels commence during the microalbuminuria stage in diabetic patients, which is earlier than has been documented in non-diabetic proteinuria.     

Apolipoprotein(a) and cardiovascular disease in Type 2 (non-insulin-dependent) diabetic patients with and without diabetic nephropathy

Summary The relative mortality from cardiovascular disease is on average increased five-fold in Type 2 (non-insulin-dependent) diabetic patients with diabetic nephropathy compared to non-diabetic subjects. We assessed the possible contribution of dyslipidaemia in general and elevated serum apolipoprotein(a) (apo(a)) in particular. Type 2 diabetic patients with normo-, micro- and macroalbuminuria were compared with healthy subjects. Each group consisted of 37 subjects matched for age, sex and diabetes duration. Serum creatinine in the nephropathy group was 105 (54–740) mol/l. The prevalence of ischaemic heart disease (resting ECG, Minnesota, Rating Scale) was 57, 35, 19 and 2% in macro-, micro- and normoalbuminuric diabetic patients and healthy subjects, respectively. The prevalence of ischaemic heart disease was higher in all diabetic groups as compared to healthy subjects (p<0.05), and higher in macroalbuminuric as compared to normoalbuminuric diabetic patients (p<0.01). There was no significant difference between apo(a) in the four groups: 161 (10–1370), 191 (10–2080), 147 (10–942), 102 (10–1440) U/l (median (range)) in macro-, micro- and normoalbuminuric groups and healthy subjects. Serum total-cholesterol, HDL-cholesterol and LDL-cholesterol were not significantly different when comparing healthy subjects and each diabetic group. Apolipoprotein A-I was lower (p<0.05) in all diabetic groups as compared to healthy subjects (nephropathy vs healthy subjects): 1.50±0.25 vs 1.69±0.32 g/l (mean ± SD). Triglyceride was higher (p<0.05) in patients with nephropathy and microalbuminuria as compared to healthy subjects (nephropathy vs healthy subjects): 2.01 (0.66–14.7) vs 1.09 (0.41–2.75) mmol/l (median (range)). Apolipoprotein B was higher (p<0.02) in patients with nephropathy as compared to the other three groups (nephropathy vs healthy subjects): 1.54±0.47 vs 1.33±0.30 g/l. In conclusion, our case-control study has confirmed that Type 2 diabetic patients with increased urinary albumin excretion frequently suffer from dyslipidaemia and cardiovascular disease. However, our study revealed no significant elevation in serum concentration of apo(a) in patients with diabetic nephropathy, but numbers were small.     

Microalbuminuria predicts the development of serum lipoprotein abnormalities favouring atherogenesis in newly diagnosed type 2 (non-insulin-dependent) diabetic patients

Summary We studied the relationship of slight albuminuria (microalbuminuria) to serum lipid and lipoproteins in a representative group of middle-aged Type 2 (non-insulin-dependent) diabetic patients. A random sample of non-diabetic control subjects was also examined. Diabetic patients had both at diagnosis and after five years higher total, LDL- and VLDL-triglyceride levels and higher VLDL-cholesterol, but lower HDL-cholesterol levels than non-diabetic subjects. No consistent difference was found in LDL-cholesterol levels between diabetic and non-diabetic subjects. The prevalence of microalbuminuria (>35 mg/24 h) remained about the same in diabetic patients at both examinations (19–20%). The diabetic patients with persistent microalbuminuria were slightly hyperglycaemic and they tended to have lower creatinine clearance at the 5-year examination than those without persistent microalbuminuria. There were no differences in the blood pressure levels or the occurrence of hypertension between the diabetic groups with and without microalbuminuria. At the baseline examination, no differences were seen in serum lipids and lipoproteins between diabetic patients with and without microalbuminuria. In patients with persistent microalbuminuria. a statistically significant increase in VLDL-cholesterol (p<0.05) and VLDL- and LDL-triglyceride levels (p<0.05) and a decrease in HDL-cholesterol level (p<0.05) was seen at the 5-year follow-up. These changes could not be explained by age, sex, body mass index or HbA₁. In conclusion, persistent microalbuminuria predicts and aggravates abnormalities in lipoprotein composition and a decrease in HDL-cholesterol in patients with Type 2 diabetes mellitus. The excess cardiovascular morbidity and mortality in diabetic patients with increased albuminuria may, in part, be explained by these lipoprotein abnormalities.     

Gender differences in a Type 2 (non-insulin-dependent) diabetic population with respect to apolipoprotein E phenotype frequencies

Summary Apolipoprotein E polymorphism was examined in an Italian population of Type 2 (non-insulin-dependent) diabetic patients. There were significant differences (p < 0.05) in allele frequencies between male and female patients due to an under-representation of the E4 allele in the female group. No differences in allele frequencies were noted when non-diabetic male and female control subjects were compared. Both control groups exhibited similar allele distributions to that of male diabetic patients, but were significantly different (p < 0.05) from female diabetic patients. A closer examination of the female diabetic population revealed that under-representation of the E4 allele was principally confined to patients aged 60 years or older. This sub-group showed a significantly different (p < 0.05) allele frequency profile from control subjects (both men and women) and diabetic men, whereas this was not observed in the younger diabetic women ( 59 years). The results are consistent with the suggestion that the E4 allele may be a particular risk factor for female diabetic patients.