UMLS:C0020538 - FACTA Search

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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Prospective Pravastatin Pooling (PPP) project is a pooled evaluation of 3 large, placebo-controlled, randomized trials of cholesterol-lowering treatment with pravastatin. It is designed to more reliably evaluate the effect of treatment on coronary and all-cause mortality and on total coronary artery disease (CAD) events for specific populations of interest, including women and the elderly. The trials--Long-Term Intervention With Pravastatin in Ischemic Disease trial, the Cholesterol and Recurrent Events trial, and the West of Scotland Coronary Prevention Study--each have common design features, including drug, dose, and duration. The project prospectively defines the objectives, end points, and analytic plans in a protocol developed before results are known of any individual trial. More than 2,000 (or 10%) of the participants in the pooled data set are women, 1,841 are aged > or = 70 years at trial entry, and > 6,000 have a total cholesterol < 5.5 mmol/L (213 mg/dl). The mean low-density lipoprotein cholesterol level is 4.2 mmol/L (162 mg/dl). The mean blood pressure level is 134/81 mm Hg and 20% are current smokers. Half of the PPP participants have had a prior myocardial infarction. More than 7% have a history of diabetes and 26% have a history of hypertension. PPP is projected to have data on about 1,100 CAD deaths, 500 non-CAD deaths, and > 1,000 cancers by study completion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Design, rational, and baseline characteristics of the Prospective Pravastatin Pooling (PPP) project--a combined analysis of three large-scale randomized trials: Long-term Intervention with Pravastatin in Ischemic Disease (LIPID), Cholesterol and Recurrent Events (CARE), and West of Scotland Coronary Prevention Study (WOSCOPS). 748 29

This study reports the result of a 12-month, open-label multicenter study of the efficacy and tolerability of pravastatin in the management of hypercholesterolemia associated with non-insulin-dependent diabetes mellitus. Pravastatin produced a decrease, in 138 diabetic and 51 non-diabetic patients, in total serum cholesterol by 19 and 20%, in low-density lipoprotein (LDL) cholesterol by 25 and 29%, in apolipoprotein B by 15 and 19% and in triglycerides by 8 and 5%, respectively. High-density lipoprotein cholesterol levels were increased by 9% in both groups. All of these changes were significant (P < 0.001) except for triglycerides changes in non-diabetic patients, where the change was not significant and no significant differences were observed between the two groups. These favorable effects on LDL cholesterol and apolipoprotein B were not influenced by gender, the type of diabetic therapy, baseline hemoglobin A1c levels and by the presence of hypertension or gross proteinuria, although a decrease in the two variables were less in those with body mass index > or = 26.4 kg/m2 or in those with age < 60 years. Adverse experiences were similar between treatment groups and the drug was well tolerated. Only one diabetic patient was withdrawn from the study because of pruritus. Pravastatin produced no change in fasting plasma glucose concentrations and hemoglobin A1c levels in diabetic patients throughout the study. Pravastatin was generally effective in improving the serum lipids of hypercholesterolemic diabetic patients.
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PMID:Long-term efficacy and tolerability of pravastatin in hypercholesterolemia in patients with non-insulin-dependent diabetes mellitus. Hyogo Pravastatin Study Group. 778 95

