UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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Lipoprotein composition was examined in type 1 diabetic subjects with hypercholesterolaemia +/- hypertriglyceridaemia during a 3-month double-blind placebo controlled assessment of bezafibrate therapy. The predominant effect was on lipoprotein lipid content. In those with hypercholesterolaemia alone, bezafibrate significantly reduced the cholesterol (particularly esterified cholesterol) and triglyceride content of large very low density lipoprotein (VLDL) (Svedberg flotation units (Sf) 60-400) in comparison to the placebo group (P less than 0.05), and a trend towards a reduction in free and esterified cholesterol within the intermediate density lipoprotein fraction (IDL) (Sf 12-20) was noted. Low density lipoprotein (LDL) composition was unaltered and in general phospholipid and protein concentrations and cholesteryl ester/protein ratios within the lipoprotein fractions were unaffected. Large VLDL cholesterol and triglyceride concentrations in those with combined hyperlipidaemia were significantly decreased following bezafibrate therapy, both in comparison to placebo-treated subjects and to baseline concentrations (P less than 0.05). An additional significant reduction in small VLDL (Sf 20-60) free cholesterol was recorded (P less than 0.05). Average reductions of large and small VLDL protein of 50-56% were not significant because of wide variation in responses. Bezafibrate had no effect on the abnormal composition of IDL and LDL, characteristic of Type 1 diabetes, regardless of whether or not hypertriglyceridaemia was associated with hypercholesterolaemia. Its major action was to lower VLDL lipid concentrations, but it may also reduce the lipid content of intermediate density lipoprotein in Type 1 diabetes.
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PMID:The effect of bezafibrate on very low density lipoprotein (VLDL), intermediate density lipoprotein (IDL), and low density lipoprotein (LDL) composition in type 1 diabetes associated with hypercholesterolaemia or combined hyperlipidaemia. 159 7

A double-blind placebo-controlled prospective trial assessed the effect of a slow release formulation of bezafibrate (Bezalip Mono) on lipids, glucose homeostasis, platelet function and plasma fibrinogen in non-insulin dependent (type II) diabetics. Twenty-four patients completed the trial. There was a significant improvement in the cholesterol and triglyceride levels and in the fasting blood glucose and glycated haemoglobin levels of those who received the active preparation but not in those who received placebo. Treatment, but not placebo, also resulted in a significant fall in plasma fibrinogen concentration and a trend towards inhibition of platelet aggregation. Bezafibrate was well tolerated and only one patient withdrew from the trial possibly because of side-effects of the drug. A larger study is needed to establish whether bezafibrate can reduce non-lipid risk factors (e.g., plasma fibrinogen concentration; glucose intolerance--hyperinsulinaemia) in normo- and hyperlipidaemic patients.
Diabetes Res 1990 Jul
PMID:The effect of a slow release formulation of bezafibrate on lipids, glucose homeostasis, platelets and fibrinogen in type II diabetics: a pilot study. 213 85

Long-term effects of bezafibrate on in vivo production of VLDL-triglyceride were studied in the rat. Bezafibrate given at a daily dose of 30 mg/kg body weight for 14 days produced a decrease not only in triglyceride by 51% but in cholesterol by 28% and phospholipid by 18%. Despite a marked reduction in plasma triglyceride concentrations, there was no significant change in the rate of VLDL-triglyceride secretion from the liver into the circulation between bezafibrate-treated and control animals (1113 +/- 58 and 1234 +/- 63 micrograms/min, respectively). In addition, bezafibrate produced no change in lipid composition in VLDL. These results suggest that bezafibrate enhances triglyceride removal from the circulation, which leads to reduction in plasma triglyceride.
Diabetes Res Clin Pract
PMID:Long-term effects of bezafibrate on in vivo VLDL-triglyceride production in the rat. 219 55

The goal of this study was to investigate whether treatment with bezafibrate improves glucose tolerance in non-insulin-dependent diabetes mellitus (NIDDM). The study included 37 NIDDM patients with HbA1 concentrations greater than 8.5% and normal kidney and liver function who were being treated with diet alone or diet together with a sulfonylurea drug. One patient withdrew because of constipation. At randomization and after 3 mo of treatment, patients were given a standard mixed-test-meal tolerance test (MTT; 500 cal) after an overnight fast, and plasma glucose, insulin, C-peptide, metabolite, nonesterified fatty acid (NEFA), and triglyceride concentrations were measured at 15- to 30-min intervals. Serum lipid, HbA1, and fructosamine concentrations were measured at monthly intervals. Glucose, NEFA, and triglyceride concentrations were significantly lower throughout the second MTT in bezafibrate patients (P less than 0.01-0.001) but not in the placebo group. Fasting serum insulin and C-peptide levels, but not postprandial concentrations, were reduced only in bezafibrate patients (P less than 0.05). After 3 mo, mean fasting serum triglyceride concentrations fell from 2.2 to 1.4 mM (P less than 0.001), total serum cholesterol concentrations from 6.3 to 5.5 mM (P less than 0.001), and low-density lipoprotein cholesterol concentrations from 4.2 to 3.5 mM (P less than 0.001) in bezafibrate patients. There were no changes in serum lipid concentrations in the placebo group. Treatment of patients with moderately controlled NIDDM with bezafibrate improves glucose tolerance and the serum lipid profile. Bezafibrate treatment may be a useful adjunct to hypoglycemic therapy in patients with NIDDM.
Diabetes Care 1990 Aug
PMID:Lowering of plasma glucose concentrations with bezafibrate in patients with moderately controlled NIDDM. 220 20

