Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0948265 (metabolic syndrome)
 24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The triglyceride (TG) level is one of several lipid parameters that can aid prediction of coronary heart disease (CHD) risk. An elevated plasma TG level is strongly associated with an increased risk of CHD. Hypertriglyceridemia, the second most common dyslipidemic abnormality in hypertensive subjects after increased low-density lipoprotein cholesterol (LDL-C), is defined by the National Cholesterol Education Programme (NCEP) as a fasting TG level of > 2.26 mmol/l (> 200 mg/dl) and is recognised as a primary indicator for treatment in type IIb dyslipidemia. Raised TG levels can be present in individuals at risk for CHD when the total cholesterol is normal. However, not all individuals with raised TG levels have increased risk of CHD. Factors such as: diet, age, lifestyle, and a range of medical conditions, drug therapy and metabolic disorders, can all affect the TG level. In some of these circumstances, other factors protect against the risk of CHD, and can minimise or negate the effect of the risk factors present. Although TG reducing therapy has been shown to be associated with an improved clinical outcome, more research is needed to determine whether this is an independent effect of TG reduction or an effect of normalising the overall lipid profile in hypertriglyceridemic patients. Further trials are required to quantify the clinical benefits of lowering TG to 'target' levels and to confirm targets defined by NCEP-II (shown in Table 1). The role of TG in CHD pathogenesis is thought to involve several direct and indirect mechanisms, such as effects on the metabolism of other lipoproteins, transport proteins, enzymes, and on coagulation and endothelial dysfunction. More research is required to fully elucidate the role of TG, the ways in which it can influence other risk factors and the mechanism of its own more direct role in the atherogenic process. Patients with hypertriglyceridemia have been shown to respond well to dietary control and to the use of lipid lowering drugs such as 3-hydroxy-3-methylglutaryl-Coenzyme A (HMG CoA) reductase inhibitors (known as statins), fibrates and nicotinic acids. However, recent retrospective real-life clinical studies show that only 38% of patients receiving some form of lipid-lowering therapy achieved NCEP-defined LDL-C target levels, demonstrating the need for the use of more aggressive treatment. In hypertriglyceridemic patients, the newer statins, cerivastatin and atorvastatin, have shown comparable efficacy in reducing TG compared with the older statins. Achieving NCEP target lipid levels has been shown to reduce the risk of cardiovascular disease in dyslipidemic individuals, including high-risk patient groups such as those with additional risk factors, existing heart disease, diabetes mellitus and metabolic syndrome. Although the latest clinical studies investigating combination therapies, i.e. dual therapy with both a statin and a fibrate, have demonstrated them to be effective for overall control of lipid parameters and reducing coronary events, it is not yet clear whether this offers any significant advantage over monotherapy. Results from ongoing longer-term end-point clinical studies may provide further information in this area and consequent reviews of primary care management policies for dyslipidemia. Statin monotherapy may be a reliable option for primary care treatment of dyslipidemia (including hypertriglyceridemia).
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PMID:Hypertriglyceridemia: a review of clinical relevance and treatment options: focus on cerivastatin. 1146 48

Patients with combined dyslipidemia are at high risk for coronary artery disease and often require combination drug therapy to achieve lipid levels recommended by the US National Cholesterol Education Program's third Adult Treatment Panel (ATP III). In addition to recommendations for low-density lipoprotein (LDL) cholesterol and triglyceride levels, ATP III established non-high-density lipoprotein (HDL) cholesterol goals for individuals with triglycerides >or=2.26 mmol/L (>or=200 mg/dL). It also introduced certain criteria for the diagnosis of the metabolic syndrome, a clustering of risk factors (abdominal obesity, elevated triglycerides, low HDL cholesterol, elevated blood pressure, impaired fasting glucose) that increases cardiovascular risk and is common in patients with combined dyslipidemia. Statin monotherapy has been shown to benefit these patients, and additional benefit may be obtained by combination therapy that provides greater reductions in both LDL cholesterol and triglycerides as well as greater increases in HDL cholesterol. However, combining a statin with either niacin or a fibrate may increase the risk for myopathy and therefore requires careful monitoring and evaluation of the risk-benefit ratio for each patient. Moreover, combination therapy may be associated with increased drug costs and decreased patient compliance. Recently developed agents that may improve the effectiveness of combination therapy include ezetimibe-a cholesterol absorption inhibitor-and a formulation that combines extended-release niacin and lovastatin in a single pill. Clinical trials are needed to determine the optimal treatment in patients with combined dyslipidemia.
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PMID:Combination therapy for combined dyslipidemia. 1246 37

