UMLS:C0004153 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The assessment of brachial-artery FMD is a reliable, reproducible and noninvasive tool for evaluating endothelial dysfunction, which, together with endothelial inflammation, causes carotid atherosclerosis. Atorvastatin therapy can reverse endothelial dysfunction after 4 months, and may have significant anti-inflammatory effects if continued for more than 4 months. Importantly, statin therapy can be used to treat carotid atherosclerosis.
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PMID:Carotid atherosclerosis: is it treatable? 1575 15

The aim of this study was to compare the effect of 30-day treatment with atorvastatin and fenofibrate on monocyte release and plasma levels of monocyte chemoattractant protein-1 (MCP-1). We studied 52 atherosclerotic patients with primary mixed dyslipidemia and 16 age-, sex-, and weight-matched control subjects with asymptomatic atherosclerosis. Dyslipidemic patients enrolled into the study were randomly divided into three groups, simultaneously treated with atorvastatin (20 mg/d, n = 18), fenofibrate (267 mg/d, n = 16), or placebo (n = 18). Plasma lipid-profile and content of MCP-1, and monocyte release of this chemokine were measured at baseline and after 30 days of therapy. Compared with the control subjects, dyslipidemic patients exhibited the increased plasma levels and monocyte MCP-1 release. Atorvastatin and fenofibrate not only improved lipid profile but also decreased monocyte secretion of this chemokine. Moreover, hypolipemic agents slightly reduced its plasma levels. MCP-1-lowering effect of atorvastatin and fenofibrate did not correlate with the lipid-lowering potential of these agents. Our results suggest that atorvastatin and fenofibrate produce their antiinflammatory effect partially via inhibiting monocyte release of MCP-1. The treatment-induced reduction in its secretion may contribute to the clinical effectiveness of statins and fibrates in the therapy for atherosclerosis and other chronic fibroproliferative diseases.
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PMID:Effect of monthly atorvastatin and fenofibrate treatment on monocyte chemoattractant protein-1 release in patients with primary mixed dyslipidemia. 1577 19

Reactive oxygen species, such as superoxide anion (O2-) and hydrogen peroxide (H2O2), may act as second messengers of intracellular signaling and play a key role in the pathogenesis of atherosclerosis. The nuclear factor kappaB (NF-kappa B) is a redox-sensitive transcription factor that is involved in this process. The aim of the present study was to investigate the molecular mechanisms of action of statins on cultured vascular smooth muscle cells (VSMC) and monocytic cells (THP-1) under oxidative stress. In THP-1 and cultured VSMC, O2- caused an increase in NF-kappa B activation (P < 0.05) that was correlated with inhibitory I kappa B-alpha degradation. Atorvastatin or simvastatin decreased NF-kappa B activation induced by oxidative stress by around 50% in both cell types and was correlated with the I kappa B-alpha levels. In monocytes, O2- increased I kappa B kinase (IKK)-1 and IKK-2 activity (P < 0.05) and p38 and p42/44 activation and phosphorylation, which was reduced by statins. PD 98059 (p42/44 inhibitor) and SB20358 (p38 inhibitor) decreased NF-kappa B binding activity and prevented I kappa B-alpha degradation. However, we only observed a reduction in IKK-1 and IKK-2 activity with PD98059. Statins diminish NF-kappa B activation elicited by oxidative stress through the inhibition of IKK-1/-2, p38, and p42/44 activation. These data may help to further understand the molecular mechanisms of statins in cardiovascular disease.
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PMID:HMG-CoA reductase inhibitors reduce I kappa B kinase activity induced by oxidative stress in monocytes and vascular smooth muscle cells. 1582 43

