Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.6.1.2 (alanine aminotransferase)
 26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Seventy-seven hypercholesterolemic patients participated in a 26-week, multicenter, randomized, double-blind, placebo-controlled study that investigated the efficacy and safety of pravastatin therapy. All patients had primary moderate hypercholesterolemia (total cholesterol 200-300 mg/dl, at the end of a 6-week dietary run-in period) and two additional coronary risk factors. Pravastatin, 20-40 mg/day given at bedtime, reduced total cholesterol by 19-22%, LDL-cholesterol by 24-30%, triglycerides by 10-30% and increased HDL-cholesterol by 9-13%. The drug caused mild elevation in alanine aminotransferase and aspartate aminotransferase. Almost all these elevations were within normal limits and no patient was clinically symptomatic. No other significant differences were observed between the pravastatin and the placebo-treated groups with regard to other adverse effects and to patient compliance and withdrawal. It is concluded that pravastatin has a beneficial effect on the lipid profile and that the drug is safe and well tolerated.
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PMID:Efficacy and safety of pravastatin once daily in primary moderate hypercholesterolemia: the Israeli experience. 831 85

The efficacy and safety of simvastatin were evaluated in an open multicenter study over a 24-week period. One hundred seventy-two patients (91 men, 81 women) with primary hypercholesterolemia (mostly polygenic) were enrolled in 14 Centers in Northern Italy. The mean age was 55.8 +/- 9.7 years and the mean baseline total cholesterol level was 305 +/- 59 mg/dL. After 4 weeks on an AHA step 1 diet, patients who met the inclusion criterion (total cholesterol > or = 250 mg/dL) were given simvastatin 10 or 20 mg in the evening. The dose could be titrated up to a maximum of 40 mg o.d. at week 6 and 12. No dose titration was allowed after week 12. One hundred forty-nine patients (86.6%) completed the study according to the protocol, 2 (1.2%) were withdrawn from the study because of adverse events not related to the drug, 21 (12.2%) were unavailable for follow-up. Simvastatin treatment was associated with a sustained dose-related reduction in total and LDL cholesterol (-28% and -39% respectively at the end of the study). Triglycerides showed a significant descending trend (-16% at week 24) and HDL-C increased by 9%. Apolipoproteins were measured in only 25 patients: apo B was reduced by 30% and apo A1 increased by 9%. Clinical side effects were not relevant. Mean levels of GOT, GPT and CPK significantly increased after 6 weeks on simvastatin, but remained stable and at any rate ioitlin the normal range thereafter. Eight patients (5.4%) experienced small transaminase level elevations (< 3ULN) and six (4%) small CPK elevations.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effectiveness and tolerability of simvastatin in subjects with primary hypercholesterolemia. Multicenter study]. 848 62

The effects of a high cholesterol/cholate diet on the biliary secretion of bile acids, cholesterol, phospholipid and inorganic electrolytes in the rat were examined. Wistar rats were fed a hypercholesterolaemia-inducing diet (HID) for 20 days prior to the biliary experiments. Rats fed a standard laboratory diet were used as controls. The HID diet increased plasma cholesterol concentrations and the hepatic content of total, free and esterified cholesterol, without changes in ALP*, ALT and AST plasma activities. Bile flow and biliary secretion of bile acids and inorganic electrolytes were markedly increased in the hypercholesterolaemic animals. The stimulated biliary secretion was due to an increase in both the bile acid-dependent and bile acid-independent fractions of bile flow. An increase in the bile acid pool induced by the administration of exogenous cholic acid/cholesterol would account for these changes in bile flow and inorganic electrolyte secretion. Nevertheless, the increase in the bile acid-independent bile flow could be also related, at least to some extent, to a higher efficiency of bicarbonate transport into bile. The HID diet also increased both cholesterol and phospholipid biliary outputs, whereas it did not modify the relationship between lipid and bile acid secretion. The lithogenic index of bile was reduced in the rats after the HID regimen due to a relatively higher increase in the biliary outputs of phospholipids and bile acids than of cholesterol.
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PMID:Effects of a hypercholesterolaemia-inducing diet on biliary electrolytes and lipid secretion in the rat. 849 21