Monumental advances in the field of lipid metabolism and its relationship to atherosclerotic cardiovascular disease have been achieved during the last half century. Epidemiologic studies have defined lipid disorders as highly significant independent risk factors for coronary heart disease, along with diabetes mellitus, hypertension and smoking. Primary and secondary prevention studies including the Coronary Primary Prevention Trial, Helsinki Heart Study, and the Coronary Drug Project have shown that lowering the atherogenic low density lipoproteins (LDL) and very low density lipoproteins (VLDL) whilst raising the high density lipoproteins (HDL) significantly decreases the risk for coronary disease. Striking evidence that aggressive therapy (to sharply lower LDL and raise HDL with newer drugs) prevents progression and induces regression of coronary narrowing has been obtained in numerous recent studies using quantitative coronary arteriography. An interesting and unexpected lesson learned from these arteriographic studies was that a highly significant reduction within months in several studies in coronary events was out of proportion to improvements in luminal narrowing. Recently, three major clinical trials to assess the effects of cholesterol reduction by the newly discovered HMG CoA reductase inhibitors (statins) have been published. Pravastatin significantly reduced coronary events in hypercholesterolemic patients [mean LDL-Chol. = 5.0 mM/L (192 mg/dl)] without a history of myocardial infarction. In a secondary prevention study, simvastatin also reduced coronary complications in hypercholesterolemic patients [mean LDL-Chol. = 4.9 mM/L (190 mg/dl)] with pre-existing coronary disease. Very recently, pravastatin treatment significantly reduced coronary events and stroke in patients with a history of myocardial infarction and average cholesterol levels [mean LDL-Chol. = 3.6 mM/L (139 mg/dl)], representing the majority of patients with coronary disease. In all these studies, reduction in cardiovascular events was approximately one-third. In subgroup analyses, men, women, elderly, smokers and hypertensives benefited from cholesterol lowering. There was no significant increase in non-cardiovascular causes of death. In the United States of America, the National Cholesterol Education Program (NCEP) Adult Treatment Panel, representing major health organizations, developed national guidelines on the detection, evaluation and treatment of high blood cholesterol in adults. In a given patient, the Panel recognizes the importance of weighing all cardiovascular disease risk factors including age (men > 45 years, postmenopausal women), family history of premature coronary disease, smoking, hypertension, diabetes and HDL-Cholesterol (< 35 mg/dl) in determining how aggressive therapy should be. The patient with manifest coronary heart disease (CHD) is given a special position as such patients are at highest risk for recurrent events. Major goals of therapy are to lower the LDL-Cholesterol to 2.6 mM/L (< 100 mg/dl) in the CHD patient. In non-CHD patients with two or more risk factors, the LDL-Cholesterol goal is 3.4 mM/L (130 mg/dl). In those with fewer risk factors, the goal is 4.2 mM/L (160 mg/dl). These guidelines should be modified as appropriate for Singapore. Patients with elevated triglycerides usually have low HDL-Cholesterol levels and often represent a heterogeneous group who may have other concurrent abnormalities including the presence of small dense LDL, insulin resistance, hypertension, obesity, overt diabetes and combined hyperlipidemia. Such patients merit individualized treatment. The prevalence of this syndrome may be more common in Singapore and requires further investigation. Current therapeutic guidelines emphasize the need for weight loss and dietary restriction of total and especially saturated fat (< 7% to 10% total calories), cholesterol (< 200 to 300 mg/day), and exercise. (ABSTRACT TRUNCATED)
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PMID:Cholesterol and atherosclerosis: a contemporary perspective. 939 24

Certain hydroxymethylglutaryl coenzyme A reductase inhibitors, ie, statins, may cause vasodilation by restoring the endothelial dysfunction that frequently accompanies hypertension and hypercholesterolemia. Several studies have found that a blood pressure reduction is associated with the use of statins, but conclusive evidence from controlled trials is lacking. After an 8-week placebo and diet run-in period, 30 persons with moderate hypercholesterolemia and untreated hypertension (total cholesterol 6.29+/-0.52 mmol/L, systolic and diastolic blood pressure 149+/-6 and 97+/-2 mm Hg) were randomized in a double-blind manner to placebo or pravastatin (20 to 40 mg/d) in a crossover design. In 25 participants who completed the 32-week trial, pravastatin decreased total and LDL cholesterol (both -1.09 mmol/L, P=0.001), systolic and diastolic blood pressure (-8 and -5 mm Hg, both P=0.001), and pulse pressure (-3 mm Hg, P=0.011) and blunted the blood pressure increase caused by the cold pressor test (-4 mm Hg, P=0.005) compared with placebo. It also reduced the level of circulating endothelin-1 (P=0.001). The blood pressure results were virtually unchanged in stratified analyses according to gender and age and in intention-to-treat analyses that included the 5 patients who dropped out of the study. When the participants were taking either placebo or pravastatin, blood pressure was not significantly correlated with total or LDL cholesterol or with circulating endothelin-1. Pravastatin decreases systolic, diastolic, and pulse pressures in persons with moderate hypercholesterolemia and hypertension. This antihypertensive effect may contribute to the documented health benefits of certain statins.
Hypertension 1999 Dec
PMID:Effect of the HMG-CoA reductase inhibitors on blood pressure in patients with essential hypertension and primary hypercholesterolemia. 1098 83

