UMLS:C0020473 - FACTA Search

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

The paper is aimed at evaluation of the efficacy and safety of one-year therapy with slow-release nicotinic acid (NA-SR). The study involved a group of 30 patients with hyperlipidemia of type II. The concentration of nicotinic acid in serum was determined using capillary electrophoresis. After the placebo period (2 months), NA-SR was applied at the dose of 1.5 g/d (2 months), and subsequently 2-3 g/d (10 months), on average 2.13 g/d. During the treatment with 2.0 g/d dose, the steady-state concentration of NA in serum was within a range of 2.7-4.9 microg/ml and with 3.0 g/d of 6.17-7.75 microg/ml. These doses of the drug were tolerated well and advantageously modified the serum lipids.
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PMID:Efficacy and safety of one-year treatment with slow-release nicotinic acid. Monitoring of drug concentration in serum. 966 40

According to the NCEP resins and nicotinic acid were selected as drugs of choice to treat hypercholesterolemia. Gemfibrozil and nicotinic acid were recommended for patients with HDL cholesterol below 35 mg/dl. Current concepts of efficacy and side effects lead to the following recommendations. a) type IIa severe hypercholesterolemia (LDL > 220 mg/dl): HGMC inhibitors or combined therapy with resins and nicotinic acid, fenofibrate, or bezafibrate. b) Moderate hypercholesterolemia (LDL < 220 mg/dl): bezafibrate and/or acipimox if HDL is < 35 mg/dl; fenofibrate, bezafibrate and/or acipimox if HDL > 35 mg/dl. As second line drugs, the HGMC inhibitors. c) Type IIb hyperlipidemia: first line, acipimox; second line, fibrates associated to acipimox. d) Type III hyperlipidemia: first line, fibrates; second line, an association of HGMC inhibitors and fibrates or acipimox. e) Type IV moderate hyperlipidemia (TG < 500 mg/dl): first line, acipimox, second line, fibrates alone or in association with acipimox. As general remarks, lovastatin has been effective and well tolerated in 98% of cases. Pravastatin seems to have very little side effects. Acipimox, a nicotinic acid derivative is especially effective in elevating HDL2b levels and decreasing LDL III. Given its adequate tolerance, acipimox has replaced nicotinic acid.
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PMID:[Pharmacologic treatment of dyslipidemias: Analysis of initiation recommendations and drug selection]. 972 1

Hyperlipidemia (HP) was induced in quails by feeding high lipid food. Effect of tea polyphenol (TP) on development of HP was observed by feeding various dosage of TP simultaneously and was compared with that of nicotinic acid (NA). The results showed: (1) TP could prevent the increase of serum total cholesterol (TC), triglycerides (TG) and low-density lipoprotein cholesterol (LDL-C). Effect of the group treated with large dose of TP was more significant than that treated with NA (P < 0.05). But no statistically significant difference was observed on the changes of TG and LDL-C between TP and NA treated group. (2) No significant change of HDL-C level was observed in both TP groups and NA group, but both of them could inhibit the elevation of atherogenic index (TC/HDL-C), their effects were similar. It suggested that TP might be a regulator of blood lipid.
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PMID:[Experimental study on tea polyphenols in prevention of hyperlipidemia]. 977 5

Abnormal interaction between low density lipoprotein receptors (LDLR) and their ligands, apolipoprotein E and B, causes decreased catabolism of lipoproteins which carry these apolipoproteins (VLDL, IDL and/or LDL) and thereby increased plasma concentrations of these. In familial hypercholesterolemia (FH), abnormal interaction is due to mutations in the LDLR gene, and in type III hyperlipidemia due to mutations in the apo E gene. A few mutations in the apolipoprotein B (apo B) gene have been described, of which the apo B-3,500Arg-Gln seems by far the most frequent, that causes defective binding to normal LDLR. The metabolic disorder associated with these mutations has been named familial defective apolipoprotein B-100 (FDB). The frequency of the apo B-3,500Arg-Gln mutation is particularly high in Central Europe (Switzerland) with lower frequencies south of the Alpes, in Russia and in Scandinavia. We found an incidence of 1/1250 of the mutation in Denmark (III), employing a DNA based assay optimized to allow detection of the mutation in very small amounts of DNA (I). Since other mutations in the receptor binding domain of the apo B-100 have been described, we developed another DNA based assay, employing DGGE technique, to screen for other mutations in the region of amino acid 3,456 to 3,553 (II). However, no other mutations but the apo B-3,500Arg-Gln have so far been detected in Danish hypercholesterolemic patients. In a study of 5 Danish families with FDB (46 heterozygous FDB patients and 57 unaffected relatives) we found that FDB patients had significantly increased mean cholesterol and LDL cholesterol concentrations, but with a wide range of variation and with approximately 30% having cholesterol concentrations below the 95th percentile for the general population (IV). This was confirmed in a compilation of data on 205 FDB patients from the Netherlands, Germany and Denmark (V). In this study we also compared the biochemical and clinical features of FDB with those of 101 Danish FH patients in whome FDB had been ruled out. Our data support, that the LDL cholesterol elevation is less pronounced in FDB than in FH and that the age-specific prevalence of atherosclerotic cardiovascular disease (CVD) is lower in FDB than in FH. In the compiled study of 205 FDB heterozygotes (V), we found that age, gender and genetic variation in the LDLR gene explained a considerable part of the between-individual variation in total and LDL cholesterol. We conducted a prospective study of the lipid lowering effect of pravastatin and gemfibrozil in 30 Danish FDB patients (VI). Together with other, retrospective, studies, we conclude that the cholesterol lowering effect of HMG-coA-reductase inhibitors, anion binding resins and nicotinic acid is fully comparable to that observed when treating FH patients and type IIa hypercholesterolemic patients, without clinical signs of FH.
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PMID:Familial defective apolipoprotein B-100. 977 89