Familial hypercholesterolaemia (FH) is the most common inherited metabolic disease characterized by elevated serum levels of low-density lipoprotein cholesterol (LDL-C) and ischaemic heart disease early in life. Early diagnosis and treatment are essential to prevent premature atherosclerosis in FH patients. The aim of our study was the evaluation of the effects of genetic [class of the LDL receptor (LDLR) gene mutation, apolipoprotein (apo)E, apoA-IV and cholesterol ester transfer protein gene polymorphisms] and environmental factors (age, sex, smoking habit and body mass index) on the lipid-lowering response to statin therapy in patients with molecularly defined FH. Atorvastatin 20 mg/day was prescribed in 49 patients with heterozygous FH. The lipid profile was examined before and after 12 weeks of therapy. Statin therapy resulted in a decrease of 37% and 36% in LDL-C and apoB levels, respectively. The study population was then divided into 2 groups according to the class of the LDLR mutation [patients sharing a class V mutation (the G1775A mutation, n=21) and patients sharing class II mutations (the G1646A and the C858A mutations, n=28)]. In both groups, the percentage decrement in LDL-C and apoB levels were correlated with the initial LDL-C and apoB levels, respectively. The class of the LDLR mutation affected the LDL-C and apoB-lowering response of heterozygous FH patients to statin therapy. In detail, heterozygotes sharing a class V mutation of the LDLR showed a higher percentage decrement in LDL-C and apoB levels after atorvastatin administration compared to patients sharing class II mutations (49+/-9% versus 34+/-9%, P=0.001 for LDL-C and 42+/-16% versus 35+/-20%, P=0.001 for apoB). The influence of the classes of the LDLR gene mutations on the change of LDL-C and apoB levels to atorvastatin was still significant in a multivariate analysis. None of the other genetic and environmental factors studied affected the lipid-lowering response to atorvastatin therapy in patients with heterozygous FH in a multivariate analysis. Our data indicate that the class of the LDLR gene mutation affects the LDL-C and apoB-lowering response of heterozygous FH patients to statin therapy. Specifically, patients with a class V mutation exhibit higher percentage decrease in LDL-C and apoB levels after statin therapy compared to patients sharing class II mutations.
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PMID:Genetic and environmental factors affecting the response to statin therapy in patients with molecularly defined familial hypercholesterolaemia. 1586 14

Insulin resistance plays an important role not only in the development and progression of diabetes mellitus but also in the establishment of metabolic syndrome. Improvement of insulin resistance is thus of great importance both in improving glucose metabolism and preventing atherosclerosis. Although HMG-CoA reductase inhibitors appear to favorably affect glucose metabolism, as indicated by the results of a subanalysis in the West of Scotland Coronary Prevention Study (WOSCOPS), their effects on glucose metabolism and insulin resistance have not been thoroughly investigated in animal models. In this study, the effects of atorvastatin on the glucose metabolism and insulin resistance of KK/Ay mice, an animal model of type II diabetes, were investigated. Atorvastatin significantly decreased the non-HDL-cholesterol level in the oral glucose tolerance test, inhibited increase in the 30-min glucose level, decreased plasma insulin levels before and 30 and 60 minutes after glucose loading, and decreased the insulin resistance index, compared with corresponding values in controls, indicating that atorvastatin appeared to improve glucose metabolism by improving insulin resistance. Northern blot analysis revealed decreases in levels of mRNA of sterol regulatory element binding protein-1 (SREBP-1) and glucose-6-phosphatase (G6Pase), and it may play a role in the improvement of glucose metabolism and insulin resistance.
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PMID:Effects of atorvastatin on glucose metabolism and insulin resistance in KK/Ay mice. 1594 17

The introduction of statins has drastically changed the treatment and prevention of atherosclerotic vascular disease. By lowering lipid levels and reducing the risk of coronary heart disease, these drugs are among the most effective at reducing morbidity and mortality available to clinical practice. In fact, these compounds have demonstrated the reversible nature of the process of atherosclerosis and can be considered the most useful drugs we currently have in our armamentarium in the prevention of atherosclerosis and its clinical sequelae. Atorvastatin provides pronounced lipid lowering in a broad range of individuals with hypercholesterolaemia and, as such, is an appropriate first-line therapy for patients at low to high risk of coronary heart disease. Reductions in total and low-density lipoprotein cholesterol achieved with atorvastatin have been shown to translate into reductions in risk of cardiovascular morbidity and mortality in both primary and secondary prevention settings. Significant clinical benefits have specifically been observed among patients with Type 2 diabetes and in those with acute coronary syndromes. In common with other members of the statin class, atorvastatin is well tolerated, and adverse events are generally mild and transient in nature. Despite the significant clinical benefits provided by atorvastatin, its full potential in the management of atherosclerotic disease has yet to be wholly explored; however, studies currently ongoing will answer many of the outstanding questions.
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PMID:Atorvastatin. 1595 72

