Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151744 (myocardial ischemia)
 31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Concept of sequence and time of appearance of various effects of statins is presented. Apart from hypolipidemic action due to inhibition of HMG CoA reductase activity statins exert multiple pleiotropic effects. Combination of these effects makes statins a unique instrument for solution of global tasks of prevention and treatment of atherosclerosis and its consequences (ischemic heart disease etc.). Manifestations of various pleiotropic effects of statins appear after different time intervals and in most cases are not related to suppression of cholesterol synthesis in the body. First 3-4 months (first level of the statin cascade) are characterized mainly by activity of pleiotropic properties aimed at restoration of endothelial function. These properties are responsible for enhanced eNOS expression, antiischemic, antithrombotic and antiatherogenic effects. During same period of time stabilization of unstable atheromas takes place. Manifestations of second level of the cascade of statin action appear after 2 years of treatment. They are represented by retardation of progression and even partial regression of atheromatosis of coronary and peripheral arteries. Third level is signified by achievement of strategic aims of therapy with statins (in 4-5 years) -- lowering of total and cardiac mortality, reduction of number of cardiac complications. Forth level of the cascade is represented by beneficial influences on nonatherogenic cardiological phenomena and comprise hypotensive, antiarrhythmic and cardiotonic effects. And finally some other important properties of statins constitute the fifth level of the therapeutic cascade. These properties are responsible for effects directed at noncardiac pathology (prevention of diabetes, dementia, including dementia associated with Alzheimer's disease, fractures). Immunodepression, ability to reduce saturation of bile with cholesterol belong to this group of effects.
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PMID:[Statins: therapeutic cascade of their effects]. 1547 99

It is important for prevention of vascular complications in diabetics to control blood glucose, blood pressure, and dyslipidemia, and to stop smoking. Recently, it has been reported that the HMG-CoA reductase inhibitor has angiogenetic effects independent of lipid lowering effect. Moreover, gene therapy using VEGF and HGF has shown dramatic effects for peripheral arterial disease. Endothelial progenitor cells injection is also expected for treatment of ischemic heart disease.
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PMID:[Division of endocrinology and metabolism, strategy for treatment of diabetic vascular complications for physicians]. 1577 99

The landmark HMG-CoA reductase inhibitor (statin) studies have practical lessons for clinicans. The 4S trial established the importance of treating the hypercholesterolaemic patient with cardiovascular heart disease. Next, WOSCOPS showed the benefit of treating healthy, high-risk hypercholesterolaemic men. CARE, a secondary prevention trial, showed the benefit of treating patients with cholesterol levels within normal limits. This was confirmed by the LIPID trial, another secondary prevention study, which enrolled patients with cholesterol levels 155-271 mg/dl (4-7 mmol/l). The importance of treating patients with established ischaemic heart disease, and those at high risk of developing heart disease, regardless of cholesterol level, was being realized. In the MIRACL trial, hypocholesterolaemic therapy was useful in the setting of an acute coronary syndrome, while the AVERT study showed that aggressive statin therapy is as good as angioplasty in reducing ischaemic events in patients with stable angina. By showing the value of fluvastatin after percutaneous intervention, LIPS confirmed that benefit is a class action of the statins. The HPS randomized over 20 000 patients, and showed beyond doubt the value of statins in reducing cardiovascular events in the high-risk patient. Although PROSPER showed benefit in treating the elderly patients above 70 years, statin therapy in this trial was associated with an increase in cancer incidence. The comparative statin trials, PROVE-IT, REVERSAL, Phase Z of the A to Z, ALLIANCE and TNT, all showed that high-dose statins will better reduce cardiovascular events in the high-risk patient, although the adverse effects of therapy will also be increased. ALLHAT-LLT, ASCOT-LLA and CARDS showed that for statin therapy to demonstrate a significant benefit, hypertensive or diabetic patients must be at sufficiently high risk of cardiovascular events. The emphasis is now on the risk level for developing cardiovascular events, and treatment should target the high-risk group and not the lipid level of the patient. No therapy is free of adverse effect. Treatment of those most at risk will bring the most benefit; treatment of those not at high risk of cardiovascular disease may expose patients who would not benefit much from therapy to its adverse effects.
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PMID:The statin studies: from targeting hypercholesterolaemia to targeting the high-risk patient. 1600 1

