UMLS:C0011854 - FACTA Search

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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chronic renal failure (CRF) in nondiabetics is associated with a number of lipoprotein abnormalities that place these patients at high risk for atherosclerosis. This study compared the lipoprotein composition of nondiabetic controls (n = 68) with that of patients with insulin-dependent diabetes mellitus ([IDDM] n = 13) and of patients with IDDM and CRF ([IDDM + CRF] n = 74). Six lipoprotein subfractions (very-low-density lipoprotein [VLDL], intermediate-density lipoprotein [IDL], low-density lipoprotein [LDL], high-density lipoprotein-light [HDL-L], HDL-medium [HDL-M], and HDL-dense [HDL-D]) were isolated by rapid gradient ultracentrifugation using a fixed-angle rotor. The apolipoprotein (by reverse-phase high-performance liquid chromatography [HPLC]) and lipid (by enzymatic assays) composition of each subfraction was determined. The only abnormalities found in IDDM patients were increases in IDL and HDL-L triglyceride (TG) levels and an increase in the HDL-L free cholesterol (FC) level. The IDDM + CRF group had multiple abnormalities including (1) elevated TG, apolipoprotein (apo) C-II, and apo C-III levels in all lipid subfractions; (2) elevated VLDL and IDL apo B, TG, FC, cholesterol ester (CE), and phospholipid (PL) levels (with an increased CE/TG ratio in VLDL only); (3) decreased HDL-M apo A-I, apo A-II, CE, and PL levels, but an increased HDL-D apo A-I level; and (4) decreased lecithin:cholesterol acyltransferase (LCAT) activity. Twenty-five of the IDDM + CRF patients underwent combined pancreas and kidney (P + K) transplantation, and 12 patients received only a kidney transplant. Lipoprotein composition was determined at 3, 6, and 12 months posttransplant. Both types of transplantation resulted in similar alterations in lipoprotein composition, even though there was essential normalization of blood glucose levels in most of the patients who received a pancreas transplant (hemoglobin A1C [HbA1C], 9.1% +/- 1.1% v 5.7% +/- 0.3% at 12 months, P < .01). These posttransplant changes included (1) no improvement in the elevated TG level in any lipid subfraction even though there was some reduction in apo C-III levels in VLDL; (2) reductions in levels of VLDL and IDL apo B but increases in LDL apo B; (3) increases in HDL apo C-III and FC concentrations despite an increase in LCAT activity; and (4) increases in apo A-I levels in HDL-L and HDL-M. The addition of a pancreas to a kidney transplant had no obvious impact on the lipoproteins.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Lipoprotein composition in insulin-dependent diabetes mellitus with chronic renal failure: effect of kidney and pancreas transplantation. 813 82

In a prospective follow-up of 30 patients with type 1 diabetes and nephropathy, serum cholesterol, triglycerides, apolipoprotein Al and B, and lipoprotein(a) were determined to study their relationship to the rate of decline in glomerular filtration rate. The patients had proteinuria and advanced nephropathy with a mean +/- SD glomerular filtration rate of 39 mL/min/1.73 m2. The decline in glomerular filtration rate was determined during 2.5 +/- 0.5 years. High serum cholesterol, triglycerides, and apolipoprotein B were correlated to a more rapid deterioration in kidney function. The rate of decline in glomerular filtration rate was 1.0 +/- 2.5 mL/min/yr in the 10 patients with the lowest cholesterol level, compared with 4.5 +/- 3.2 mL/min/yr in the patients with the highest serum cholesterol (P = 0.015). The combined effect of the measured lipids, blood pressure, type of antihypertensive treatment, protein intake, proteinuria, and hemoglobin A1C on the rate of decline in glomerular filtration rate was assessed by multiple regression analysis. The measured factors together had a high explanatory power for the rate of decline in glomerular filtration rate. In this model, 73% of the variation in decline in glomerular filtration rate was explained by the measured variables (multiple r2 = 0.73). Low cholesterol and treatment with an angiotensin-converting enzyme inhibitor were the strongest predictors of a favorable renal prognosis. This suggests that hypercholesterolemia is an important risk factor for diabetic nephropathy.
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PMID:Cholesterol: a renal risk factor in diabetic nephropathy? 832 83