Fluvastatin, a new synthetic inhibitor of HMGCoA (3-hydroxy-3-methylglutaryl coenzyme A) reductase, has been studied in several models to examine its effects when used in combination with other lipid-modifying agents such as derivatives of fibric acid (bezafibrate), resins (cholestyramine), and niacin. The combination of fluvastatin with bezafibrate has been studied in a double-blind trial involving patients with well-documented familial hypercholesterolaemia. Fluvastatin 40 mg/day, combined with either bezafibrate 400 mg/day or cholestyramine 8 g/day, resulted in reductions in levels of low-density lipoprotein cholesterol (LDL-C), these being indistinguishable between the groups; however, significantly greater increases in levels of high-density lipoprotein cholesterol (21.3%) and reductions in levels of triglycerides (25.1%) were seen with the fluvastatin-bezafibrate combination. No notable increases were seen in levels of serum creatine kinase, aspartate aminotransferase, or alanine aminotransferase, and no cases of myopathy were observed. In a study model that examined low-dose combinations of fluvastatin with cholestyramine, reductions in levels of LDL-C of 15.8% and 19.3% were seen with fluvastatin 10 mg and 20 mg, respectively. After an 8-week interval in which a daily dosage of cholestyramine 8 g was added, from baseline, reductions of 26.3% in the 10 mg fluvastatin-cholestyramine group and 31.2% in the 20 mg fluvastatin-cholestyramine group were observed, whereas the placebo-cholestyramine group displayed a reduction of 14.9%. Doubling the resin dosage to 16 g/day for the final 8 weeks of the study provided little additional benefit. Myotoxicity has been observed when lovastatin is coadministered with niacin, and so the combination of niacin with fluvastatin has also been studied to examine the possibility of this effect occurring. Patients were randomised to either fluvastatin 20 mg or placebo for 6 weeks, after which time open-label niacin was administered to all patients and titrated to a final dosage of 3 g/day. After 6 weeks, fluvastatin produced a 20.8% reduction in LDL-C levels from baseline. When combined with niacin, a 43.7% reduction was noted at the week 15 endpoint, against the 26.5% reduction seen with niacin monotherapy. The combination was well tolerated, with no reports of myopathy or of significant elevations in creatine kinase or liver transaminase levels. Combinations of fluvastatin with a variety of other agents have been shown to have significant effects on lipid profiles, with no evidence to date of clinically remarkable safety findings. Thus, the use of combination therapies may result in optimal management of patients with moderately severe hypercholesterolaemia and mixed dyslipidaemic profiles.
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PMID:Fluvastatin in combination with other lipid-lowering agents. 1949 70

The objective of this open trial was to investigate the efficacy and safety of the 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor fluvastatin in hypercholesterolemic patients already receiving probucol. All of the participants had hypercholesterolemia. i.e. serum total cholesterol > or = 220 mg/dl, despite administration of probucol, 500 mg/day, for more than 4 weeks. After this, fluvastatin, 30 mg/day, was added to probucol treatment for 12 weeks. Twenty-seven patients were recruited into this study; all were evaluated for safety, and 22 were evaluated for efficacy. The addition of fluvastatin to the probucol regimen produced a significant further reduction in serum total and low-density lipoprotein cholesterol concentrations (of 18 and 20%, respectively; p < 0.001); these effects were fully established within 4 weeks of treatment and were maintained throughout the treatment. Fluvastatin did not affect the serum high-density lipoprotein cholesterol concentration. Fluvastatin treatment decreased serum triglyceride concentrations slightly in all patients (not significant); in patients with hypertriglyceridemia, triglyceride levels were decreased significantly by 34% (p < 0.01; serum triglycerides > or = 150 mg/dl). In addition, fluvastatin significantly decreased serum apolipoprotein B, C-II, C-III and E levels, whereas serum apolipoprotein A-I and A-II levels were unaffected. One patient complained of slight abdominal discomfort during fluvastatin administration, but relationship to fluvastatin remains unclear. One patient had slight elevation of the serum alanine aminotransferase level, and another patient had an elevated gamma-glutamyl transferase level. The addition of fluvastatin to probucol treatment can be considered to be an effective and well tolerated treatment in hypercholesterolemic patients.
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PMID:Efficacy and safety of the 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor fluvastatin in hyperlipidemic patients treated with probucol. 909 17