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

BACKGROUND: PROSPER was designed to investigate the benefits of treatment with pravastatin in elderly patients for whom a typical doctor might consider the prescription of statin therapy to be a realistic option. METHODS: The PROspective Study of Pravastatin in the Elderly at Risk (PROSPER) is a randomised, double blind, placebo-controlled trial to test the hypothesis that treatment with pravastatin (40 mg/day) will reduce the risk of coronary heart disease death, non-fatal myocardial infarction, and fatal or non-fatal stroke in elderly men and women with pre-existing vascular disease or with significant risk of developing this condition. RESULTS: In Scotland, Ireland, and the Netherlands, 23,770 individuals were screened, and 5,804 subjects (2,804 men and 3,000 women), aged 70 to 82 years (average 75 years) and with baseline cholesterol 4.0-9.0 mmol/l, were randomised. Randomised subjects had similar distributions with respect to age, blood pressure, and body mass index when compared to the entire group of screenees, but had a higher prevalence of smoking, diabetes, hypertension, and a history of vascular disease. The average total cholesterol level at baseline was 5.4 mmol/l (men) and 6.0 mmol/l (women). CONCLUSIONS: Compared with previous prevention trials of cholesterol-lowering drugs, the PROSPER cohort is significantly older and for the first time includes a majority of women. The study, having achieved its initial goal of recruiting more than 5,500 elderly high-risk men and women, aims to complete all final subject follow-up visits in the first half of 2002 with the main results being available in the fourth quarter of 2002.
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PMID:A Prospective Study of Pravastatin in the Elderly at Risk (PROSPER): Screening Experience and Baseline Characteristics. 1209 48

Proteinuria is an important risk factor for cardiovascular and renal morbidity and mortality. The effects of 3-hydroxy-3-methyglutaryl coenzyme A reductase inhibitor (statin) therapy on proteinuria in normolipidemic patients with well-controlled hypertension have not been studied. A total of 63 normolipidemic (total cholesterol <240 mg/dL) and proteinuric (300 to 3000 mg/d) patients with well-controlled blood pressure (<140/90 mm Hg) were randomized to receive either placebo (n=32) or pravastatin (10 mg/d; n=31) after a 3-month placebo period. Pravastatin lowered proteinuria after 6 months by 54% (P<0.0001). Creatinine clearance was stable throughout the study in the 2 groups. Despite unchanged plasma endothelin-1 levels throughout the study, urinary excretion of the peptide was decreased and significantly correlated with improvement in urinary protein excretion in pravastatin-treated patients (r=0.64, P=0.001). The urinary excretion of retinol-binding protein decreased after pravastatin administration, probably reflecting an improvement in tubular function. In contrast, the urinary excretion of IgG did not change significantly throughout the study in either group. Multivariate analysis revealed that proteinuria was only significantly correlated with statin use (P<0.0001, R2= 0.66). Linear regression analysis in the statin-treated group did not show any correlation between changes in lipid profiles and proteinuria regression. Thus, in addition to their primary function of antilipidemia, the addition of pravastatin to treatment for well-controlled hypertension may have an additive effect on reducing proteinuria independent of hemodynamics and lipid-lowering effects, possibly through inhibiting renal endothelin-1 synthesis and improving tubular function.
Hypertension 2002 Jul
PMID:Effect of pravastatin on proteinuria in patients with well-controlled hypertension. 1210 40