It has been estimated that 92% of individuals with type 2 diabetes, without cardiovascular disease (CVD), have a dyslipidaemic profile. Several guidelines on cardiovascular risk now recommend that patients with diabetes should be considered at high risk of CVD and should thus receive lipid-lowering therapy to reduce low-density lipoprotein cholesterol (LDL-C) to below 2.5 mmol/L. Since their introduction in 1987, statins have revolutionized the management of CVD. The most recent statin to be introduced, rosuvastatin, has been shown to be the most effective at lowering LDL-C, as well as consistently raising HDL-C across the 10-40 mg dose range. This has been confirmed by many studies, including the Measuring Effective Reductions in Cholesterol Using Rosuvastatin Therapy (MERCURY I) study in which rosuvastatin 10 mg was shown to be more effective than commonly used doses of other statins, both for LDL-C reduction and achieving treatment target goals. The effectiveness of rosuvastatin has also been studied in type 2 diabetes patients in three studies: the URANUS (Use of Rosuvastatin vs. Atorvastatin iN type 2 diabetes mellitUS), ANDROMEDA (A raNdomized, Double-blind study to compare Rosuvastatin [10 & 20 mg] and atOrvastatin [10 & 20 Mg] in patiEnts with type II DiAbetes) and CORALL (COmpare Rosuvastatin [10-40 mg] with Atorvastatin [20-80 mg] on apo B/apo A-1 ratio in patients with type 2 diabetes meLLitus and dyslipidaemia) studies. URANUS and ANDROMEDA showed rosuvastatin to be more effective than atorvastatin at reducing LDL-C and achieving treatment target goals. CORALL demonstrated rosuvastatin 10, 20 and 40 mg to be more effective at lowering LDL-C than 20, 40 and 80 mg of atorvastatin, respectively. Ongoing studies will evaluate whether these properties of rosuvastatin translate into beneficial effects on atherosclerosis and significant reductions in cardiovascular events.
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PMID:A review of the efficacy of rosuvastatin in patients with type 2 diabetes. 1603 94

Inflammation is pivotal in atherosclerosis, and C-reactive protein (CRP) is an inflammatory marker that predicts cardiovascular events. The Reversal of Atherosclerosis with Aggressive Lipid Lowering (REVERSAL) trial compared the standard lowering of low-density lipoprotein (LDL)-cholesterol with pravastatin 40 mg/day, with the intense lowering of LDL-cholesterol with atorvastatin 80 mg/day on atheroma volume in patients with coronary artery disease, and showed that the atheroma progressed by 2.7% in the pravastatin group, and remained unchanged in the atorvastatin group. At 18 months follow-up, the CRP levels were reduced from a baseline level of 2.8 mg/l to 1.8 mg/l by atorvastatin, whereas pravastatin had little effect, and there was a good correlation between both the ultrasonographic progression of disease and the reduction in CRP levels. The Pravastatin or Atorvastatin Evaluation and Infection Therapy--Thrombolysis in Myocardial Infarction 22 (PROVE IT-TIMI 22) trial compared the long-term effects of the standard lowering of LDL-cholesterol with pravastatin, with the intense lowering of LDL-cholesterol with atorvastatin in patients with an acute coronary syndrome. The primary end point was the first of death, myocardial infarction, unstable angina requiring hospitalisation, revascularisation or stroke, and, at the end of 2 years, was greater in the pravastatin than the atorvastatin group (26.3 versus 22.4%, respectively). Patients with CRP levels of 2 mg/l had lower rates of recurrent myocardial infarction or death from coronary causes than patients with higher levels. Further analysis should be undertaken to assess cardiovascular risk at different levels of CRP, including assessing cardiovascular risk at different levels in men and women. Definitive results about the importance of lowering CRP levels are not likely to be obtained until the results of the Justification for Use of Statins in Primary Prevention, an Intervention Trial in Evaluating Rosuvastatin (JUPITER) study are published.
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PMID:Relating statin therapy to C-reactive protein levels. 1608 47

