Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Our purpose was to assess the effect of apolipoprotein (apo) E and apo A-IV isoform variation on low density lipoprotein (LDL) cholesterol lowering response to the HMG CoA reductase inhibitor, pravastatin. Plasma samples were obtained from participants (apo E, n = 97; apo A-IV, n = 144) in the PLAC-I (Pravastatin Limitation of Atherosclerosis in Coronary Arteries Study-1). The mean LDL cholesterol reduction in these subjects who were randomized to pravastatin 40 mg/day was 28%. Subjects with the APOE*2 allele (n = 12) had significantly (P = 0.04) greater reductions at 36% than subjects homozygous for the APOE*3 allele (n = 66, 27%) or those with the APOE*4 allele (n = 19, 26%). No significant effect of apo A-IV phenotype on LDL cholesterol lowering in response to pravastatin was noted. A meta-analysis utilizing published data from 4 previously published studies as well as our own data with a total sample size of 625 subjects was carried out. This analysis indicates that the presence of the APOE*2 allele was associated with a significantly greater (P < 0.05) LDL-cholesterol lowering response at 37% than those subjects homozygous for the APOE*3 allele at 35%, while those with the APOE*4 allele had a significantly lower response (P < 0.05), at 33%. These data are consistent with the concept that apo E phenotype modulates the LDL cholesterol lowering response observed with the use of HMG CoA reductase inhibitors.
Atherosclerosis 1995 Mar
PMID:Effect of apolipoprotein E and A-IV phenotypes on the low density lipoprotein response to HMG CoA reductase inhibitor therapy. 760 54

Atherosclerotic lesion development was assessed in the thoracic aorta and chronically denuded iliac-femoral artery of hypercholesterolemic New Zealand White rabbits using inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase which have previously been shown to possess varying degrees of hepatoselectivity in rats. Atorvastatin, previously known as CI-981 (2.5 mg/kg), PD135022 (1.0 mg/kg), simvastatin (2.5 mg/kg), lovastatin (2.5 mg/kg), PD134965 (1.0 mg/kg), pravastatin (2.5 mg/kg) and BMY22089 (2.5 mg/kg) were added to a 0.5% cholesterol, 3% peanut, 3% coconut oil diet and fed for 8 weeks. Although reductions in plasma total cholesterol of 27% to 60%, VLDL-cholesterol of 31% to 71% and plasma total cholesterol exposure of 37% to 43% were obtained, no correlation between these parameters and vascular lipid content, lesion size or monocyte-macrophage content was noted. Iliac-femoral lipid content was unchanged; however, atorvastatin and simvastatin significantly reduced the cholesterol content of the thoracic aorta by 45%-62%. Atorvastatin and PD135022 reduced the size of the iliac-femoral lesion by 67% and monocyte-macrophage content by 72%. Simvastatin, lovastatin and PD134965 decreased the monocyte-macrophage content; however, lesion size was unchanged. Pravastatin and BMY22089 had no effect on lesion size or content. No compound significantly reduced the extent of thoracic aortic lesions. We concluded that changes in plasma lipids and lipoproteins noted with the various HMG-CoA reductase inhibitors did not account for the beneficial effect on atherosclerotic lesion development. The antiatherosclerotic potential of the HMG-CoA reductase inhibitors was compound-specific and clearly not a class effect.
Atherosclerosis 1994 Nov
PMID:Antiatherosclerotic activity of inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A reductase in cholesterol-fed rabbits: a biochemical and morphological evaluation. 784 Aug 8

