UMLS:C0004153 - FACTA Search

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

Transplant coronary artery disease is an accelerated vasculopathy that occurs in adult and pediatric heart transplant recipients, and it is a leading cause of death among late survivors. This form of coronary disease, also known as graft coronary disease, differs from classical atherosclerosis in both histologic and angiographic features and it progresses much more rapidly. Although its pathogenesis has not been determined precisely, both immune and non-immune mechanisms appear to contribute, with a final common pathway of endothelial injury due to both antigen-dependent and antigen-independent factors. Many investigators believe both cellular and/or humoral rejection play a direct role in its etiology. In children the true incidence of the condition is unknown, although a multicenter survey identified 58 (7.2%) patients among 815 transplant recipients at 17 centers. Detection remains difficult. In the past, non-invasive methods have been unsatisfactory, although recent experience has suggested that Dobutamine stress echocardiography may be promising. Once a diagnosis is made, treatment has been limited to palliation by either intracoronary interventional procedures or surgical coronary bypass grafting, and to cardiac retransplantation with its own set of problems. Current efforts are directed at prevention. Blood levels of cholesterol have been reduced in adults treated with Pravastatin, but there have been no reports of its use in children. In adults additional agents with potential benefit have included calcium channel blockers and ACE inhibitors. A multicenter trial in children is needed to answer the many remaining questions regarding transplant coronary disease in this age group.
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PMID:Transplant coronary artery disease in children. 1085 95

The availability of the 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors has revolutionised the treatment of lipid abnormalities in patients at risk for the development of coronary atherosclerosis. The relatively widespread experience with HMG-CoA therapy has allowed a clear picture to emerge concerning the relative tolerability of these agents. While HMG-CoA reductase inhibitors have been shown to decrease complications from atherosclerosis and to improve total mortality, concern has been raised as to the long term safety of these agents. They came under close scrutiny in early trials because ocular complications had been seen with older inhibitors of cholesterol synthesis. However, extensive evaluation demonstrated no significant adverse alteration of ophthalmological function by the HMG-CoA reductase inhibitors. Extensive experience with the potential adverse effect of the HMG-CoA reductase inhibitors on hepatic function has accumulated. The effect on hepatic function for the various HMG-CoA reductase inhibitors is roughly dose-related and 1 to 3% of patients experience an increase in hepatic enzyme levels. The majority of liver abnormalities occur within the first 3 months of therapy and require monitoring. Rhabdomyolysis is an uncommon syndrome and occurs in approximately 0.1% of patients who receive HMG-CoA reductase inhibitor monotherapy. However, the incidence is increased when HMG-CoA reductase inhibitors are used in combination with agents that share a common metabolic path. The role of the cytochrome P450 (CYP) enzyme system in drug-drug interactions involving HMG-CoA reductase inhibitors has been extensively studied. Atorvastatin, cerivastatin, lovastatin and simvastatin are predominantly metabolised by the CYP3A4 isozyme. Fluvastatin has several metabolic pathways which involve the CYP enzyme system. Pravastatin is not significantly metabolised by this enzyme and thus has theoretical advantage in combination therapy. The major interactions with HMG-CoA reductase inhibitors in combination therapy involving rhabdomyolysis include fibric acid derivatives, erythromycin, cyclosporin and fluconazole. Additional concern has been raised relative to overzealous lowering of cholesterol which could occur due to the potency of therapy with these agents. Currently, there is no evidence from clinical trials of an increase in cardiovascular or total mortality associated with potent low density lipoprotein reduction. However, a threshold effect had been inferred by retrospective analysis of the Cholesterol and Recurrent Events study utilising pravastatin and the role of aggressive lipid therapy is currently being addressed in several large scale trials.
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PMID:Comparative tolerability of the HMG-CoA reductase inhibitors. 1100 3

