Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

600 mg of bezafibrate daily were administered to 13 well controlled diabetics with hyperlipidaemia for 12 weeks. Placebo was given before and after the treatment period. Compared with pretreatment placebo, bezafibrate reduced triglycerides (between 37 and 47%) and cholesterol (between 12 and 19%) significantly. Blood glucose levels during treatment were significantly lower at 8 and 12 weeks compared with post-treatment placebo values. Urinary glucose excretion did not change. Hypoglycaemia was not observed. No change in antidiabetic medication was necessary. Bezafibrate was well tolerated. It lowered blood lipids effectively in diabetics with hyperlipidaemia. No additional precautions have to be taken to control carbohydrate metabolism during bezafibrate treatment.
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PMID:[Lipid-lowering effect of bezafibrate in patients with diabetes mellitus and hyperlipidaemia (author's transl)]. 66 70

Hyperlipidemia has turned out to be the most important risk factor for coronary heart disease and necessitates frequently lipid lowering long-term treatment. Therefore, efficacy and tolerability of hypolipemic drugs are of great interest. The objective of the present study was to compare the safety, tolerability and effect on plasma lipids of Lovastatin and Bezafibrate retard in patients with hypercholesterolemia. 99 patients with total cholesterol of > or = 250 mg/dl after a 4 week standard lipid-lowering diet were treated another 4 weeks with placebo and then randomized to 400 mg Bezafibrate retard or 20 to 80 mg Lovastatin given once a day for 12 weeks. Mean changes from baseline in total cholesterol, LDL cholesterol and triglycerides were significantly reduced, in HDL cholesterol increased in both treatment-groups (p < or = 0.01). The effects of Lovastatin on total cholesterol and LDL cholesterol were more pronounced than those of Bezafibrate retard (p < or = 0.01), while Bezafibrate had a larger effect on triglycerides (p < or = 0.05). The frequency of clinical adverse experiences was low and similar among treatment groups, the frequency of laboratory adverse experiences was higher in the Lovastatin group. One patient in the Bezafibrate group was withdrawn because of nausea, one patient in the Lovastatin group because of GGT elevation.
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PMID:Efficacy, safety and tolerability of lovastatin and bezafibrate retard in patients with hypercholesterolemia. 129 43

Correction of cardiovascular risk factors is of particular significance in a high-risk population, such as that of diabetic patients. This paper reports the effects of one-month administration of 400 mg/day Bezafibrate (BZF), followed by a two-month wash-out and one-month administration of 500 mg/day Acipimox (APX) or vice versa in a random order in 16 Type 2 diabetic patients with diet-resistant hyperlipidaemia and in good metabolic control (HbA1c less than 8%), on plasma fibrinogen and on their lipid pattern. Metabolic control displayed a nonsignificant improvement (HbA1c) during both treatments (stable body weight). Both BZF and APX produced a 14% decrease in total CHOL (p less than 0.01), whereas BZF was more effective in reducing triglycerides (tg) (-37% vs -15%). The marked BZF-induced Tg reduction was associated with a proportional decrease in Apo B, while an increase in total HDL-, HDL2 and HDL3-CHOL, together with a significant increase in Apo AI, was observed. APX treatment resulted in a HDL2-CHOL increase only (+29%). Both drugs reduced VLDL-CHOL (BZF -37%; APX -15%) and VLDL-Tg (-56% and -34%). In BZF treated patients Apo CIII fell indicating a possible reduction of specific inhibition of lipoprotein lipase activity, while APX affected both Apo CII (+23%) and Apo CIII (-26%) and led to a 62% Apo CII/CIII ratio increase. BZF alone led to a significant 25% decrease in plasma fibrinogen (from 415 +/- 14.3 to 312.1 +/- 18.1 SEM mg/dl, p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the effects of bezafibrate and acipimox on the lipid pattern and plasma fibrinogen in hyperlipidaemic type 2 (non-insulin-dependent) diabetic patients. 139 77