Although it has been reported that bezafibrate influences carbohydrate metabolism, this possibility has never been properly evaluated in a controlled clinical trial. In this study we attempted to evaluate the effects of bezafibrate on plasma lipoproteins, glucose tolerance, insulin secretion and peripheral insulin sensitivity in a group of hypertriglyceridemic patients with and without diabetes. Sixteen hyperlipidemic patients (10 males and 6 females) participated in the study. Eight had type IIB and 8 type IV hyperlipoproteinemia; 6 of them also had non-insulin dependent diabetes mellitus. The study was performed according to a double blind, crossover design: after 1 month wash-out period in which patients were on diet alone, they underwent, in a random order, a period of placebo therapy and another period in which they received a single daily dose of a long-acting bezafibrate preparation (400 mg) administered in the evening. Each treatment lasted 2 months. Total plasma and VLDL triglyceride concentrations were consistently reduced by bezafibrate (-46%, P less than 0.001; and -50%, P less than 0.001). Total and VLDL-cholesterol were also reduced by bezafibrate. The effects of bezafibrate on lipoproteins were similar in diabetic and non-diabetic subjects. Bezafibrate treatment did not influence fasting blood glucose concentration, glucose tolerance, peripheral insulin sensitivity or insulin secretion. In conclusion, the results of this controlled trial clearly indicate that bezafibrate can be successfully employed to lower plasma lipid levels in patients with non-insulin dependent diabetes mellitus and hyperlipidemia.
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PMID:Effects of bezafibrate on insulin secretion and peripheral insulin sensitivity in hyperlipidemic patients with and without diabetes. 265 25

Bezafibrate is a lipid-lowering drug, chemically related to clofibrate. At its recommended dosage of 200 mg 3 times daily, or alternatively 400 mg once daily as a sustained-release preparation, it produces substantial reductions in plasma triglyceride and cholesterol concentrations in patients with hypertriglyceridaemia and hypercholesterolaemia, respectively. Preliminary investigations indicate that a single daily dose of 400 mg in a sustained-release preparation is as effective as 200 mg 3 times daily. In patients with any type of hyperlipoproteinaemia bezafibrate also increases the plasma HDL-cholesterol concentration. These effects are equivalent in patients with primary hyperlipoproteinaemia or hyperlipoproteinaemia secondary to diabetes or renal disease, although dosage adjustment is important in the latter group. During long term therapy (2 to 4 years) the influence of bezafibrate on the lipid profile is sustained. The lipid-lowering effects of bezafibrate are at least equivalent to those of clofibrate, fenofibrate, colestipol, probucol or sustained release etofibrate. In addition, the increase in HDL-cholesterol tends to be at least as great as with all alternative treatments studied. Bezafibrate is rapidly eliminated, and thus does not accumulate during prolonged administration in patients with normal renal function. Experimental studies have shown bezafibrate to have a complex range of effects on lipoproteins and on the enzymes and receptors involved in lipid metabolism. However, its exact mechanism of lipid-lowering action is unclear. Bezafibrate enhances anticoagulation in hyperlipoproteinaemic patients requiring anticoagulant therapy, and preliminary investigations indicate that it reduces the plasma fibrinogen concentration, especially in patients with hyperfibrinogenaemia. These properties of bezafibrate could contribute to an antiatherogenic effect of the drug, but further investigation is required to establish the drug's potential as chronic therapy in patients with hyperfibrinogenaemic atherosclerosis. Adverse reactions to bezafibrate have largely been restricted to gastrointestinal disturbances, with some cutaneous reactions and central nervous system effects. The incidence of side effects has been no greater than with comparative lipid-lowering drugs. In patients with renal disease, a few cases of marked elevation of serum creatine phosphokinase and myoglobin, and associated muscle cramps, have been reported (diagnosed as rhabdomyolysis). Hepatic enzyme induction by bezafibrate in rats results in hepatomegaly, but there has been no case of significant hepatotoxicity in man.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Bezafibrate. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic use in hyperlipidaemia. 330 1

