UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
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The chemistry, pharmacology, pharmacokinetics, clinical trials, adverse effects, role in lipid-lowering therapy, and dosage and administration of pravastatin are reviewed. Pravastatin sodium is a new 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitor for the treatment of hypercholesterolemia. Its structural formula is similar to those of lovastatin and simvastatin, but it is active in the parent form. It competitively inhibits HMG-CoA reductase, reduces hepatic cellular cholesterol synthesis, increases the expression of hepatic low-density lipoprotein (LDL) receptors, and reduces hepatic very low-density lipoprotein (VLDL) synthesis. Pravastatin has been demonstrated to reduce cholesterol in patients with familial and nonfamilial polygenic hypercholesterolemia and patients with diabetes mellitus. In doses of 10-40 mg/day, pravastatin has been shown to reduce total cholesterol by 15-30% and LDL cholesterol by 15-40%. It also increases high-density lipoprotein cholesterol by 2-20% and reduces triglycerides. It is generally well tolerated, with few adverse effects reported in clinical trials. Pravastatin reduces LDL cholesterol and increases HDL cholesterol comparably to lovastatin but possibly with fewer adverse effects. Further studies and clinical use will be needed to confirm potential differences in adverse effect profiles between the two drugs.
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PMID:Pravastatin: a new drug for the treatment of hypercholesterolemia. 845 77

Diabetes mellitus is associated with hyperlipidemia and increased risk of atherosclerosis. A diabetic animal model has been developed to study the effect of treatment with pravastatin, a potent HMG CoA reductase inhibitor, on plasma lipoprotein levels. Hypercholesterolemia was induced in alloxan diabetic and control rabbits by feeding a diet containing 25% casein and 10% hydrogenated coconut oil for 8 weeks. Feeding the casein-coconut oil diet to the diabetic group resulted in a 5-fold increase in serum cholesterol levels, which was not statistically different from the nondiabetic group fed this diet. However, in the diabetic group, there was more cholesterol in the VLDL fraction and less in LDL as compared to the nondiabetic group. Serum triacylglycerol levels in the diabetic rabbits were variable and ranged from 58-943 mg/dl. The diabetic and nondiabetic animals were then treated with pravastatin at a dose of 10 mg/kg per day for 21 days. In the nondiabetic group, pravastatin treatment significantly lowered serum and LDL cholesterol concentrations by 28.5% (52.3 mg/dl, P less than 0.05) and 36.2% (40.7 mg/dl, P less than 0.05) respectively, relative to the placebo group. Serum and VLDL triacylglycerol levels in the nondiabetic group were also significantly decreased following pravastatin treatment. In the diabetic group, serum and LDL cholesterol levels were decreased by 37.0% (69.1 mg/dl, P less than 0.05) and 52.7% (32.1 mg/dl, P less than 0.01), respectively, relative to the diabetics given the placebo. Pravastatin treatment did not adversely affect serum glucose levels. Thus, pravastatin treatment was effective in controlling the hypercholesterolemia present in these diabetic animals.
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PMID:The effect of pravastatin on serum cholesterol levels in hypercholesterolemic diabetic rabbits. 190 19

Pravastatin, a novel inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase, was administered to nine hypercholesterolemic patients with diabetes mellitus to examine its effects on diabetic nephropathy. Pravastatin treatment resulted in lowering serum total cholesterol by 22.1% on the average (p less than 0.001), and led to a significant reduction in urinary excretion of albumin and beta 2-microglobulin in patients with an elevated urinary protein excretion rate at the baseline period. But glycemic control, blood pressure, urinary excretion of creatinine and that of N-acetyl-beta-D-glucosaminidase showed no significant change during the study. These results suggest that reduction of atherogenic lipids and lipoproteins with pravastatin could alleviate diabetic glomerular injury.
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PMID:Amelioration of proteinuria with pravastatin in hypercholesterolemic patients with diabetes mellitus. 212 49

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.
Diabetes Res Clin Pract 1995 Jan
PMID:Long-term efficacy and tolerability of pravastatin in hypercholesterolemia in patients with non-insulin-dependent diabetes mellitus. Hyogo Pravastatin Study Group. 778 95