This article is a review of the scientific literature with respect to fine particulate matter (PM), 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors, and coronary artery disease (CAD). The association between air pollution and respiratory diseases has been extensively investigated for decades; however, the role of air pollution in exacerbating heart disease has only recently become a focus of attention. It has been shown that for every 10-microg/m(3) increase in fine PM in the air, there appears to be a 2.1% increase in the number of deaths related to ischemic heart disease. PM has been linked to increased levels of systemic inflammation biomarkers such as C-reactive proteins (CRP). Daily variation of ambient pollution is correlated with rises and falls in CRP levels. Increased CRP levels have been associated with increased morbidity and mortality in individuals with CAD. Seventy-five percent of patients with elevated CRP levels have reportedly experienced a major cardiac event despite low-density lipoproteins (LDL) levels that were below the threshold recommended for pharmacological intervention. HMG CoA reductase inhibitors (statins) have been shown to cause a reduction in coronary events by lowering LDL levels. However, recently it has been shown that statins have the effect of lowering CRP levels. This may explain why individuals with normal lipid levels may benefit from statin therapy. Ambient PM exposure levels and its effects on CRP are risk factors associated with coronary events and should be considered as a target for the treatment of CAD.
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PMID:Ambient particulate matter, C-reactive protein, and coronary artery disease. 1602 37

Statins (HMG-CoA reductase inhibitors) are the most commonly used lipid lowering drugs. Recent experimental evidence suggest that these agents appear to display additional cholesterol independent or pleiotropic effects, contributing to prevention and inhibition of atherosclerosis. In addition, clinical trials have demonstrated different effects of statins on diseases that are not directly related to accelerated atherosclerosis. The statins' vascular pleiotropic effects include improvement of endothelial function, slowing the inflammation process, inhibition of the thrombus formation, enhancement of plaque stability and decreasing oxidative stress. Clinical benefits were observed with statins therapy for cardiovascular diseases - ischemic heart disease, cerebral vascular accidents and peripheral vascular disease. Lately, clinical trials have suggested their role in Alzheimer's disease, multiple sclerosis, malignant diseases, osteoporosis, chronic renal diseases, transplantations, macular degeneration and autoimmune diseases. The objective of this review is to summarize the data related to the pleiotropic effects of the statin drugs, beyond their lipid lowering effect.
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PMID:[The pleiotropic effects of statins]. 1614 58

Dyslipemia is a clear risk factor (RF) for ischemic heart disease and peripheral artery disease, but its relation with ischemic stroke (IS) is not so clear. HMG-CoA reductase inhibitor drugs or statins (simvastatin, atorvastatin, pravastatin) reduce the relative risk of IS by between 18 and 51% in patients with IHD, in patients with high vascular disease risk and in hypertensive patients with other RFs, acute coronary syndrome, and type 2 diabetes mellitus. According to the guidelines for use, statins are indicated in the majority of patients with IS since the risk is equivalent to that of IHD or high vascular disease risk. In view of the existing clinical evidence of benefit, it would not seem unreasonable to proceed with treatment of patients using statins while awaiting specific studies justifying their use. The non-lipid-lowering mechanisms of the statins and results of studies, such as the Heart Protection Study, provide evidence for widening the indications of statins beyond the prevention of dyslipemia, as a new therapeutic approach in the prevention of IS in patients with plasma levels of total cholesterol or low density lipoproteins currently considered within the normal distribution. The neuroprotective role, which these drugs may play in the acute phase of cerebral ischemia, remains to be clarified, but very recent evidence suggests that such patients may also benefit.
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PMID:Lipids and stroke: the opportunity of lipid-lowering treatment. 1632 54