We have previously shown that both kidney-alone and combined kidney-pancreas transplantation lower VLDL and IDL apoB while increasing LDL apoB, apoA-I, and HDL free cholesterol (FC). In this report, we analyze the lipoproteins of 31 patients who have undergone combined kidney-pancreas transplantation. Systemic venous drainage of the pancreas was utilized in 20 of these patients while 11 had portal venous drainage. Six lipoprotein subfractions (VLDL, IDL, LDL, HDL-L, HDL-M, HDL-D) were isolated by rapid gradient ultracentrifugation using a fixed-angle rotor. The apolipoprotein (by reverse-phase HPLC) and lipid (by enzymatic assays) composition of each subfraction was determined. After three months, there were few group differences. However, the portal group had substantial reductions in VLDL apoB at both six (-50% vs. +1%) and twelve months (-57% vs. +149%, P = .042) while the systemic group had increases in VLDL apoB. Similar differences were seen in IDL apoB (six months: -38% vs. +13%; twelve months: -61% vs. +56%, P = .008). LDL apoB increased in both groups at six months (portal: +7%; systemic: +30%) but fell in the portal group at twelve months (-17% vs. +41%, P = .0007). IDL triglyceride, cholesterol ester, phospholipids, and free cholesterol also fell by 19% to 47% in the portal group while they rose by 8% to 44% in the systemic patients, six and twelve months after surgery (P < .05). In addition, the VLDL and LDL free cholesterol to phospholipid ratios (FC/PL) fell (improved) by 16% to 26% in the portal patients while they rose by 9% to 28% in the systemic subjects during this time (P < .04). Finally, there were substantial improvements in the LDL composition of the portal patients compared to the systemic patients at six (PL/apoB: +23% vs. -16%, P = .005; CE/apoB: +14% vs. -14%, P = .037) and twelve months (PL/apoB: +39% vs. -13%, P = .011; CE/apoB: +41% vs. -15%, P = .011). These data indicate that portal drainage of the transplanted pancreas reduced the number of VLDL, IDL, and LDL particles, reduced the total mass of IDL (by 35%), and normalized the VLDL and LDL particle composition. These improvements were not seen in the patients who received systemic drainage of their pancreas. HDL-M also improved in the portal patients (TG: -29% vs. +12%, P = .025) (PL: +22% vs. -5%, P = .014) (total mass: +16% vs. +0.2%, P = .044) but not in the systemic patients six months after surgery. These results suggest that portal venous drainage of the pancreas leads to greater improvements in the lipoprotein composition of IDDM patients than does systemic drainage.
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PMID:Kidney-pancreas transplantation. The effect of portal versus systemic venous drainage of the pancreas on the lipoprotein composition. 854 65

Insulin-dependent diabetes mellitus (IDDM) is characterized by altered composition of atherogenic lipoproteins, especially a depletion in choline-containing phospholipids (PL) of apolipoprotein (apo) B lipoproteins (LpB). To determine the effects of continuous intraperitoneal (IP) insulin infusion (CIPII) on this qualitative lipoprotein abnormality, we compared lipoprotein profiles of 14 IDDM patients treated by continuous subcutaneous insulin infusion (CSII) and at 2 and 4 months after treatment with CIPII using an implantable pump. IDDM patients were in fair metabolic control and were compared with 14 healthy control subjects matched for sex, age, body mass index, and plasma lipids. The following parameters were studies: hemoglobin A1c (HbA1c), monthly blood glucose, daily insulin dose (units per kilogram per day), total cholesterol (TC), triglycerides (TG), high-density lipoprotein (HDL) and low density lipoprotein (LDL) cholesterol, apo A-I, and apo B. Choline-containing PL were assessed in plasma and in apo B- and no-apo B-containing lipoprotein particles (LpB and Lp no B). As compared with the control group, plasma PL and LpB-PL were significantly lower in IDDM patients treated by CSII (2.95 +/- 0.26 v 3.30 +/- 0.45 mmol/L,P<.05, and 1.09 +/- 0.45 v 1.68 +/- 0.33 mmol/L,P<.01, respectively). No significant differences were observed for Lp no B lipid determinations between both groups. After initiation of CIPII, IDDM patients did not experience any significant changes in mean values for body mass index, HbA1c, and monthly blood glucose throughout the study. Daily insulin doses were identical to those observed before IP therapy. Lipid parameters remained unchanged in IDDM patients (TC, TG, HDL and LDL cholesterol, apo A-I, and apo B). A moderate but progressive elevation of plasma PL was noted, and after 4 months of CIPII, PL and LpB-PL levels were no longer significantly different between IDDM patients and controls. The increase in plasma and LpB choline-containing PL observed after 2 and 4 months of CIPII is not linked to changes in blood glucose control, body weight or daily insulin requirements. These changes may be related to the route of insulin administration, which may be accompanied by a reduction of lipoprotein lipase (LPL) activity and consequently a reduction of phospholipase activity. These results suggest that IP insulin delivery may be a more physiological route that increases the choline-containing PL content of LpB particles.
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PMID:Intraperitoneal insulin infusion improves the depletion in choline-containing phospholipids of lipoprotein B particles in type I diabetic patients. 860 27