Advanced pulmonary arterial hypertension is characterized by extensive vascular remodeling that is usually resistant to vasodilator therapy. Mevastatin is an inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase, the rate-limiting step for cholesterol synthesis. HMG-CoA reductase inhibitors have been shown to upregulate the cyclin-dependent kinase inhibitor p27Kip1 and to block cell proliferation through cholesterol-independent pathways. The aim of this study was to determine the effect of mevastatin on DNA synthesis, cell cycle progression, and cell proliferation in rat pulmonary artery smooth muscle cells (PASMCs). We found that mevastatin induced G1 arrest and decreased DNA synthesis in rat PASMCs and did so in association with an increase in both total and cyclin E-bound p27Kip1. This caused a marked decrease in cyclin E kinase activity, which suggests an important role for p27Kip1 in the ability of mevastatin to induce G1 arrest. However, in PASMCs lacking functional p27Kip1, mevastatin still decreased cyclin E kinase activity, caused G1 arrest, and decreased DNA synthesis. In p27Kip1-deficient PASMCs, mevastatin induced a greater reduction of cyclin E protein levels (to 35% of control) than in wild-type cells (to 70% of control) and also reduced the phosphorylation of cdk2 on threonine 160. Mevastatin also caused apoptosis in both wild-type and p27Kip1-deficient PASMCs and was able to do so at a dose that did not induce cell cycle arrest. These data suggest that HMG-CoA reductase inhibitors can both inhibit cell proliferation and induce apoptosis in PASMCs through p27Kip1-independent pathways and may be important therapeutic agents in pulmonary arterial hypertension.
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PMID:Mevastatin can cause G1 arrest and induce apoptosis in pulmonary artery smooth muscle cells through a p27Kip1-independent pathway. 1260 Aug 84

The objective of the study was to evaluate the efficiency of lovastatin correction of dyslipidemia and impaired intravascular platelet activity (IPA) in patients with arterial hypertension (AH) concurrent with metabolic syndrome (MS). Eighteen patients were given lovastatin for a month. The time course of changes in anthropometric parameters, blood lipid spectrum, plasma and lipid peroxidation, antioxidative protectiveness of the liquid blood part and platelets, and IPA were assessed. The results were processed by Student's test and correlation analysis. Lovastin was ascertained to correct dyslipoproteinemia and peroxidation syndrome and to optimize the intrathrombocytic mechanisms responsible for their function regulation in patients with AH + MS. Lovastatin inhibits in vivo increased platelet activity. These effects may be stabilized during its use. Body weight loss and diminished insulin resistance in patients with AH concurrent MS require long use of lovastatin along with low-calorie diet and exercises.
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PMID:[Thrombocytic hemostasis in hypertensive patients with metabolic syndrome and its correction with lovastatin]. 1558 98

Experimental evidence and several small studies in humans suggest that HMG-CoA (3-hydroxy 3-methylglutaryl coenzyme A) reductase inhibitors (statins) reduce blood pressure, perhaps through effects on endothelial function or by reducing inflammation. We tested the hypothesis that pravastatin would reduce blood pressure at 3 months and the risk of developing new hypertension over a follow-up period of 5 years. This was a post hoc subgroup analysis of a randomized double-blind placebo-controlled trial of pravastatin 40 mg daily vs placebo in 4159 participants with previous myocardial infarction and total plasma cholesterol <240 mg/dl (6.2 mmol/l). The primary outcome was the unadjusted change in mean arterial pressure (MAP) from baseline to 3 months. We also considered systolic and diastolic blood pressure (SBP and DBP) and pulse pressure. Analysis of covariance was used to calculate the adjusted effect of treatment on change in these outcomes at 3, 6, 12 and 24 months postrandomization, after controlling for potential confounders. Logistic regression was used to calculate the adjusted effect of treatment on incident hypertension (blood pressure > or =140/90 in those without known hypertension at baseline). This analysis included 4126/4159 (99.2%) participants for whom blood pressure was measured at baseline and during at least one follow-up visit. Median duration of follow-up was 57.8 months. The unadjusted and adjusted change in MAP, SBP, DBP or pulse pressure from baseline was not significantly different for pravastatin or placebo recipients at 3, 6, 12 or 24 months after randomization, or at last follow-up. Pravastatin did not reduce the adjusted risk of incident systolic hypertension (odds ratio 0.99, 95% CI 0.80-1.23), or incident diastolic hypertension (odds ratio 0.97, 95% CI 0.73-1.27). In summary, pravastatin 40 mg daily did not reduce blood pressure in survivors of myocardial infarction without overt hypercholesterolaemia.
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PMID:Effect of pravastatin on blood pressure in people with cardiovascular disease. 1667 13

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