High serum cholesterol is associated with ischemic heart disease. Recent reports also indicate that cholesterol modulates amyloid beta-peptide interactions in the brain. Statins are inhibitors of 3-hydroxy-3-methylglutaryl-Coenzyme A reductase (HMG-CoA reductase), the rate-limiting enzyme involved in cholesterol synthesis. Statin treatment significantly reduces the levels of low-density lipoproteins (LDL) and very low-density lipoproteins (VLDL). In the past decade, cardiovascular mortality and morbidity has been reduced by the use of statins. However, evidence from in vivo and in vitro research has indicated that statins may confer multiple effects because of the inhibition of the production of intermediates in the mevalonate pathway. The aim of this review was to discuss the biological effects of statins on regulation of processes involved in the pathogenesis of dementia.
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PMID:The role of pleiotropic effects of statins in dementia. 1686 20

Hydroxymethyl glutaryl (HMG)-coenzyme A (CoA) reductase inhibitors (statins) protect the myocardium against ischemia-reperfusion injury via a mechanism unrelated to cholesterol lowering. Statins may inhibit isoprenylation and thereby prevent activation of proteins such as RhoA. We hypothesized that statins protect the myocardium against ischemia-reperfusion injury via a mechanism involving inhibition of geranylgeranyl pyrophosphate synthesis and translocation of RhoA to the plasma membrane. Sprague-Dawley rats were given either the HMG-CoA reductase inhibitor rosuvastatin, geranylgeranyl pyrophosphate dissolved in methanol, the combination of rosuvastatin and geranylgeranyl pyrophosphate, rosuvastatin and methanol, or distilled water (control) by intraperitoneal injection for 48 h before ischemia-reperfusion. Animals were anesthetized and either subjected to 30 min of coronary artery occlusion followed by 2 h of reperfusion where at infarct size was determined, or the expression of RhoA protein was determined in cytosolic and membrane fractions of nonischemic myocardium. There were no significant differences in hemodynamics between the control group and the other groups before ischemia or during ischemia and reperfusion. The infarct size was 80 +/- 3% of the area at risk in the control group. Rosuvastatin reduced infarct size to 64 +/- 2% (P<0.001 vs. control). Addition of geranylgeranyl pyrophosphate (77 +/- 2%, P<0.01 vs. rosuvastatin) but not methanol (65 +/- 2%, not significant vs. rosuvastatin) abolished the cardioprotective effect of rosuvastatin. Geranylgeranyl pyrophosphate alone did not affect infarct size per se (84 +/- 2%). Rosuvastatin increased the cytosol-to-membrane ratio of RhoA protein in the myocardium (P<0.05 vs. control). These changes were abolished by addition of geranylgeranyl pyrophosphate. We conclude that the cardioprotection and the increase of the RhoA cytosol-to-membrane ratio induced by rosuvastatin in vivo are blocked by geranylgeranyl pyrophosphate. The inhibition of geranylgeranyl pyrophosphate formation and subsequent modulation of cytosol/membrane-bound RhoA are of importance for the protective effect of statins against myocardial ischemia-reperfusion injury.
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PMID:Cardioprotective effect of rosuvastatin in vivo is dependent on inhibition of geranylgeranyl pyrophosphate and altered RhoA membrane translocation. 1732 12