The goal of this study was to compare the structural and biological characteristics of apolipoprotein (apo) B-100-containing particle subfractions isolated from poorly controlled diabetic patients with insulin-dependent diabetes (IDDM), and healthy controls matched for sex, age and body mass index (BMI). Different apo B-containing particles were isolated by sequential immunochromatography and were free of apo A-I, apo A-II, apo A-IV and apo(a). Particles lipoprotein (Lp) B/C-III contained apo B and apo C-III. They were free of apo E. Particles Lp B/E contained apo B and apo E. They were free of apo C-III. Particles Lp B were devoided of apo C-III and apo E. All these particles could contain other known apolipoproteins not cited here, as for example apo C-II and/or apo C-I. The plasma levels of cholesterol, triglycerides, phospholipids, apo A-I, B-100, C-III, E, total Lp B/C-III, total Lp B/E were not different between patients and controls. The physico-chemical properties of Lp B/C-III and Lp B/E were similar in both groups. Only Lp B from patients exhibited some changes, an increase in the size and a decrease in the cholesterol and cholesteryl ester levels. The conformational properties of the lipoproteins were studied through their immunoreactivity against four different anti-apo B-100 monoclonal antibodies (MAb) for which sequential epitopes have been located on the protein, and one MAb for which the epitope is conformationally expressed. Again, minor changes were observed between patients and controls, and only a slight decrease in the immunoreactivity of the epitope encompassing amino-acid residues 405 to 539 of Lp B and of the conformationally expressed epitope of Lp B/C-III were found in patients. Nevertheless, whatever these conformational and/or physico-chemical modifications may be, they were not sufficient to induce functional alterations in the binding of the particles from the patients to the LDL-receptor of HeLa cells. This study shows that IDDM is not associated with any significant abnormalities in the apo-containing lipoprotein particles. The excessive occurrence of coronary heart disease (CHD) and other atherosclerotic vascular disease in patients with IDDM must have other causes.
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PMID:Apo B-containing lipoprotein particles in poorly controlled insulin-dependent diabetes. 864 62

This review is aiming to study the values of apolipoprotein AI and B and plasma lipid levels (total cholesterol, HDL cholesterol, LDL cholesterol and triglyceride) in well-treated diabetic patients, and their possible relationship with hemoglobin A1, body mass index and insulin levels. The study groups were 26 insulin-dependent diabetic (IDDM) patients, 30 non-insulin-dependent diabetic (NIDDM) subjects and 20 non diabetic subjects (controls). Apolipoprotein AI concentrations were similar in the three groups, but apolipoprotein B values and apo B/apo AI ratio were significantly higher in IDDM as related to NIDDM patients (p < 0.001) and to non-diabetic subjects (p < 0.001). We were not able to find significant differences concerning plasma lipid values between the three groups. We found a weak correlation between apo B and hemoglobin AI in IDDM (r = 0.45; 0.02 < p < 0.05), but not in NIDDM patients. Body mass index was not related to the values of apolipoproteins AI and B. We found a positive but weak correlation between insulin levels and triglyceride (r = 0.42), and an inverse one with HDL cholesterol (r = 0.57; 0.02 < p < 0.05) in non-diabetic subjects only, while in NIDDM patients these associations were even less significant. Plasma insulin values strongly correlate to body mass index in both NIDDM (r = 0.64; p < 0.001) and in control subjects (r = 0.73; 0.001 < p < 0.001).
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PMID:Apolipoproteins AI and B and plasma lipid values in well-treated diabetic patients from Romania. 864 98