Unstable angina is a life-threatening disease. The overall incidence is estimated to be between 0.1 and 0.2% and, of those admitted to hospital, up to 5% die within the first six weeks. With such a high prevalence and poor prognosis, there is still a clear need for improved secondary preventive treatment. Several landmark statin trials (CARE, LIPID and 4-S) have now shown the benefits of lowering cholesterol, starting months after an acute coronary event, and several smaller studies (such as L-CAD, PTT and RECIFE) have demonstrated the clinical benefits of very early statin treatment. Recent research suggests the underlying cause of the disease, atherosclerosis, is a dynamic and potentially reversible process. Statins may tip this balance in favour of resolution by cholesterol lowering and through pleiotropic effects independent of lipid lowering. Pravastatin, when given very early in the clinical course, has already been shown to improve both plaque stability and endothelial function, as well as clinical outcome, suggesting it as the drug of choice in early secondary prevention.
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PMID:Unstable angina--a definitive role for statins in secondary prevention. 1109 12

CS-866 is a new angiotensin II receptor blocker that has demonstrated effectiveness for lowering blood pressure in animal models of hypertension. Given the proposed involvement of the renin-angiotensin system in diabetic nephropathy and atherosclerosis, we have tested CS-866 in animal models of these conditions. The renal protective properties of CS-866 were examined in the Zucker diabetic fatty (ZDF) rat, a model of type 2 diabetes that develops progressive hyperglycemia, glomerulosclerosis, and proteinuria. Treatment of ZDF rats with CS-866 in the diet for 19 weeks resulted in a dose-dependent reduction in urinary protein excretion compared with vehicle-treated control rats, which was independent of changes in blood pressure and glycemic state. The antiatherosclerotic properties of CS-866 were tested in 2 animal models. In the first study, cynomolgus monkeys were fed a high-cholesterol diet for 6 months while receiving CS-866 or vehicle. At the end of this period, CS-866-treated animals had 64% less plaque area in the aorta than controls. CS-866 was also tested in the Watanabe heritable hyperlipidemic (WHHL) rabbit model of atherosclerosis. WHHL rabbits were treated for 32 weeks with CS-866 (1 mg/kg), pravastatin (50 mg/kg), a combination of the 2 drugs, or vehicle. CS-866 had no effect on plasma cholesterol levels and reduced blood pressures minimally. Pravastatin alone reduced serum cholesterol but had no effect on blood pressure or lesion area. In contrast, treatment with CS-866 resulted in a 40% reduction in lesion area compared with vehicle-treated control when given alone and a 50% reduction in combination with pravastatin. On the basis of results from animal models, CS-866 may be a useful treatment for diabetic nephropathy and atherosclerosis.
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PMID:New pharmacologic aspects of CS-866, the newest angiotensin II receptor antagonist. 1133 66

We examined the relationship between plaque vulnerability and fibromuscular cap composition using hydrophilic pravastatin and lipophilic fluvastatin. WHHL rabbits aged 10 months were given pravastatin (50 mg/kg) or fluvastatin (20 mg/kg) for 52 weeks. The atherosclerotic lesions were immunohistochemically or conventionally stained and the components were analyzed with a color image analyzer. Compared with the control group, the plasma cholesterol levels were decreased by about 25% in both statin groups. Pravastatin decreased the lipid components (macrophages+extracellular lipids) in whole aortic plaques by 34% and the fibrous caps of coronary plaques by 55%. Fluvastatin decreased the fibromuscular components (smooth muscle cells+collagen fibers) in whole aortic plaques and in the fibromuscular caps of the aortic and coronary plaques. In the pravastatin group, the vulnerability index, the ratio of (lipid components)/(fibromuscular components), was decreased in whole aortic plaques by 28% and in the fibromuscular caps of coronary lesions by 61%, while the indexes were increased in the fluvastatin group. The incidence of vulnerable plaques was decreased by 74% in the coronary plaques of the pravastatin group. Our results suggest that the stability of atheromatous plaques was improved due to a decrease of the lipid components and vulnerability index of the fibromuscular cap by pravastatin.
Atherosclerosis 2001 Jul
PMID:Fibromuscular cap composition is important for the stability of established atherosclerotic plaques in mature WHHL rabbits treated with statins. 1142 6