The efficacy of pravastatin as reducing plasma cholesterol, LDL-CH and Apo B is widely proved. Other molecules within the Apolipoprotein family are recently emerging to have a predictive and/or causative role in atherosclerosis such as particularly Lp(a). The aim of this study was to evaluate the effects of pravastatin therapy in patients affected by primary hypoercholesterolemia on apoprotein and Lp(a) plasma levels. We investigated the effects of pravastatin on 15 patients, seven female and eight male patients, mean age 50.23 +/- 17.2 (range 21-71 years) with primary hypercholesterolemia, of which 7 patients affected by familial hypercholesterolemia and 8 patients by polygenic hypercholesterolemia, were selected. Five weeks after suspension of lipid-lowering drugs and on a normocaloric-fat diet, were given 20 mg pravastatin/day for 12 weeks. The following parameters were measured basally, on the 6th week and the 12th week on pravastatin therapy and after five weeks from drug withdrawal: cholesterol (CH), triglicerides (TG), high density and low density lipoprotein cholesterol (HDL-CH and LDH-CH) measured enzymatically, apoproteins A1, B, C2, C3, E measured radial immunodiffusion technique (RID) and Lp(a), measured as apoprotein(a) with immunoradiometric assay (RIA). Our data confirm pravastatin efficacy in decreasing CH (from 305.6 +/- 43.4 mg/dl to 266.2 +/- 47.7 mg/dl, p < 0.01) LDL-CH (from 223.9 +/- 56.4 mg/dl to 187.2 +/- 59.8 mg/dl, p < 0.01) and Apo B (from 170.4 +/- 27.5 to 152.4 +/- 25.2, p < 0.02); non influence was observed on HDL-CH and apoproteins A1, C2, E and Lp(a). Pravastatin determined a significant increase only on Apo C3 (from 8.35 +/- 2.7 to 10.3 +/- 3.1, p < 0.04). The above data confirm the beneficial effect of pravastatin in greatly decreasing CH and LDL-CH considered as major risk factors for coronary artery disease, but also point to a role of pravastatin in regulating the apoproteins equilibrium, an aspect that surely merits further studies.
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PMID:[Effects of pravastatin on serum lipids, apoproteins, and lipoprotein (a) in primary hypercholesterolemia]. 808 35

Epidemiologic evidence linking elevated cholesterol concentrations and coronary heart disease (CHD) through the eighth decade of life provides a rationale for lowering cholesterol concentrations to reduce morbidity and mortality from CHD. Pravastatin, a well tolerated HMG CoA reductase inhibitor with a convenient once-daily dosing regimen, has been shown to effectively lower total and low density lipoprotein (LDL) cholesterol. Individual data from more than 1800 hypercholesterolemic patients enrolled in six double-blind, randomized, multicenter studies were pooled and then analyzed to compare the safety and efficacy of pravastatin in the elderly (i.e., patients at least 65 years old) and the non-elderly. In short-term studies (8-16 weeks), response was dose-related and similar in elderly and non-elderly subjects. Pravastatin 20 or 40 mg daily lowered total cholesterol 19-25%, LDL-cholesterol 25-33%, and triglycerides 14-23%; high density lipoprotein (HDL) cholesterol increased 5-10%. During long-term studies, improvements were sustained for more than 24 months in both the non-elderly and elderly. The incidences of adverse drug events and laboratory abnormalities were similar in the elderly and non-elderly patients in all groups (active treatment control with resin, pravastatin alone, or combination therapy). In short-term studies, treatment was discontinued because of adverse events in < 1% of all patients treated with pravastatin (all doses) or placebo. The frequency and profile of adverse events were similar among patients treated with pravastatin or placebo. In long-term studies, treatment was discontinued in 0.4% of patients in the pravastatin group and in 0.3% of the patients in the bile-acid-binding resin group. If drug therapy is warranted, pravastatin appears to be safe and effective for long-term use in elderly patients with hypercholesterolemia.
Atherosclerosis 1993 Jun
PMID:Pravastatin experience in elderly and non-elderly patients. 821 7