The TaqIB cholesteryl ester transfer protein (CETP) gene polymorphism (B1B2) is a determinant of HDL cholesterol in nondiabetic populations. Remarkably, this gene effect appears to be modified by environmental factors. We evaluated the effect of this polymorphism on HDL cholesterol levels and on the lipoprotein response to a linoleic acid-enriched, low-cholesterol diet in patients with type 1 diabetes. In 44 consecutive type 1 diabetic patients (35 men), CETP polymorphism, apolipoprotein (apo) E genotype, serum lipoproteins, serum CETP activity (measured with an exogenous substrate assay, n = 30), clinical variables, and a diet history were documented. The 1-year response to diet was assessed in 14 type 1 diabetic patients, including 6 B1B1 and 6 B1B2 individuals. HDL cholesterol was higher in 10 B2B2 than in 14 B1B1 homozygotes (1.63 +/- 0.38 vs. 1.24 +/- 0.23 mmol/l, P < 0.01). HDL cholesterol, adjusted for triglycerides and smoking, was 0.19 mmol/l higher for each B2 allele present. CETP activity levels were not significantly different between CETP genotypes. Multiple regression analysis showed that VLDL + LDL cholesterol was associated with dietary polyunsaturated:saturated fatty acids ratio (P < 0.02) and total fat intake (P < 0.05) in the B1B1 homozygotes only and tended to be related to the presence of the apo E4 allele (P < 0.10). In response to diet, VLDL + LDL cholesterol fell (P < 0.05) and HDL cholesterol remained unchanged in 6 B1B1 homozygotes. In contrast, VLDL + LDL cholesterol was unaltered and HDL cholesterol decreased (P < 0.05) in 6 B1B2 heterozygotes (P < 0.05 for difference in change in VLDL + LDL/HDL cholesterol ratio). This difference in response was unrelated to the apo E genotype. Thus, the TaqIB CETP gene polymorphism is a strong determinant of HDL cholesterol in type 1 diabetes. This gene effect is unlikely to be explained by a major influence on the serum level of CETP activity, as an indirect measure of CETP mass. Our preliminary data suggest that this polymorphism may be a marker of the lipoprotein response to dietary intervention.
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PMID:Cholesteryl ester transfer protein gene polymorphism is a determinant of HDL cholesterol and of the lipoprotein response to a lipid-lowering diet in type 1 diabetes. 939

IDDM patients treated with conventional subcutaneous insulin have an abnormal increase in cholesteryl ester transfer (CET), the proatherogenic step in reverse-cholesterol transport that results in the enrichment of the apolipoprotein (apo) B-containing lipoproteins (VLDL, LDL) with cholesteryl ester (CE). This disturbance is closely linked to iatrogenic hyperinsulinemia and the nonphysiologic stimulation of lipoprotein lipase (LpL), a physiologic activator of CET, because lowering systemic insulin levels by administering insulin through the intraperitoneal insulin route normalizes LpL and CET. Hyperinsulinemia persists in IDDM patients who undergo successful pancreas-kidney transplantation (PKT) when their allografts are placed in the pelvis and drain into the iliac vein. Therefore, to determine whether hyperinsulinemia promotes CET in this setting, we studied CET, LpL, and insulin levels in 14 euglycemic normolipidemic IDDM PKT patients with near-normal kidney function (creatinine 1.5 +/- 0.4 mg/dl). Consistent with our prediction, the net mass of CE transferred from HDL to VLDL + LDL was significantly increased in the PKT group (P < 0.001) compared with nondiabetic renal transplant patients receiving the same immunosuppressive drugs and healthy control subjects. Both basal and arginine-stimulated insulin levels were increased above the kidney transplant group's levels and correlated with the mass of CE transferred at 2 h (r = 0.71, P < 0.05; r = 0.66, P < 0.05, respectively). Total basal LpL activities, LpL and hepatic triacylglycerol lipase activities, and LpL mass all tended to be higher than levels in healthy control subjects. Consistent with these changes in lipase activity, VLDL particle size was significantly reduced (P < 0.025) compared with that of control subjects. These findings indicate that PKT patients with systemically draining allografts have a persisting profile of potentially atherogenic disturbances in insulin levels, LpL, and CET that resemble IDDM patients treated with conventional subcutaneous insulin injections.
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PMID:Alterations in cholesteryl ester transfer, lipoprotein lipase, and lipoprotein composition after combined pancreas-kidney transplantation. 942 83