The data for an independent association between triglyceride concentrations and risk for coronary artery disease (CAD) are equivocal, unlike the data for low-density lipoprotein (LDL) cholesterol and high-density lipoprotein (HDL) cholesterol, which show strong, consistent, and opposing correlations with CAD risk. There is some evidence for triglyceride as an independent risk factor in certain subgroups, for example, women 50-69 years of age (Framingham Heart Study) and in patients with noninsulin-dependent diabetes. However, the evidence is stronger for triglyceride as a synergistic CAD risk factor. For example, patients with the "lipid triad" of high LDL cholesterol, low HDL cholesterol, and high triglyceride accounted for most of the event reduction with lipid-lowering therapy in the Helsinki Heart Study. An important confounder of the correlation between triglyceride and CAD risk is the heterogeneity of triglyceride-rich lipoproteins: the larger triglyceride-rich particles are thought not to be associated with CAD risk, whereas the smaller (and denser) particles are believed to be atherogenic. At present, measurement of fasting triglyceride levels and triglyceride assessment in conjunction with LDL cholesterol and HDL cholesterol concentrations are the most practical methods of evaluating hypertriglyceridemia in CAD risk, although postprandial lipemia may prove a better indicator of atherogenicity. Management of hypertriglyceridemia should initially focus on nonpharmacologic therapy (i.e., diet, exercise, weight control, and alcohol reduction). In diabetic patients, meticulous glycemic control is also important. However, if this approach proves inadequate, there are several pharmacologic options. Fibrates may be effective in decreasing triglyceride and increasing HDL cholesterol. Nicotinic acid (niacin) has been shown to decrease triglyceride, increase HDL cholesterol, lower LDL cholesterol, and decrease lipoprotein(a); it also decreases fibrinogen. The statins appear to be effective in decreasing triglyceride and LDL cholesterol in hypertriglyceridemia; however, they do not normalize metabolism of apolipoprotein B, and HDL cholesterol may remain low. Therefore, combination with a fibrate or niacin may be appropriate. Attention to hypertriglyceridemia with respect to increased CAD risk represents an important step in assessing global risk for CAD development.
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PMID:Triglyceride as a risk factor for coronary artery disease. 981

The effect of different routes and modes of administration of niacin (nicotinic acid) on its hypolipidaemic activity has been evaluated. Our working hypothesis was that the major sites of niacin action are located presystemically (i.e. in the gut wall or the liver, or both) which would make niacin a gastrointestinal drug. For such drugs continuous administration to the gastrointestinal tract is expected to augment their efficacy compared with bolus oral administration or parenteral administration. The hypothesis was examined in two rat models of experimentally induced hyperlipidaemia-Model A, based on a cholesterol-enriched diet, and Model B, in which acute hyperlipidaemia is induced by intraperitoneal administration of triton (225 mg kg(-1)). Continuous administration of niacin into the duodenum at 1.66 mg h(-1) (total dose 40 mg kg(-1) day(-1)) for up to 7 days (Model A) or at 2.22 mg h(-1) over 18 h (Model B) had significantly greater lipid-reducing effects both on total cholesterol and on triglyceride levels (15-25%) and elevation of high-density lipoprotein (HDL) cholesterol levels than did bolus oral administration of the same dose. Continuous duodenal infusion of niacin also had an even greater lipid-reducing effect than continuous intravenous infusion of the drug at the same rate and dose. The results indicate that the site(s) of action are located presystemically and that continuous duodenal administration of a low dose of niacin (40 mg kg(-1)) has a greater lipid-lowering effect than a higher dose (200 mg kg(-1)) administered by peroral bolus administration. These conclusions were validated by administration of a specially designed niacin sustained-release matrix tablet formulation that was non-invasively administered to hyperlipidaemic rats. The hypolipidaemic activity of the sustained-release tablet was of similar magnitude to that resulting from continuous duodenal administration, thus providing a pharmacodynamic rationale for this mode of administration.
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PMID:The effect of the mode of administration on the hypolipidaemic activity of niacin: continuous gastrointestinal administration of low-dose niacin improves lipid-lowering efficacy in experimentally-induced hyperlipidaemic rats. 987 8