In order to characterize the metabolic syndrome it becomes necessary to establish a number of diagnostic criteria. Because of its impact on cardiovascular morbidity/mortality, considerable attention has been focussed on the dyslipidemia accompanying the metabolic syndrome. The aim of this review is to highlight the fundamental aspects of the pathophysiology, diagnosis, and the treatment of the metabolic syndrome dyslipidemia with recommendations to clinicians. The clinical expression of the metabolic syndrome dyslipidemia is characterized by hypertriglyceridemia and low levels of high-density lipoprotein-cholesterol (HDL-C). In addition, metabolic syndrome dyslipidemia is associated with high levels of apolipoprotein (apo) B-100-rich particles of a particularly atherogenic phenotype (small dense low-density lipoprotein-cholesterol [LDL-C]. High levels of triglyceride-rich particles (very low-density lipoprotein) are also evident both at baseline and in overload situations (postprandial hyperlipidemia). Overall, the 'quantitative' dyslipidemia characterized by hypertriglyceridemia and low levels of HDL-C and the 'qualitative' dyslipidemia characterized by high levels of apo B-100- and triglyceride-rich particles, together with insulin resistance, constitute an atherogenic triad in patients with the metabolic syndrome. The therapeutic management of the metabolic syndrome, regardless of the control of the bodyweight, BP, hyperglycemia or overt diabetes mellitus, aims at maintaining optimum plasma lipid levels. Therapeutic goals are similar to those for high-risk situations because of the coexistence of multiple risk factors. The primary goal in treatment should be achieving an LDL-C level of <100 mg/dL (or <70 mg/dL in cases with established ischemic heart disease or risk equivalents). A further goal is increasing the HDL-C level to >or=40 mg/dL in men or 50 mg/dL in women. A non-HDL-C goal of 130 mg/dL should also be aimed at in cases of hypertriglyceridemia. Lifestyle interventions, such as maintaining an adequate diet, and a physical activity program, constitute an essential part of management. Nevertheless, when pharmacologic therapy becomes necessary, fibrates and HMG-CoA reductase inhibitors (statins) are the most effective drugs in controlling the metabolic syndrome hyperlipidemia, and are thus the drugs of first choice. Fibrates are effective in lowering triglycerides and increasing HDL-C levels, the two most frequent abnormalities associated with the metabolic syndrome, and statins are effective in lowering LDL-C levels, even though hypercholesterolemia occurs less frequently. In addition, the combination of fibrates and statins is highly effective in controlling abnormalities of the lipid profile in patients with the metabolic syndrome.
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PMID:Management of dyslipidemia in the metabolic syndrome: recommendations of the Spanish HDL-Forum. 1735 65

It is known that the 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors (statins) are effective in both the primary and the secondary prevention of ischemic heart disease. Increasing evidence indicates that statins have protective effects in several neurological diseases including stroke, cerebral ischemia, Parkinson disease, multiple sclerosis, traumatic brain injury and epilepsy. The aim of the present research was to evaluate the effects of some HMG-CoA reductase inhibitors (i.e. lovastatin, simvastatin, atorvastatin, fluvastatin and pravastatin) commonly used for the treatment of hypercholesterolemia in the DBA/2 mice, an animal model of generalized tonic-clonic seizures. Furthermore, the co-administration of these compounds with some antiepileptic drugs (AEDs; i.e. carbamazepine, diazepam, felbamate, gabapentin, lamotrigine, levetiracetam, oxcarbazepine, phenobarbital, phenytoin, topiramate and valproate) was studied in order to identify possible positive pharmacological interactions. Simvastatin only was active against both the tonic and clonic phase of audiogenic seizures, whereas the other statins tested were only partially effective against the tonic phase with the following order of potency: lovastatin>fluvastatin>atorvastatin; pravastatin was completely ineffective up to the dose of 150mg/kg. The co-administration of ineffective doses of all statins with AEDs generally increased the potency of the latter reducing their ED50 values. In particular, simvastatin was the most active in potentiating the activity of AEDs and the combinations of statins with carbamazepine, diazepam, felbamate, lamotrigine, topiramate and valproate were the most favorable, whereas, the co-administrations with the other AEDs studied was in most cases neutral. The increase in potency was generally associated with an enhancement of motor impairment (TD50); however, the therapeutic index (TD50/ED50) of combined treatment of AEDs with statins was predominantly more favorable than control. Statins administration did not significantly affect the total plasma but, in some cases, it increased the free plasma levels and the brain concentrations of some of the AEDs studied (i.e. carbamazepine, diazepam, phenytoin and valproate); however, these alterations where not statistically significant. Therefore, with the exception of the latter compounds, we might exclude pharmacokinetic interactions and conclude that for the most of AEDs, potentiation was of pharmacodynamic nature. In conclusion, simvastatin, fluvastatin, lovastatin and atorvastatin showed an additive anticonvulsant effect when co-administered with some AEDs, most notably carbamazepine, diazepam, felbamate, lamotrigine, topiramate and valproate, implicating a possible therapeutic relevance of such drug combinations. The present results suggest that statins, besides the beneficial cardiovascular effects, might be able to affect brain areas, which might participate in the regulation of seizure susceptibility.
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PMID:Pharmacodynamic potentiation of antiepileptic drugs' effects by some HMG-CoA reductase inhibitors against audiogenic seizures in DBA/2 mice. 2325 28


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