Non-insulin dependent diabetes (NIDDM) is associated with an increased risk of peripheral vascular disease (PVD), but within the diabetic population the relationship between lipid profile and PVD has not been clearly defined. In this study we examined the association of lipid parameters and in particular low density lipoprotein (LDL) particle size, with the presence of PVD in subjects with and without NIDDM. 41 NIDDM patients and 31 non-diabetic subjects with PVD in the absence of rest pain or ulceration, defined by ankle-brachial index measurements and duplex scanning, were compared with 41 NIDDM and 31 euglycemic control subjects of comparable age and sex, without PVD. In both groups those with PVD were found to have significantly elevated triglycerides (2.7 [2.2-3.3] versus 1.9 [1.6-2.2] mmol/l; P < 0.05 in the diabetic group and 2.0 [1.6-2.3] versus 1.4 [1.1-1.5] mmol/l; P < 0.05 in the non-diabetic group), decreased apolipoprotein A1 (124 +/- 3 versus 139 +/- 5 mg/dl; P < 0.01 in the diabetic group and 133 +/- 4 versus 147 +/- 4 mg/dl; P < 0.05 in the non-diabetic group) and decreased LDL particle size (25.4 +/- 0.1 versus 25.8 +/- 0.1 nm; P < 0.01 in the diabetic group and 26.0 +/- 0.1 versus 26.3 +/- 0.1 nm; P < 0.05 in the non diabetic group). In the non-diabetic group apolipoprotein[a] (365 [239-554] versus 184 [17-266] U/l; P < 0.01), total cholesterol (6.3 +/- 0.2 versus 5.6 +/- 0.2 mmol/l; P < 0.05), LDL cholesterol (4.1 +/- 0.2 versus 3.6 +/- 0.2 mmol/l; P < 0.05) and apolipoprotein B (146 +/- 8 versus 117 +/- 5 mg/dl; P < 0.05) were also found to be associated with PVD although these associations were not observed in the group with diabetes. In addition, 11 NIDDM subjects and 11 non-diabetic subjects with rest pain or ulceration were compared to the corresponding groups with uncomplicated PVD and had lipid profiles with significantly lower levels of total cholesterol and LDL cholesterol. We conclude that the dyslipidemic profile characterized by increased triglyceride level, decreased apolipoprotein A1 level and small dense LDL is associated with uncomplicated PVD in both NIDDM and non-diabetic subjects.
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PMID:Lipid levels and peripheral vascular disease in diabetic and non-diabetic subjects. 954 25

The effect of the apolipoprotein (apo) E genotype on the lipoprotein response to a 1 year low cholesterol diet (200 mg cholesterol per day) was evaluated in 36 patients with Type 1 diabetes mellitus with albuminuria between 10 and 200 microg min(-1). Apo E genotype was characterized by polymerase chain reaction and restriction isotyping. In 11 IDDM patients with at least one epsilon4 allele (apo E4 group), baseline serum total and low density lipoprotein (LDL) cholesterol were higher (p < 0.05 for both) than in 25 patients without an epsilon4 allele and with at least one epsilon3 allele (apo E3 group). Dietary counselling resulted in a similar decrease in cholesterol intake in both groups, whereas linoleic acid did not change. In the apo E4 group, serum total and LDL cholesterol at follow-up fell (p < 0.01 for both) to levels that were not different from those in the apo E3 group, and the changes in these parameters were greater (p < 0.02) than those in the apo E3 group. We conclude that the apo E4 allele is associated with atherogenic lipoprotein abnormalities in Type 1 DM patients with minor elevations in albuminuria when they use their habitual diet. Apo E4 carrying patients respond better to a low cholesterol diet.
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PMID:Apolipoprotein E genotype is a determinant of low-density lipoprotein cholesterol and of its response to a low-cholesterol diet in Type 1 diabetic patients with elevated urinary albumin excretion. 986 77

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