Pravastatin is useful in restoring endothelium-dependent relaxation in hypercholesterolemic animals. A single intravenous bolus injection of N(omega)-nitro-L-arginine methyl ester (L-NAME), a non-specific inhibitor of NO synthase, causes myocardial necrosis and reduces coronary flow in rats. Since rats do not develop hypercholesterolemia and atherosclerosis, we have tested the hypothesis that pravastatin protects the heart from myocardial lesions induced by L-NAME in the absence of alterations in cholesterol levels and plaque formation. Male Wistar rats fed standard chow were divided into four groups: CONTROL (n=14) - rats that received tap water alone for 18 days; L-NAME (n=14) -- rats that received L-NAME (15 mg/kg, i.v.) on the 14th day of the study; PRAVASTATIN (n=11) -- rats that received pravastatin (6 mg/kg/day) in their drinking water for 18 days; PRAVASTATIN+L-NAME (n=12) -- rats that received pravastatin (6 mg/kg/day) and L-NAME (15 mg/kg, i.v.) as indicated in the preceding groups. At the end of 18 days, the rats were sacrificed and the hearts removed for stereological analysis by light microscopy. Plasma nitrate/nitrite and thromboxane B(2) concentrations were determined immediately before and after L-NAME administration. Pravastatin prevented the ischemic lesions induced by the acute inhibition of NO biosynthesis (the area of myocardial lesions in the L-NAME group was greater than in the Pravastatin+L-NAME group: 101.6 microm(2) vs. 1.2 microm(2), respectively; P<0.0001) and markedly increased the plasma nitrate/nitrate concentrations, even before L-NAME administration. There were no significant changes in the plasma thromboxane B(2) concentrations.
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PMID:Pravastatin reduces myocardial lesions induced by acute inhibition of nitric oxide biosynthesis in normocholesterolemic rats. 1146 44

1. 3-Hydroxy-3-methylglutaryl co-enzyme A reductase inhibitors (statins) prevent the progression of atherosclerosis by lowering cholesterol. However, the effect of statins on the synthesis of pro-inflammatory cytokines from endothelial cells has not yet been fully investigated. Here, we examined the effect of pravastatin, one of the statins, on IL-8 synthesis induced by thrombin in human aortic endothelial cells (AoEC) cultured with high glucose concentrations. 2. Pravastatin significantly decreased the IL-8 synthesis induced by thrombin. 3. Pravastatin inhibited the p44/42 MAP kinase activity induced by thrombin, but did not inhibit the p38 MAP kinase activity. 4. Translocation of ras protein from the cytosol to plasma membrane was inhibited by pravastatin. 5. Pravastatin inhibit the activator protein-1 activity, but did not inhibit the activation of IkappaB-alpha. 6. Dominant negative ras inhibited the p44/42 MAP kinase activity induced by PMA. 7. Our results suggest that pravastatin inhibits IL-8 synthesis by blocking the ras-MAP (p44/42) kinase pathway rather than nuclear factor-kappaB. Pravastatin may prevent atherosclerosis not only by lowering cholesterol levels, but also by suppressing IL-8 synthesis in AoEC through the inhibition of p44/42 MAP kinase, and this may be more beneficial in diabetic patients than in non-diabetics.
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PMID:Pravastatin suppresses the interleukin-8 production induced by thrombin in human aortic endothelial cells cultured with high glucose by inhibiting the p44/42 mitogen activated protein kinase. 1160 15