The use of niacin, alone and in combination, for the treatment of dyslipidemia in patients with or at risk for coronary heart disease (CHD), is discussed. Cardiovascular risk is independently predicted not only by high levels of low-density lipoprotein cholesterol (LDL-C), but also low levels of high-density lipoprotein cholesterol (HDL-C) and elevated triglycerides. Moreover, we now understand that LDL particle size and number are associated with differing levels of atherogenicity. Metabolic syndrome, increasingly being recognized as a marker for elevated cardiovascular risk, is associated with atherogenic dyslipidemia characterized by low HDL-C, high triglycerides, and small, dense LDL particles. Controlled clinical studies have shown that niacin therapy effectively increases HDL-C and lowers triglyceride and LDL-C levels while causing a shift toward larger, less atherogenic LDL particles. Niacin, alone or in combination, prevents progression and promotes regression of coronary atherogenic lesions and significantly reduces CHD-related morbidity and mortality. Statin monotherapy causes modest increases in HDL-C and decreases triglycerides, while more potently reducing LDL-C. Combinations of lipid-modifying agents may better address the full spectrum of lipoprotein abnormalities in some patients. Investigations have shown that combining statin therapy with niacin results in additive improvement in the major lipids and lipoproteins and improves clinical outcome. With recently broadened treatment recommendations, it seems likely that combination therapy will be increasingly deemed the appropriate choice for addressing a range of lipid abnormalities.
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PMID:Advances in the understanding and management of dyslipidemia: using niacin-based therapies. 1290 Oct 26

Statins have been proven to reduce cardiovascular risk, and guidelines for cardiovascular prevention recommend statin therapy in a wide range of patients. However, in spite of the dramatic success in large randomized clinical trials, two thirds of patients administered statins are not protected against cardiovascular events. This has prompted a search for additional targets for therapy. The pandemic of metabolic syndrome and type 2 diabetes has led to a dramatic increase in the prevalence of dyslipidemia. This, in turn, has prompted a resurgence of the search for drugs and algorithms that favorably affect high-density lipoprotein (HDL) and very low-density lipoprotein (VLDL) metabolism and function. Fibrates are the best-studied class of agents to be used as an addition to statins since they have also been proven to reduce clinical events as a monotherapy. However, there is a need for large safety trials of statin-fibrate combination therapy. Statin-niacin combination therapy has proven to be safe and effective in altering lipoprotein pattern. Randomized clinical trials and more research on the mechanism of action of niacin are necessary. Inhibitors of cholesterol ester transfer protein and HDL therapy drugs are in early developmental stages, and are the most promising potential additions to the current arsenal.
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PMID:Combination therapy for the treatment of dyslipidemia. 1508 97

The metabolic syndrome (MS) is a constellation of coronary risk factors. Atherogenic dyslipidemia is an important factor in cardiovascular risk in these patients, and treatment of atherogenic dyslipidemia has been identified as an important goal of therapy in patients with MS. This post hoc analysis of data from a 6-week, randomized, open-label, parallel-group, comparative trial (Statin Therapies for Elevated Lipid Levels compared Across doses to Rosuvastatin [STELLAR]) assessed the effects of rosuvastatin 10, 20, and 40 mg, atorvastatin 10, 20, 40, and 80 mg, simvastatin 10, 20, 40, and 80 mg, and pravastatin 10, 20, and 40 mg on plasma lipids in hypercholesterolemic patients (low-density lipoprotein cholesterol >/=160 and <250 mg/dl; triglycerides <400 mg/dl) who had >/=3 of the 5 National Cholesterol Education Program Adult Treatment Panel III criteria for MS (body mass index >30 kg/m(2) substituted for waist circumference). Of 2,268 patients, 811 met criteria for MS. Percent reductions in low-density lipoprotein cholesterol ranged from 20% in the pravastatin 10-mg group to 55% in the rosuvastatin 40-mg group. In patients with MS, triglyceride reductions were 22% to 34% with rosuvastatin, 23% to 33% with atorvastatin, 15% to 23% with simvastatin, and 12% to 15% with pravastatin. High-density lipoprotein cholesterol increased by 8% to 11% with rosuvastatin, 5% to 9% with atorvastatin, 8% to 10% with simvastatin, and 3% to 7% with pravastatin. Rosuvastatin, atorvastatin, simvastatin, and pravastatin treatment had favorable effects in hypercholesterolemic patients on the atherogenic dyslipidemia associated with MS. Rosuvastatin had the most favorable effect on the atherogenic lipid profile of MS overall.
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PMID:Effects of rosuvastatin, atorvastatin, simvastatin, and pravastatin on atherogenic dyslipidemia in patients with characteristics of the metabolic syndrome. 1567 May 45

Almost half of first cardiovascular events occur in individuals with no known risk factors. Attempts in the last decade to predict cardiovascular risk more accurately have led to the emergence of a novel risk factor, C-reactive protein (CRP), which has proved to be as good a risk predictor as low-density lipoprotein cholesterol. C-reactive protein is an index of inflammation that is now believed to promote directly all stages of atherosclerosis, including plaque rupture. As measured by high-sensitivity assays, high-sensitivity CRP (hs-CRP) also independently predicts recurrent events in patients with known coronary artery diseases. Recent evidence implicates hs-CRP, and thus inflammation, in the metabolic syndrome and diabetes mellitus, particularly in women. As a clinical tool for cardiovascular risk assessment, hs-CRP testing enhances information provided by lipid screening or global risk assessment. Statin therapy and other interventions can lower hs-CRP. Whether or not such reductions can prevent cardiovascular events is under investigation.
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PMID:High-sensitivity C-reactive protein as a risk assessment tool for cardiovascular disease. 1625 Feb 63

