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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Prevenzione Aterosclerosi Studio Torino (P.A.S.T.) was a prospective, randomized trial testing the effect on carotid and femoral atherosclerotic lesions of lipid-lowering therapy, as assessed by duplex scanning (DS) technique, in 85 patients (12 women, 73 men), forty-five to fifty-five years old, with ischemic heart disease (IHD), and randomly assigned to a hypolipidemic diet or diet + 250 mg acipimox (a nicotinic acid compound) two to three times/day. Forty-one patients, without inclusion criteria, were compared with the randomized groups as a reference population. All three groups were submitted to DS and to hematic monitoring of lipid levels at the beginning and at the end of the study. During three years of treatment, there was a significant reduction (-6.5%) in total plasma cholesterol in the diet + drug group (P = 0.04) and a simultaneous elevation of high-density lipoprotein cholesterol, significant in the treatment groups (respectively, +15% P = 0.02 in the diet and +16% P = 0.016 in the diet + drug group). Every group showed a trend toward the increasing number of lesions in all explored areas and toward the progression in size of the already existing ones. Whereas in the initial DS the prevalence of lesions was significantly lower in the nonrandomized group in every site, at the end of the study the total number of lesions did not differ among groups, and there was a significant increase of plaques in carotid area in the nonrandomized group in comparison with the treatment groups. The final number of stable plaques was greater in the treatment groups as compared with the nonrandomized group (P = 0.01 diet vs nonrandomized, P = 0.03 diet + drug vs nonrandomized). In conclusion, lipid-lowering treatment, with diet and with diet + drug, was useful in slowing the natural progression of atherosclerosis; particularly, it reduced the development of new lesions in the carotid and femoral arteries and increased the stability of the already existing ones. In these patients, diet was equivalent to diet + drug in regard to progression of lesions. The most favorable results in the treatment groups seem to correlate with high-density lipoprotein cholesterol, significantly increased in comparison with the nonrandomized group.
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PMID:Effect of lipid-lowering treatment on progression of atherosclerotic lesions--a duplex ultrasonographic investigation. 772 47

Lipoprotein (a) has been implicated with an increased risk of atherosclerosis and cardiovascular disease. Recently, considerable progress has been made toward understanding the importance of genetics in the regulation of plasma levels of lipoprotein (a). However, the issue as to whether lipoprotein (a) levels should be treated is still debated and furthermore the possibilities to influence lipoprotein (a) levels remain limited. The potential clinical importance of lipoprotein (a) has stimulated interest in the dietary and pharmacologic agents that affect this lipoprotein. At present, only a few of the existing therapeutic tools, such as nicotinic acid and estrogens, have been found to consistently affect lipoprotein (a).
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PMID:Diet and drug therapy for lipoprotein (a). 773 16

Two new important independent risk factors for coronary artery disease (CAD) have been identified: lipoprotein (a) [Lp(a)] and homocyst(e)ine. Both are associated with increased frequency of cardiovascular events, both coronary and peripheral. Measurement of these two factors should be considered in patients with symptomatic CAD, stroke, a strong family history (but low other conventional risk factors); in first degree relatives of those with very high Lp(a) or homocyst(e)ine levels; and in other individuals in whom the need for an aggressive treatment of metabolic risk factors is indicated. While treatment of high serum Lp(a) with drugs is difficult it appears from the epidemiological or clinical evidence that the additional risk due to Lp(a) can be drastically lowered by decreasing the patient's low density lipoprotein (LDL) cholesterol levels to below 3 mmol/L. The treatment of increased homocyst(e)ine can be easily accomplished by vitamin B6 or folic acid administration. Various analyses describing the value of positive tests for diagnosis of atherosclerosis indicate that overall risk evaluated by computer models from Framingham data, use of total: high density lipoprotein (HDL) cholesterol ratio and/or the National Cholesterol Education Program (NCEP) II guidelines are the best predictors of future cardiovascular events. The strategic aim for treatment regimens should be threefold: lower serum LDL cholesterol levels; decrease serum triglycerides (and triglyceride-rich lipoproteins); and increase HDL cholesterol. Niacin and statin drugs are the most cost effective means to achieve the former and niacin and fibrates to achieve the latter goal. Where target LDL cholesterol levels can be achieved with less expensive statin preparations their use may be economically advantageous.
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PMID:Lipoproteins and homocyst(e)ine as risk factors for atherosclerosis: assessment and treatment. 775 44