Lipoprotein(a) (Lp(a)) was eliminated by LDL-apheresis using a dextran sulfate cellulose column in 3 homozygous and 10 heterozygous familial hypercholesterolemic patients. Immediately after LDL-apheresis by the LA-15 system (continuous LDL apheresis), there were significant reductions in Lp(a) concentrations (28.6 +/- 11.8 mg/dl (mean +/- S.E.) to 9.6 +/- 5.6 mg/dl (P < 0.01)), and in LDL-cholesterol concentrations (156 +/- 32 mg/dl to 48 +/- 18 mg/dl (P < 0.01)). Immediately following LDL-apheresis, Lp(a) and LDL-cholesterol were reduced by 67.4% +/- 11.6% and 68.3% +/- 11.8%, respectively. The removal of Lp(a) paralleled that of LDL-cholesterol. The reduced levels of Lp(a) nearly returned to baseline within 7 days. In 6 of the heterozygous FH patients the rates of recovery of LDL cholesterol and Lp(a) were calculated, according to Apstein's equation after discontinuing lipid altering drug treatment for 4 weeks. Mean constant k values of LDL cholesterol and Lp(a) were 0.354 (range: 0.136-0.752) and 0.427 (range 0.112-0.933), respectively. The average concentration during the 7 days following LDL-apheresis was calculated. Average reductions were 28% in LDL cholesterol and 18% in Lp(a). Pravastatin treatment, which continued for 4 weeks, significantly decreased LDL cholesterol (P < 0.01); however, before LDL-apheresis pravastatin treatment significantly increased Lp(a) levels (P < 0.05) in a small number (n = 6) of the FH patients, who had been regularly treated with LDL-apheresis. These results suggest that LDL-apheresis using the dextran sulfate cellulose column is an effective treatment to reduce levels of serum Lp(a) and LDL proportionally. This therapy may be of value in the prevention and regression of coronary artery disease in FH patients.
Atherosclerosis 1993 Apr
PMID:Reduction of lipoprotein(a) by LDL-apheresis using a dextran sulfate cellulose column in patients with familial hypercholesterolemia. 831 64

Pravastatin is a new lipid-lowering drug belonging to the class of 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase inhibitors. Since 1986, more than 15,000 patients have received pravastatin in sponsored clinical research trials with more than 21,000 cumulative patient-years of exposure to the drug. Analysis of long-term follow-up data from 1142 patients participating between 1986 and 1990 in six core randomized clinical trials in the United States confirms the favorable safety profile of pravastatin. Rash, gastrointestinal complaints, musculoskeletal pain, and elevations in liver transaminase levels, whether or not attributed to treatment, were the most common reasons for patients withdrawing from these trials. Ophthalmologic monitoring revealed no adverse effects on the crystalline lens. Safety assessments continue for two core trials in more than 400 patients with up to 7 years of continuous follow-up. The effects of pravastatin on serum cholesterol levels are not influenced by the age, sex, weight, or initial cholesterol level of the patient. Vitamin E, A, and D metabolism remain normal during treatment. Combination therapy with pravastatin and bile-acid-binding resins or niacin is well tolerated, with additive effects on low-density lipoprotein cholesterol. There is limited experience with the combination of pravastatin and gemfibrozil or cyclosporine. An ongoing arteriosclerosis research program with more than 21,000 patients enrolled will further define the long-term safety of pravastatin and its effects on atherosclerosis progression, as well as its role in the primary and secondary prevention of coronary heart disease.
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PMID:Long-term experience with pravastatin in clinical research trials. 845 55