Effectiveness of a simultaneous inhibition of cholesterol absorption and synthesis, caused by sitostanol ester margarine and pravastatin, was studied to control mild hypercholesterolemia in men with non-insulin-dependent diabetes mellitus (NIDDM) (n = 8). Margarine, 24 g daily, was a basal dietary treatment. Four 7-week intervention periods included margarine, sitostanol (3 g/day) ester margarine, pravastatin (40 mg/day), and sitostanol ester margarine plus pravastatin in a random order. Pravastatin lowered serum total (-32%) and LDL cholesterol (-38%) and apolipoprotein B (-39%) because of enhanced removal (+20%) and decreased production (-26%) of LDL apolipoprotein B, and reduced synthesis (-9%) and turnover (-8%) of cholesterol, which resulted in reduced biliary cholesterol seretion (-18%). Even though serum triglycerides were lowered by 28%, VLDL, IDL, and light and dense LDL became triglyceride-enriched. Despite increasing cholesterol synthesis, sitostanol lowered LDL cholesterol (-14%) by inhibiting cholesterol absorption (-68%) and LDL apolipoprotein B production rate (-20%). Combination of pravastatin and sitostanol ester lowered serum total, VLDL, IDL, and LDL cholesterol and LDL apolipoprotein B by the highest rate, 35%, 50%, 35%, 44%, and 45% from the control margarine period, respectively, because of reduced apolipoprotein B transport rate (but unchanged removal), in both the total and dense LDL subfractions. HDL cholesterol and apolipoprotein A-I kinetics were unchanged. In spite of decreased absorption, cholesterol synthesis was not compensatorily increased. In conclusion, simultaneous inhibition of cholesterol absorption and synthesis lowers LDL cholesterol and apolipoprotein B by 44-45% solely through inhibition of LDL apolipoprotein B production rate in hypercholesterolemic NIDDM patients. A combination of statin to sitostanol ester margarine-resistant patients offers a safe and effective measure to normalize abnormally high cholesterol values, probably with a lowered statin dose.
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PMID:Effects of inhibiting cholesterol absorption and synthesis on cholesterol and lipoprotein metabolism in hypercholesterolemic non-insulin-dependent diabetic men. 886 62

Pravastatin is an HMG-CoA reductase inhibitor which lowers plasma cholesterol levels by inhibiting de novo cholesterol synthesis. Pravastatin produces consistent dose-dependent reductions in both total and low density lipoprotein (LDL)-cholesterol levels in patients with primary hypercholesterolaemia. Favourable changes in other parameters such as total triglyceride and high density lipoprotein (HDL)-cholesterol levels are generally modest. Combination therapy with other antihyperlipidaemic agents such as cholestyramine further enhances the efficacy of pravastatin in patients with severe dyslipidaemias. Available data suggest that pravastatin is effective in elderly patients and in patients with hypercholesterolaemia secondary to diabetes mellitus or renal disease. The benefit of cholesterol-lowering in terms of patient outcomes is currently an area of considerable interest. Recently completed regression studies (PLAC I, PLAC II, KAPS and REGRESS) show that pravastatin slows progression of atherosclerosis and lowers the incidence of coronary events in patients with mild to moderately severe hypercholesterolaemia and known coronary heart disease. Large scale primary (WOSCOPS) and secondary (CARE) prevention studies, moreover, demonstrate that pravastatin has beneficial effects on coronary morbidity and mortality. In WOSCOPS, all-cause mortality was reduced by 22%. Pravastatin is generally well tolerated by most patients (including the elderly), as evidenced by data from studies of up to 5 years in duration. As with other HMG-CoA reductase inhibitors, myopathy occurs rarely (< 0.1% of patients treated with pravastatin): approximately 1 to 2% of patients may present with raised serum levels of hepatic transaminases. Thus, with its favourable effects on cardiovascular morbidity/mortality and total mortality, pravastatin should be considered a first-line agent in patients with elevated cholesterol levels, multiple risk factors or coronary heart disease who are at high risk of cardiovascular morbidity.
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PMID:Pravastatin. A reappraisal of its pharmacological properties and clinical effectiveness in the management of coronary heart disease. 902 47