The metabolic syndrome appears to affect a significant proportion of the population and is associated with increased risk for development of cardiovascular disease as well as of type-2 diabetes. No single treatment for the metabolic syndrome as a whole yet exists. While the primary management of patients with the metabolic syndrome involves healthy lifestyle promotion, the atherogenic dyslipidemia is a primary target for cardiovascular disease risk reduction in these patients. Statin therapy provides effective reduction of LDL-cholesterol, which represents the primary therapeutic goal of lipid-lowering therapy in patients at risk for cardiovascular disease. Fibrates in turn are effective in normalizing lipid levels (mainly triglycerides and HDL-cholesterol) in patients with the metabolic syndrome and may improve insulin resistance. Whereas statins remain the drug of choice for patients who need to achieve the LDL-cholesterol goal, fibrate therapy may represent an alternative for those with low HDL-cholesterol and high triglyceride levels. The simultaneous use of fibrates could be indicated in patients whose LDL-cholesterol is controlled by statin therapy but whose HDL-cholesterol and/or triglycerides are still inappropriate. Such a combination, however, needs careful monitoring due to the potential hazard of adverse drug interactions. Nicotinic acid and ezetimibe may be useful agents for therapy, particularly when combined with statins. A number of emerging therapies offer potential as future options for the pharmacological treatment of metabolic syndrome.
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PMID:Hypolipidemic therapy for the metabolic syndrome. 1662 89

This analysis of the Ezetimibe Add-on to Statin for Effectiveness (EASE) trial examined the effectiveness and safety of ezetimibe 10 mg added to ongoing statin therapy in patients with diabetes, metabolic syndrome without diabetes, or neither disorder who had low-density lipoprotein cholesterol (LDL-C) levels exceeding National Cholesterol Education Program Adult Treatment Panel III (NCEP-ATP III) goals. After six weeks of treatment, ezetimibe added to statin reduced LDL-C in patients with diabetes by 28%, metabolic syndrome by 24%, or neither by 26%, compared with a 3% reduction for placebo for each group. In each group, more patients receiving ezetimibe plus statin reached LDL-C goal (67-74%) compared with those receiving placebo plus statin (19-22%). Other parameters demonstrating greater improvement with ezetimibe included triglycerides, apolipoprotein (Apo)B/Apo A-I ratio, high-density lipoprotein cholesterol (HDL-C), and C-reactive protein. Ezetimibe plus statin was well tolerated in each group. Ezetimibe added to ongoing statin therapy offers a new treatment option that is consistently effective in improvement of lipid profiles and attainment of LDL-C goals in patients with without diabetes or metabolic syndrome.
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PMID:Ezetimibe added to ongoing statin therapy improves LDL-C goal attainment and lipid profile in patients with diabetes or metabolic syndrome. 1705 29

Statins have been shown to inhibit oxidative stress, however it is still unclear if they influence antioxidant status. We performed a retrospective analysis of oxidative stress, as assessed by serum levels of 8-hydroxy-2-deoxyguanosine (8-OHdG) and vitamin E, a known antioxidant, in patients with metabolic syndrome (n=112) treated (n=30) or not (n=82) with statins. Statin-treated patients showed higher levels of vitamin E (p=0.02) and lower 8-OHdG (p<0.01) than statin-free patients. An inverse correlation between oxidative stress and vitamin E was observed (r=-0.670, p<0.001). These preliminary data suggest that statins enhance the antioxidant status likely by inhibiting oxidative stress.
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PMID:Statins enhance circulating vitamin E. 1730 87

There is increasing evidence that statins reduce cardiovascular events such as coronary artery disease or stroke in hypercholesterolemic patients in both primary and secondary prevention. The striking benefit achieved with statin treatments in patients with a wide range of cholesterol levels cannot be attributed to their cholesterol lowering effect alone. Substantial data has recently accumulated showing that statins exert various effects on multiple targets, namely pleiotropic effects, especially targeting the concept of 'vascular failure', including the improvement of vascular endothelial function, inhibition of vascular smooth muscle cell proliferation and migration, anti-inflammatory actions, anti-oxidative effects or stabilization of vulnerable plaques. These effects have potential in the treatments of coronary artery disease in various settings, such as prevention of its onset as well as its progression, or plaque rupture. Statin therapy should be more extensively applied even in normolipidemic patients if there are additional risk factors such as hypertension, diabetes mellitus, or others. Furthermore, statins may be used to intervene in earlier stage risk conditions such as postprandial hyperlipidemia or hyperglycemia, insulin resistant state, masked hypertension, or metabolic syndrome to further reduce mortality or morbidity of coronary artery disease and heart failure.
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PMID:Statin therapy for vascular failure. 1768 28


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