Cardiovascular disease related to hyperlipidemia is a significant cause of morbidity and mortality in the United States. The benefit of lowering lipid levels in patients with and without cardiovascular disease has been demonstrated in numerous clinical trials. The results of these trials prompted the National Heart, Blood, and Lung Institute to form the Nation Cholesterol Education Panel (NCEP). This panel developed guidelines for identifying and treating lipid disorders. Before starting antilipemic therapy, patients should be evaluated for secondary causes of hyperlipidemia, including disease states and medications. Risk factors for cardiovascular disease should be identified and used to determine the patient's goal low-density lipoprotein level. Regardless of the drug therapy used, the cornerstone treatment for hyperlipidemia is dietary changes. The NCEP recommendation for dietary modification follows a two-step plan to reduce intake of cholesterol and dietary fats. Other nonpharmacologic treatments for hyperlipidemia include exercise, weight reduction for obese patients, reduction of excessive alcohol use, and smoking cessation . Drug therapy should be considered in patients who do not respond to an adequate trial of dietary modifications and lifestyle changes. The principal lipid-lowering agents currently used are the bile acid sequestrants, nicotinic acid, 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase inhibitors, and fibric acid derivatives. Estrogen, fish oil, and alcohol also can decrease the risk of developing heart disease. In pharmacoeconomic studies, lipid-lowering drug therapy has been shown to decrease the number of procedures, hospitalizations, and other medical interventions required by patients with cardiovascular disease.
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PMID:Identifying and managing patients with hyperlipidemia. 1017 Mar 3

Drug treatment of hyperlipidemia was reviewed. In the first part, mode of action, efficacy and safety of lipid-lowering agents were described and in the second part, strategies for treatment of hyperlipidemia was described. Treatment of hypercholesterolemia should be started with statin and if the reduction is not enough, cholestimide or nicotinic acid or probucol can be added. Mild hypertriglyceridemia can be treated with dextran sulfate sodium, but usually low dose of fenofibrate or bezafibrate will be necessary. For severe cases, combination therapy with fibrate and nicotinic acid or ethyl icosapentate is required. Treatment of combined hyperlipidemia should be started with fibrate, but when the increment of cholesterol is superior to triglyceride, statin can be chosen. If these drugs are not fully effective, combination therapy with statin and ethyl icosapentate is recommended.
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PMID:[Anti-hyperlipidemic drug]. 1042 59

Calcium-induced alginate gel beads containing chitosan salt (Alg-CS) was prepared using nicotinic acid (NA), a drug for hyperlipidemia, and investigated its two functions in gastrointestinal tract, (a) NA release from Alg-CS, (b) uptake of bile acids into Alg-CS. The amount of NA incorporated in Alg-CS increased according to increment of CS content. NA was rapidly released from Alg-CS in diluted HCl solution (pH 1.2) or physiological saline without disintegration of the beads. When Alg-CS was placed in bile acid solution it took bile acid into itself. About 80% of taurocholic acid dissolved in the medium was taken into Alg-CS. According to increment of bile acid concentration, the uptake amount increased and an approximately linear relationship existed among them.
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PMID:Preparation of alginate gel beads containing chitosan nicotinic acid salt and the functions. 1047 28

32 patients with hypertriglyceridemia, excessive hypertriglyceridemia, and combined hyperlipidemia, were treated with the nicotinic acid derivative acipimox (Olbetam). First line treatment with bezafibrate, or statins in some with combined hyperlipidemia, had failed. In 10 acipimox was discontinued due to side effects or absence of clinical response. The other 22 completed 6 months of treatment with no side effects. Acipimox caused a significant 54% decrease in triglyceride levels, a 23% decrease in total cholesterol, and a 12% increase in HDL-cholesterol. LDL-cholesterol was difficult to calculate because of the high triglyceride levels, so no results are presented. Although acipimox was much better tolerated than nicotinic acid, it also had side effects, but fewer. Acipimox can therefore be used as a second-line drug, mainly in those with combined hyperlipidemia and hypertriglyceridemia.
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PMID:[Acipimox (Olbetam) as a secondary hypolipemic agent in combined hypertriglyceridemia and hyperlipidemia]. 1088 6

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