Lipoproteins and the impact of lipid lowering on progression and regression of coronary artery disease are discussed. Angiographically assessed regression studies are reviewed (NHLBI, LIT, LHT, CLAS I and II, FATS, POSCH, Heidelberg, STARS, SCRIP, MAAS, PLAC I, HARP, UC-SF), as are B-mode ultrasound studies (ACAPS, PLAC II) and survival studies (Oslo diet-smoking study, SSSS, Pravastatin, Oxford). Although study populations and the interventions are different in the studies, I have come to the following conclusions. Regression of atherosclerosis correlates well with reduction in LDL cholesterol and an increase in HDL cholesterol. Although overall improvement in the severity and extent of the disease was modest, reduction of clinical events was impressive. Lipid modulation may stabilize existing lesions by improving the stability of the lesion cap and/or promoting loss of cholesterol content from within the plaque. Survival studies indicate that lipid lowering lowers morbidity and increases longevity in patients with established coronary heart disease. The B-mode ultrasound studies using the carotid artery as surrogate for the change in atherosclerosis in the coronary seems extremely promising. The atherosclerotic process as well as complications may be studied at an early stage using noninvasive methods.
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PMID:Lipoproteins and the progression/regression of atherosclerosis. 859 28

This study analyzed the cost-effectiveness of pravastatin in secondary prevention of coronary artery disease (CAD). The projected risk model in 445 male patients with established CAD and moderately elevated serum low-density lipoprotein cholesterol used results data from 2 placebo-controlled plaque regression trials: Pravastatin Limitation of Atherosclerosis in the Coronary Arteries and Pravastatin, Lipids, and Atherosclerosis in the Carotids. Framingham Heart Study data were used to project the risk of mortality 10 years after myocardial infarction (MI) for incremental male patients in the placebo group who had MI. A Markov process was used to estimate life-years saved, and decision analysis was used to estimate cost. Depending on the patient-risk profile, the midrange estimated cost per life-year saved with pravastatin in secondary prevention of CAD varied from $7,124 to $12,665, which is favorable compared with other widely accepted medical interventions.
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PMID:Cost-effectiveness of pravastatin in secondary prevention of coronary artery disease. 875 84

Lipid lowering therapies were employed to prevent restenosis following elective percutaneous transluminal coronary angioplasty (PTCA). The effect of probucol was compared to that of Pravastatin in 141 coronary atherosclerosis patients. Probucol (750 mg/day) was administered for at least 30 days prior to PTCA (34 patients, group P-1) or less than 14 days prior to PTCA (27 patients, group P-2). Pravastatin (10 mg/day) was administered for at least 30 days prior to PTCA (38 patients, group V-1) or less than 14 days prior to PTCA (42 patients, group V-2). In group P-1, the patient restenosis rate was 17.6% and lesion restenosis rate was 14%. These rates were significantly lower than those of group V-1, which were 44.7% and 40.4% respectively (p < 0.05). The respective values were 48.1% and 51.8% in group P-2 (p < 0.05, vs group P-1) and 35.7% and 34% (p < 0.05, vs group P-1) in group V-2. Probucol seems to work, not only by lowering cholesterol but also by its antioxidative properties when administered for a sufficient period prior to PTCA.
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PMID:Effectiveness of probucol in preventing restenosis after percutaneous transluminal coronary angioplasty. 877 25

Lymphatic absorption and transport of cholesterol and triacylglycerols were examined in rats treated with pravastatin, an inhibitor of 3-hydroxy-3-methyglutaryl-CoA (HMG-CoA) reductase. Pravastatin-treatment for 1, 7 and 28 days did not affect the recovery of cholesterol and triacylglycerols during 24 h after the lipid administration: the recovery was 52-59% and 82-93% for cholesterol and triacylglycerols, respectively. Rats treated with pravastatin for 28 days had a higher lymphatic recovery of the lipids during 3-6 h after the lipid administration than did control rats. Pravastatin treatment did not affect the ratio of phospholipid to cholesterol in the gut mucosa, the fatty acid composition of the lymph and mucosal lipids. We concluded that an inhibitor of HMG-CoA reductase would exert no adverse effect on absorption of fat-soluble nutrients by gut.
Atherosclerosis 1996 Jul
PMID:Lymphatic transport of cholesterol in normocholesterolemic rats treated with pravastatin, an inhibitor of HMG-CoA reductase. 880 Apr 97


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