Lipid-lowering therapy ameliorates coronary atherosclerosis in patients with raised concentrations of low-density-lipoprotein (LDL) cholesterol. We have investigated whether a similar benefit can be obtained in normocholesterolaemic patients. We studied 79 normocholesterolaemic patients with coronary heart disease (70 male, 9 female), mean age 58 years, all non-smokers, with mean total cholesterol concentration 5.5 mmol/L. All patients received diet therapy and were randomly assigned placebo (39) or active treatment (40) with pravastatin, nicotinic acid, cholestyramine, and gemfibrozil stepwise as needed to reach the specified goal (total cholesterol < or = 4.1 mmol/L, ratio of LDL/high-density-lipoprotein [HDL] cholesterol < or = 2.0). Coronary angiograms at baseline and after 2.5 years of treatment were analysed by computer-assisted quantitative techniques. There was no significant difference in coronary atherosclerosis during follow-up between the active treatment and placebo groups; the mean minimum diameter narrowed significantly but to the same extent in both groups (change baseline to 2.5 years 0.14 [SD 0.42] and 0.15 [0.42] mm, respectively, both p < 0.001). Similarly, the change in percentage stenosis did not differ between the groups (2.1 [10.6] vs 2.4 [10.3]%). By multiple regression analysis, the adjusted difference between the groups was a 0.04 mm (95% CI -0.04 to 0.12 mm) increase in minimum diameter and a 0% (-1.7 to 1.7) change in percentage stenosis. The groups differed significantly in plasma lipids (% change in active minus % change in placebo group: -28% total cholesterol, -41% LDL-cholesterol, 13% HDL-cholesterol, -26% triglycerides, -31% apolipoprotein B, all p < 0.001). Thus, intensive pharmacological treatment of normocholesterolaemic patients has significant effects on plasma lipid concentrations but no angiographically measurable benefit on the coronary arteries.
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PMID:Effect on coronary atherosclerosis of decrease in plasma cholesterol concentrations in normocholesterolaemic patients. Harvard Atherosclerosis Reversibility Project (HARP) Group. 799 16

This study examines the effect of nicotinic acid (1 g t.d.s.) on serum Lp(a) concentration in a group of patients with type II hyperlipidaemia selected on the basis of a plasma Lp(a) concentration greater than 30 mg/dl. Reductions in total cholesterol, triglyceride, LDL-cholesterol and Lp(a) were 16.3%, 25.5%, 23.7% and 36.4%, respectively, with an increase in HDL cholesterol of 37.3%. The reduction in Lp(a) concentration did not correlate with any other lipoprotein changes. In order to establish the mechanism of the fall in Lp(a) concentration, in vivo turnover of autologous Lp(a) was studied in three subjects before and whilst taking nicotinic acid. The fractional catabolic rate in Lp(a) was unaltered in the subjects on therapy, indicating that nicotinic acid did not increase catabolism of Lp(a) but decreased the synthetic rate. Since nicotinic acid was poorly tolerated we examined the effect of acipimox, an analogue of nicotinic acid on lipoproteins using a placebo controlled double-blind crossover design in a group of hyperlipidaemic patients again selected with plasma Lp(a) concentration greater than 30 mg/dl. Acipimox was better tolerated than nicotinic acid but the percentage changes in lipoprotein concentrations were smaller.
Atherosclerosis 1993 Jun
PMID:The effect of nicotinic acid and acipimox on lipoprotein(a) concentration and turnover. 821 3