Ninety-eight type 2 diabetic patients with hyperlipidaemia in stable metabolic control with diet alone (41) or diet plus hypoglycaemic agents (57) were divided into two groups: group 1 was put on treatment with slow release bezafibrate 400 mg a day, while group 2 was considered as control. In group 1, after 1 month of bezafibrate, serum triglycerides fell by 47% and cholesterol by 13%. HDL cholesterol showed a non-significant trend toward an increase. Fasting blood glucose significantly decreased by 6%, fructosamine and glycated haemoglobin by 5%. During OGTT, the area under the curve of both serum C-peptide and blood glucose showed a trend toward a decrease after bezafibrate. However, the difference did not reach statistical significance. Thirty-six patients continued the treatment with the drug for 4 months and 23 for 8 months, without further changes of the lipid pattern and glycaemic control. In the control group no significant variation of the lipid levels occurred and diabetic control slightly worsened during the study. Bezafibrate has been proved to be effective in the treatment of hyperlipidaemia in type 2 diabetic patients. The drug seems moreover to improve glycaemic control. The mechanism by which bezafibrate produces this latter effect remains to be elucidated, though an increase of peripheral insulin sensitivity might be suggested.
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PMID:Effects of slow release bezafibrate on the lipid pattern and on blood glucose of type 2 diabetic patients with hyperlipidaemia. 151 67

The files of 122 patients treated for at least 6 months with bezafibrate, a second generation fibric acid derivative, were reviewed. Our indications for bezafibrate treatment included cases of type IIb, IV and V hyperlipidemia which did not respond to a serious dietetic trial. Mean decrease in plasma triglycerides was 45% and in cholesterol 1012%, while in HDL-cholesterol there was a mean increase of 8%. The drug was usually well tolerated. Thorough review of patient files for side effects revealed gastrointestinal disturbances in 6.5%. There was a decrease in libido in 4%. 2 patients developed gynecomastia, 1 abnormal liver function tests and 1 severe myositis. All side effects were fully reversed on discontinuing the drug. Bezafibrate seems to be well-tolerated and suitable for treating type IIb, IV and V hyperlipidemia unresponsive to diet.
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PMID:[Long-term bezafibrate treatment in a lipid clinic]. 152 40

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

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

The effects of lipid lowering therapy (bezafibrate) on plasma lipoproteins was investigated in twelve patients with familial hypercholesterolaemia (type IIA) and eight with familial combined hyperlipidaemia (type IIB). Bezafibrate caused a decrease of plasma cholesterol, plasma triglycerides, plasma apolipoprotein B, VLDL cholesterol and LDL cholesterol and an increase of HDL cholesterol. Post-heparin plasma lipoprotein and hepatic lipase activities increased in both groups (significant only in type IIB). Lipoprotein composition showed the following changes: Increased protein and phospholipids and decreased triglycerides and cholesteryl esters in VLDL. Decreased protein and triglycerides and increased free and esterified cholesterol in LDL. Decreased triglycerides and increased phospholipids in HDL. Cholesteryl ester to protein ratios decreased in VLDL and increased in LDL. The hydrated density of LDL (both groups) and of HDL3 (type IIB) decreased following bezafibrate therapy. These changes were in general similar to those observed in hypertriglyceridaemic patients and could be ascribed, at least in part, to the increase of plasma lipase activities and the decrease of lipid transfer reactions. Comparing the present data with that previously reported, it was found that bezafibrate caused decreased LDL cholesterol in types IIA and IIB but increased levels in type IV. This change was correlated with the initial plasma triglycerides (r = 0.74, P less than 0.0001) and initial plasma LDL cholesterol (r = 0.66, P less than 0.001). It is concluded that varied response of LDL to therapy reflects a complex interaction of metabolic events, including changing rates of VLDL conversion to LDL, lipoprotein compositional changes and effects of therapy on LDL degradation rates.
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PMID:Change in very low-, low-, and high-density lipoproteins during lipid lowering (bezafibrate) therapy: studies in type IIA and type IIb hyperlipoproteinaemia. 308 75

Rats, due to their availability and ease of handling, are a frequently used animal model for studying the effects of drugs on lipid metabolism. Hypolipidemic effects showed great variations in different studies. We investigated the effect of bezafibrate on serum concentrations of cholesterol and triglycerides in different strains of rats from several breeders. Under these conditions Lewis rats seemed to be the most suitable strain to investigate drug effects on cholesterol in serum. A hypercholesterolemic male Lewis rat found in a screening program was mated with normolipidemic female Lewis rats. The hyperlipidemia was found in some of the male and female offspring. Cholesterol and triglycerides were dramatically elevated in older animals. Bezafibrate (75 mg/kg/d) produced a marked reduction of lipids in serum in normo- and hyperlipidemic male rats but only in hyperlipidemic female rats, which is in agreement with former findings. These spontaneously hyperlipidemic rats could be a useful tool for investigation of drug effects on disturbed lipid metabolism and its pathophysiology. Therefore, we tried to establish a hyperlipidemic strain of rats.
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PMID:Effect of bezafibrate on serum lipids in normo- and spontaneously hyperlipidemic rats. 322 19

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


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