380 diabetic patients with hyperlipidaemia and undergoing treatment with sulphonylureas or insulin were given 200 mg bezafibrate t.i.d for 3 months after a control period of 4 weeks. After cessation of treatment a follow-up examination was performed a further 4 weeks later. 194 treatment centres took part in the investigation. Total cholesterol fell by 17%, triglycerides by 36% and HDL-cholesterol rose by 15% during the treatment period. In addition, a glucose-lowering effect was seen which led to a definite improvement in the control of diabetes both with glibenclamide and with insulin. The degree of glucose reduction was most marked in moderately or poorly controlled diabetics. There was no correlation between the triglyceride reduction and the glucose reduction. After cessation of bezafibrate treatment the cholesterol, triglyceride and fasting glucose increased again and the HDL-cholesterol diminished. However, they did not reach pretreatment values. Bezafibrate was well tolerated, hypoglycaemia or hypoglycaemic reactions were not observed.
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PMID:[Improvement in diabetes control by treatment with bezafibrate]. 674 68

The effect of bezafibrate on plasma lipids, lipoproteins, apolipoproteins AI, AII and B, and LCAT activity was investigated in 16 hyperlipidemic, non-insulin-dependent diabetes, who were treated for 8 weeks with either placebo or bezafibrate in a double-blind cross-over design. Bezafibrate induced a significant decrease in plasma triglycerides (P less than 0.01), cholesterol (P less than 0.05), VLDL triglycerides (P less than 0.05) and VLDL cholesterol (P less than 0.01), and a significant increase in HDL cholesterol (P less than 0.01), whereas LDL cholesterol remained unchanged. The apolipoprotein AI/apolipoprotein B ratio increased significantly (P less than 0.05), although individual changes in these apolipoproteins were not significant. Apolipoprotein AII increased significantly (P less than 0.05), although individual changes in these apolipoproteins were not significant. Apolipoprotein AII increased significantly (P less than 0.0001) and the apolipoprotein AI/apolipoprotein AII ratio decreased (P less than 0.0001), indicating an increase in the HDL3 rather than the HDL2 fraction. No significant change in LCAT activity was observed.
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PMID:Effect of bezafibrate on plasma lipids, lipoproteins, apolipoproteins AI, AII and B and LCAT activity in hyperlipidemic, non-insulin-dependent diabetics. 681 Sep 4

The benefit of beta-blocker therapy in patients after myocardial infarction is well established. The use of beta blockers in the high-risk subgroup of patients with combined diabetes mellitus (DM) and coronary artery disease (CAD) remains controversial. From a database of 14,417 patients with chronic CAD who had been screened for participation in the Bezafibrate Infarction Prevention (BIP) study, 2,723 (19%) had non-insulin-dependent DM. Baseline characteristics and 3-year mortality were analyzed in patients with DM receiving (n = 911; 33%) and not receiving (n = 1,812; 67%) beta blockers. Total mortality during a 3-year follow-up was 7.8% in those receiving beta blockers compared with 14.0% in those who were not (a 44% reduction). A reduction in cardiac mortality of 42% between the 2 groups was also noted. Three-year survival curves showed significant differences in mortality with increasing divergence (p = 0.0001). After multiple adjustment, multivariate analysis identified beta-blocker therapy as a significant independent contributor to improved survival (relative risk = 0.58; 90% confidence interval 0.46 to 0.74). Within the diabetic population, the main benefit associated with beta-blocker therapy was observed in older patients, in those with a history of myocardial infarction, those with limited functional capacity, and those at lower risk. Thus, therapy with beta blockers appears to be associated with improved long-term survival in the high-risk subpopulation of patients with DM and CAD.
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PMID:Usefulness of beta-blocker therapy in patients with non-insulin-dependent diabetes mellitus and coronary artery disease. Bezafibrate Infarction Prevention (BIP) Study Group. 867 65

The benefit of aspirin therapy among women with coronary artery disease (CAD) is not well established. Previous studies have shown conflicting results among women. Data from 2,418 women with CAD screened for participation in the ongoing Bezafibrate Infarction Prevention (BIP) study were analyzed: 45% reported aspirin therapy. Baseline characteristics were similar in both groups. Cardiovascular mortality at 3.1 +/- 0.9 years of follow-up was 2.7% in the aspirin treated group versus 5.1% in the non-aspirin-treated women (p = 0.002). All cause mortality was 5.1% and 9.1%, respectively (p = 0.0001). Treatment with aspirin emerged as an independent predictor of reduced cardiovascular (RR = 0.61, 95% confidence interval [CI] 0.38 to 0.97) and all cause (RR = 0.66, 95% CI 0.47 to 0.93) mortality after multiple adjustment for possible confounders such as age, history of myocardial infarction, systemic hypertension, diabetes mellitus, peripheral vascular disease, current smoking, New York Heart Association classification, and concomitant treatment with digitalis. Women who benefited the most from aspirin therapy were older, diabetic, symptomatic, or had a previous myocardial infarction. Thus, treatment with aspirin was associated with reduced mortality among women with CAD. This study suggests that women with CAD should be treated with aspirin, unless specific contraindications exist.
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PMID:Effect of aspirin on mortality in women with symptomatic or silent myocardial ischemia. Israeli BIP Study Group. 896 May 77

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