Previous work suggested an influence of etofibrate, a diester of nicotinic acid and clofibric acid, on lipoprotein receptors. Besides its beneficial effects on plasma lipoprotein levels of decrease in total cholesterol, LDL-cholesterol and triglycerides and increase in HDL-cholesterol, etofibrate was shown to inhibit platelet function. In order to further evaluate platelet-lipoprotein interactions, the effects of etofibrate on plasma lipids and lipoproteins on the specific binding of normal [111In]LDL and [111In]HDL onto platelets as well as its effect on platelet function were evaluated in 8 patients affected by Type II hyperlipoproteinemia (HLP). In all patients binding was saturable and indicated high affinity binding sites capable of binding 927 +/- 233 ng protein of [111In]LDL/10(9) platelets (Kd 12 +/- 3 micrograms protein/ml) and 1496 +/- 435 ng protein of [111In]HDL/10(9) platelets (Kd 14 +/- 3 micrograms protein/ml). The capacity of native LDL (HDL) to displace bound [111In]LDL ([111In]HDL) by half (IC50) amounted to 22 +/- 9 micrograms protein/ml (26 +/- 8 micrograms protein/ml). Following a 6-week treatment period with etofibrate (500 mg twice daily), decrease in plasma total cholesterol, LDL-cholesterol and apolipoprotein (apo) B and increase in HDL-cholesterol and apo AI was correlated to a significant (P < 0.01) increase in LDL- as well as HDL-receptor binding. The platelet binding capacity increased to 1085 +/- 212 ng protein/10(9) platelets (Kd 8 +/- 3 micrograms protein/ml) for [111In]LDL and to 1867 +/- 266 ng protein/10(9) platelets for [111In]HDL (Kd 11 +/- 3 micrograms protein/ml). Platelet function studies demonstrated significantly (P < 0.01) reduced platelet aggregation in response to ADP and thromboxane formation after 6 weeks of etofibrate therapy. These findings in patients with HPL Type II indicate in vivo upregulation of specific [111In]LDL as well as [111In]HDL binding sites on human platelets associated with reduced platelet activation following etofibrate therapy.
Atherosclerosis 1993 Sep
PMID:Etofibrate increases binding of low and high density lipoprotein to human platelets of patients with type II hyperlipoproteinemia. 825 Oct 8

Familial hypercholesterolaemia (FH) is caused by mutations in the gene for the low density lipoprotein (LDL) receptor. It is generally believed that homozygous FH patients do not respond well to lipid-lowering drug therapy with inhibitors of 3-hydroxy-3-methylglutaryl CoA reductase because they cannot respond to an increased demand for hepatic cholesterol by up-regulation of LDL-receptor activity. In this paper we show that serum cholesterol in a homozygous FH patient with a receptor-negative LDL-receptor phenotype was reduced by 30% after treatment with simvastatin alone and by a further 11% with simvastatin in combination with probucol and nicotinic acid. The patient was a true homozygote, with two identical alleles of the LDL receptor gene in which a previously undescribed point mutation in exon 11 introduces a premature termination codon at residue 540 in the protein; the mutant protein is predicted to be truncated in the domain with homology to the epidermal growth factor precursor. Cultured cells from the patient were unable to bind, internalise or degrade LDL by the receptor pathway and there was no immunodetectable LDL receptor protein in the cells. Thus the lipid lowering effect of simvastatin in this individual must involve mechanisms other than stimulation of LDL receptors.
Atherosclerosis 1993 Nov
PMID:Cholesterol-lowering drug therapy in a patient with receptor-negative homozygous familial hypercholesterolaemia. 829 93

Five classes of lipid-lowering drugs are approved by the Food and Drug Administration (FDA) for use in the United States: nicotinic acid, bile acid sequestrants, fibric acid derivatives, reductase inhibitors, and probucol. None of the agents has an antiatherosclerotic indication. Cholestyramine and gemfibrozil have received indications for preventing complications of atherosclerosis, namely, myocardial infarction and coronary artery disease death. Foreseeable pharmacological strategies to reduce lipid-related cardiovascular risk might be divided into three categories. First, the present approach of lowering lipid and lipoprotein concentrations might be extended through modification of available agents (e.g., a more potent or soluble bile acid resin) or development of agents of novel mechanism (e.g., acyl-CoA:cholesterol acyltransferase [ACAT] inhibition or inhibition of cholesterol biosynthesis at a step other than HMG-CoA reductase). Second, blood lipids could be directly addressed outside of lipid-lowering strategies. Raising high density lipoprotein (HDL) cholesterol levels has not been fully explored, or the target might be modification of the lipoproteins themselves rather than their concentrations. Areas of particular interest in the latter regard are hepatic lipase activity, cholesteryl ester transfer protein activity, and differences between oxidized or otherwise modified low density lipoprotein (LDL) particles and normal LDL. Third, it may be possible to directly lessen the atherosclerotic potential of the vessel wall (e.g., through protecting it from the effects of certain growth factors or altering its state of relaxation.
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PMID:Dyslipidemia and atherosclerosis. A forecast of pharmaceutical approaches. 846 81