Recently, two large randomised clinical trials compared the effects of standard and intensive lipid-lowering treatment (Pravastatin 40 mg vs. Atorvastatin 40 mg b.i.d.) on patient prognosis after acute coronary syndromes--the Pravastatin or Atorvastatin Evaluation and Infection Therapy (PROVE-IT), and on the atherosclerosis regression--the Reversing Atherosclerosis with Aggressive Lipid Lowering (REVERSAL). Undoubtedly, the event-rate reduction and the atherosclerosis regression associated to intensive hypocholesterolemic treatment in these studies are impressive, however we would like to highlight some methodological concerns raised by both trials, more clinically oriented than planned to give rigorous answers to the scientist. The main problems of both studies are that they compare the effects of statins with different pleiotropic and pharmacokinetic properties and that the metabolic disorders that affect the studied patients have not been clearly described. Moreover, it is unclear if the cardiovascular disease history length was similar in the two treatment groups as well as the length and dosage of statin treatment of the about 25% of patients taking statins before the enrollment. Waiting for studies comparing the effects of low and high dosages of the same statin or the high dosage of two similarly potent and rapid lipid-lowering effect (as for instance atorvastatin and rosuvastatin), prudence has to be applied in the interpretation (and even more in the application) of these large and expensive study results, that have yet only confirmed the relevance of a more intensive lipid-lowering treatment in all patients affected by atherosclerosis-based coronary syndromes.
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PMID:REVERSAL and PROVE-IT: are clinically oriented trials really better than "pure" scientific studies? 1609 83

Statins have become a cornerstone of treatment for dyslipidaemia primarily due to their marked lowering of low-density lipoprotein cholesterol (LDL-C). Studies show that statin treatment typically reduces relative risk of cardiovascular disease by 24-37%, regardless of age, sex, prior history of coronary heart disease (CHD), or other co-morbid conditions. There is also a growing body of evidence that statins can be effective in people whose LDL-C is not considered elevated under current guidelines. In both the Anglo-Scandinavian Cardiac Outcomes Trial (ASCOT) and the Collaborative Atorvastatin Diabetes Study (CARDS), participants randomised to atorvastatin (10 mg/day) experienced at least a one-third reduction in major cardiovascular events, even though at baseline, their LDL-C was within the normal range. Other studies have also provided evidence that more intensive lipid-lowering regimens could provide additional clinical benefits. In the Reversal of Atherosclerosis with Aggressive Lipid Lowering (REVERSAL) trial, the first active-control clinical trial of CHD progression, an intensive lipid-lowering regimen using atorvastatin (80 mg/day) decreased atherogenic lipoproteins and atheroma volume in patients with established CHD, compared with a moderate regimen using pravastatin (40 mg/day). Furthermore, relative to baseline, there was no measurable atheroma progression in the atorvastatin group. While statin therapy does offer significant clinical benefit, 60-70% of major cardiovascular events are still not prevented, which underscores the need for alternative interventions. Targeting inflammatory mediators of atherosclerosis such as C-reactive protein (CRP), as well as combination therapy to simultaneously raise high-density lipoprotein cholesterol (HDL-C) and lower LDL-C, are among the promising new strategies for primary and secondary prevention of atherosclerotic disease. This article will summarise data concerning use of statins in patients without markedly elevated LDL-C. The issue of the ideal LDL-C target will also be considered before addressing future treatment options for dyslipidaemia.
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PMID:Statins and LDL-cholesterol lowering: an overview. 1613 36

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