Lipoprotein subclass analyses may facilitate coronary heart disease (CHD) risk stratification and provide insight into the cardioprotective benefits of statins (3-hydroxymethylglutaryl-coenzyme A reductase inhibitors). This study evaluated the influence of pravastatin on lipoprotein subclass profiles to determine whether subjects with predominantly large LDL (LDL size >20.5 nm) or small LDL (LDL size < or =20.5 nm) at baseline differ in responsiveness to drug treatment. Frozen plasma specimens were analyzed from a subset of participants in the Pravastatin Limitation of Atherosclerosis in the Coronaries (PLAC-I) trial at baseline and after treatment for 6 months with pravastatin (n=154) or placebo (n=138). Lipids were measured by standard chemical methods and lipoprotein subclasses by nuclear magnetic resonance (NMR) spectroscopy. Pravastatin-induced changes in lipid levels were similar in subjects with large or small LDL at baseline. Levels of the most abundant LDL subclass were preferentially lowered by pravastatin, resulting in an increase in average LDL size for those with a predominance of small LDL. High-risk CHD subjects with small LDL particles gain at least as much pharmacological benefit from pravastatin as those with large LDL, as evidenced by reductions in the numbers of total and small LDL particles, and increases in average LDL and HDL particle size.
Atherosclerosis 2002 Jan
PMID:Effects of pravastatin treatment on lipoprotein subclass profiles and particle size in the PLAC-I trial. 1175 21

Pravastatin is a potent inhibitor of HMG-CoA reductase and is effective in lowering serum lipid levels. Recent studies have shown that pravastatin also reduces oxidative modification of LDL and decreases albuminuria in patients with diabetes. To determine the possible benefit of pravastatin on the diabetic kidney, we have measured the effects of pravastatin on the proliferation and the production of superoxide and fibronectin, and the expression of fibronectin mRNA of glomerular mesangial cells stimulated by oxidized-LDL and high glucose. Our results demonstrated that the [(3)H]-labeled thymidine uptake of mesangial cells decreased after oxidized-LDL stimulation (50 microg/ml, 6 h) and increased after high glucose stimulation (25 mM, 48 h). The production of superoxide and fibronectin and the expression of fibronectin mRNA of glomerular mesangial cells were all significantly increased after stimulation with either oxidized-LDL or high glucose, or the combination of oxidized-LDL and high glucose. Pravastatin (100 microM, 48 h) alone had no effect on unstimulated cells. However, pravastatin significantly reversed thymidine uptake, inhibited the production of superoxide and fibronectin, and inhibited the expression of fibronectin mRNA of glomerular mesangial cells after stimulation with either oxidized-LDL or high glucose. Our results indicate that pravastatin may effect as an antioxidant and may suppress fibronectin synthesis of glomerular mesangial cells in diabetic patients with hyperlipidemia.
Atherosclerosis 2002 Jan
PMID:Pravastatin suppress superoxide and fibronectin production of glomerular mesangial cells induced by oxidized-LDL and high glucose. 1175 31

Improvement of endothelial function in hypercholesterolaemia is attributed to lipid lowering and to pleiotropic effects of statin therapy. We investigated whether responsiveness to inhibition of constitutive NO formation with N-monomethyl-L-arginine (L-NMMA) is improved after 7 and 28 days of pravastatin. Twelve female and four male subjects with mild or moderate primary hypercholesterolaemia were randomized to pravastatin (20 mg per oral (p.o.) n=8) or placebo (n=8) in a double blind parallel group design. Vascular responsiveness was studied by intravenous bolus infusions of L-NMMA (cumulative doses of 3 and 6 mg/kg). Mean arterial blood pressure (MAP) and pulse rate (PR) were measured noninvasively, pulsatile choroidal blood flow was assessed with laser interferometric measurement of fundus pulsation amplitudes (FPA) and renal plasma flow (RPF) was measured by the PAH clearance method. Pravastatin lowered plasma cholesterol levels by 16 and 24% after 7 and 28 days of treatment, respectively (P<0.01). L-NMMA caused comparable changes in MAP, PR and RPF between groups. L-NMMA reduced FPA to a similar extent in both groups before and after 7 days of treatment, but the response to L-NMMA was significantly enhanced after 28 days of pravastatin (21%; P<0.001 vs baseline) and greater than after placebo (15%; P<0.01 vs pravastatin). Pravastatin enhances responsiveness to L-NMMA in the ocular microvasculature. Improved responsiveness is associated with changes in total cholesterol levels.
Atherosclerosis 2002 Jan
PMID:Effect of pravastatin on responsiveness to N-monomethyl-L-arginine in patients with hypercholesterolaemia. 1175 36

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