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

Patients with diabetes mellitus (DM), type 1 and type 2, have an increased risk of coronary heart disease as a result of accelerated atherosclerosis. Dyslipidemia, often found in these patients, plays an important role in this process. This study investigates the efficacy and safety of lipid-lowering therapy with pravastatin, a 3-HMG-Coenzym A reductase inhibitor in hypercholesterolemic type-1 and type-2 diabetic patients. Of 49 patients (22 type-1 DM and 27 type-2 DM), 24 patients were treated with pravastatin, 20 mg/day, and 25 patients with placebo. After 24 weeks, total cholesterol (TC) was decreased by 22.2%, low-density lipoprotein (LDL) cholesterol by 25.8% and triglycerides (TG) by 13.6%. Pravastatin treatment did not induce a significant change in high-density (HDL) cholesterol levels. No differences in effects of pravastatin treatment on serum lipids and lipoproteins were found with respect to the diabetes type. No serious side effects occurred and pravastatin treatment did not cause any deterioration in glycemia control. The data suggest that pravastatin is effective and safe in the treatment of dyslipidemia in both type-1 and type-2 diabetic patients.
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PMID:Pravastatin in diabetes-associated hypercholesterolemia. 945 75

Cardiovascular disease is the leading cause of death and the leading source of healthcare expenditure in the US and most other industrialised countries. Cholesterol lowering by pharmacological means prevents atherosclerotic plaque progression and has been shown to reduce both fatal and nonfatal coronary events in patients with or without coronary artery disease (CAD). Because of their excellent efficacy and safety profiles, the introduction of 3-hydroxy-3-methyl-glutaryl coenzyme A (HMG-CoA) reductase inhibitors (also known an 'statins') in 1987 raised hopes for demonstrating the survival benefit of cholesterol reduction. In the past decade, several large-scale placebo-controlled trials with statin therapy have revisited the relationship between cholesterol reduction, cardiovascular disease and mortality. The West of Scotland Coronary Prevention Study (WOSCOPS) [pravastatin] and the Air Force/Texas Coronary Atherosclerosis Prevention Study (AFCAPS/TexCAPS) [lovastatin] have shown significant cardiovascular disease reduction in primary prevention trials of patients with elevated and normal cholesterol levels, respectively. The Scandinavian Simvastatin Survival Study (4S), the Long-Term Intervention with Pravastatin in Ischaemic Disease (LIPID) Study and the Cholesterol and Recurrent Events (CARE) trial [pravastatin] have shown significant cardiovascular disease reduction in patients with a previous history of CAD with high, moderate and normal cholesterol levels, respectively. Three of these studies (4S, WOSCOPS and LIPID) have shown significant reduction in all-cause mortality, while all the statin secondary prevention trials (4S, CARE and LIPID) have demonstrated significant reduction in cerebrovascular disease/ Earlier cholesterol reduction cost-effectiveness studies with nonstatin treatments (bile acid resins, fibrates, niacin and diet) suggested that only patients at extremely high risk could be treated with lipid therapy in a cost-effective manner. More recently, rigorous outcomes evidence demonstrates that statins, particularly for simvastatin for secondary prevention and lovastatin for primary prevention, have a broadly favourable cost-effectiveness profile. Based on US medical price levels and the available clinical trial data on statins, it would be cost effective [e.g. cost less than $US50,000/year of life saved] to intervene with statin therapy in any patient with an annual CAD risk exceeding 1%. This includes all patients with pre-existing CAD or diabetes mellitus, and many more primary prevention patients than are currently contemplated by the US National Cholesterol Education Panel treatment guidelines. Achieving such a goal will require enormous changes in patient education, clinical perspective, healthcare practice and healthcare finances. But any proven opportunity for saving the lives of 25% of those dying from cardiovascular disease each year deserves to be considered with the utmost seriousness and urgency.
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PMID:Pharmacoeconomics of lipid-lowering agents for primary and secondary prevention of coronary artery disease. 1034 58

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