Since plasma high density lipoprotein (HDL) concentrations are inversely related to the development of atherosclerosis, induction of HDL after pharmacological treatment is considered of benefit. To study whether currently used hypolipidemic drugs affect HDL metabolism by modulating the expression of genes involved in HDL metabolism, liver and intestinal apolipoprotein (apo) AI, apo-AII and apo-AIV gene expression was evaluated in rats treated with different classes of hypolipidemic drugs, and correlated to the changes in plasma lipid and apolipoprotein concentrations. In rats, the most pronounced hypolipidemic effects were observed after treatment with the fibrates clofibrate and fenofibrate, which lowered plasma lipid, apo-AI and apo-AIV concentrations. This decrease was accompanied by lowered liver apo-AI, apo-AII and apo-AIV mRNA levels. None of the other compounds tested affected plasma cholesterol, whereas probucol and simvastatin decreased plasma triglyceride concentrations. Apo-AI and apo-AII mRNA remained constant after nicotinic acid and probucol, whereas liver apo-AIV mRNA levels decreased. Cholestyramine increased hepatic apo-AI and apo-AII, but not apo-AIV mRNA levels. Simvastatin treatment increased apo-AI mRNA nearly threefold, whereas apo-AII and apo-AIV decreased by more than 50%. Similarly as after cholestyramine, the alteration in hepatic apo-AI mRNA levels did not result in changed plasma apo-AI concentrations. Remarkably, none of the drugs tested significantly affected intestinal apolipoprotein mRNA levels. These results indicate that hypolipidemic drugs may act on plasma lipoprotein metabolism by regulating apolipoprotein gene expression. Further studies in humans and primates are therefore warranted.
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PMID:Effects of hypolipidemic drugs on the expression of genes involved in high density lipoprotein metabolism in the rat. 868 57

Current experience from coronary angiographic trials using different treatment regimens such as lifestyle changes, resins, nicotinic acid and statins, shows that progression of atheroma can be retarded, and that regression can sometimes be induced, by a marked lowering of LDL-cholesterol. Young post-myocardial infarction patients, however, usually exhibit a multiplicity of metabolic risk factors with dyslipidaemias, predominantly hypertriglyceridaemia, and disturbances of glucose-insulin homeostasis and of the haemostatic system. These factors, together coupled with coronary angiographic data showing that the degree of dyslipidaemia is related to the extent and degree of coronary atherosclerosis, and the fact that rapid progression of coronary atherosclerosis was foreseen in this group of patients, resulted in the initiation of the Bezafibrate Coronary Atherosclerosis Intervention Trial (BECAIT) in 1985. BECAIT was a 5-year, double-blind, placebo-controlled study of bezafibrate (200 mg three times daily) and dietary intervention in dyslipidaemic male survivors of myocardial infarction below 45 years of age. The angiographic analysis included 81 patients (42 bezafibrate and 39 placebo) who underwent baseline and at least one post-treatment angiogram, at 2 and 5 years. Changes in mean minimum lumen diameter indicated that there was 0.13 mm less (95% Cl: 0.10; 0.15) disease progression in focal lesions in the bezafibrate group than in the placebo group (P = 0.049). Parallel, but non-statistically significant, treatment effects were observed for mean segment diameter and percent stenosis. Three patients treated with bezafibrate and 11 patients in the placebo group suffered coronary events during the course of the trial (P = 0.02 logrank test). The angiographic effects of bezafibrate were accompanied by statistically significant reductions in serum cholesterol and triglycerides. Furthermore, plasma fibrinogen levels were significantly reduced and HDL-cholesterol concentration increased but there was no net change in LDL-cholesterol. These findings show that bezafibrate slowed the progression of focal coronary atherosclerosis to a degree that is comparable to that achieved with the statins in angiographic trials such as MAAS and REGRESS. Bezafibrate also reduced the occurrence of coronary events in young post-infarction victims. Like BECAIT, analyses of data from the NHLBI type II study, CLAS, POSCH and MARS provide evidence for the role of triglyceride-rich lipoproteins in the progression of coronary artery disease. Retardation of progression of atherosclerosis and a reduction in coronary events is, therefore, possible without reducing LDL-cholesterol.
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PMID:Secondary preventive potential of lipid-lowering drugs. The Bezafibrate Coronary Atherosclerosis Intervention Trial (BECAIT). 896 Apr 46


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