We performed a multicenter, open-label study to determine the long-term safety and efficacy of a new extended-release once-a-night niacin preparation, Niaspan, in the treatment of hypercholesterolemia. Niaspan, 0.5 to 3.0 g once a night at bedtime, was used alone or in combination with a statin (inhibitor of hydroxymethylglutaryl coenzyme A reductase), a bile acid sequestrant, or both. Patients included 269 hypercholesterolemic male and female adults enrolled in a 96-week study, and 230 additional adults for whom short-term safety data were available. The dosages of Niaspan attained by 269 patients were 1,000 mg (95% of patients), 1,500 mg (86%), and 2,000 mg (65%). After 48 weeks of treatment, Niaspan alone (median dose 2,000 mg) reduced low-density lipaprotein (LDL) cholesterol (18%), apolipoprotein B (15%), total cholesterol (11%), triglycerides (24%), and lipoprotein(a) (36%), and increased high-density lipoprotein (HDL) cholesterol (29%). Niaspan plus a statin lowered LDL cholesterol (32%), apolipoprotein B (26%), total cholesterol (23%), triglycerides (30%), and lipoprotein(a) (19%), and increased HDL cholesterol (26%). Reversible elevations of aspartate aminotransferase or alanine aminotransferase more than twice the normal range occurred in 2.6% of patients. One patient discontinued Niaspan because of transaminase elevations. Intolerance to flushing, leading to discontinuation of Niaspan, occurred in 4.8% of patients. The overall rate of discontinuance due to flushing in this study combined with 2 previous randomized trials was 7.3%. In the long-term treatment of hypercholesterolemia, Niaspan produced favorable changes in LDL and HDL cholesterol, triglycerides, and lipoprotein(a). Adverse hepatic effects were minor and occurred at rates similar to those reported for statin therapy.
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PMID:Effectiveness of once-nightly dosing of extended-release niacin alone and in combination for hypercholesterolemia. 976 Oct 83

The determination of aminotranferases levels is very useful in the diagnosis of hepatopathies. In recent years, an elevated serum ALT level in blood donors has been associated with an increased risk of post-transfusion hepatitis (PTH). The purpose of the study was to research the factors associated with elevated ALT levels in a cohort of voluntary blood donors and to evaluate the relationship between increased ALT levels and the development of hepatitis C (HCV) infection. 166 volunteer blood donors with elevated ALT at the time of their first donation were studied. All of the donors were questioned about previous hepatopathies, exposure to hepatitis, exposure to chemicals, use of medication or drugs, sexual behaviour, contact with blood or secretions and their intake of alcohol. Every three months, the serum levels of AST, ALT, alkaline phosphatase, gamma glutamyl transpeptidase, cholesterol, triglyceride and glycemia are assessed over a two year follow-up. The serum thyroid hormone levels as well as the presence of auto-antibodies were also measured. Abdominal ultrasound was performed in all patients with persistently elevated ALT or AST levels. A needle biopsy of liver was performed in 9 donors without definite diagnostic after medical investigation. The presence of anti-HCV antibodies in 116 donors were assayed again the first clinical evaluation. At the end of follow-up period (2 years later) 71 donors were tested again for the presence of anti-HCV antibodies. None of donors resulted positive for hepatitis B or hepatitis C markers during the follow-up. Of the 116 donors, 101 (87%) had persistently elevated ALT serum levels during the follow-up. Obesity and alcoholism were the principal conditions related to elevated ALT serum levels in 91/101 (90.1%) donors. Hypertriglyceridemia, hypercholesterolemia, hypothyroidism and diabetes mellitus also were associated with increased ALT levels. Only 1/101 (0.9%) had mild chronic active non A-G viral hepatitis and 3/101 (2.9%) had liver biopsy with non-specific reactive hepatitis. The determination of ALT levels was not useful to detect donors infected with HCV at donation in Brazil, including the initial seronegative anti-HCV phase.
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PMID:Elevated alanine aminotransferase (ALT) in blood donors: an assessment of the main associated conditions and its relationship to the development of hepatitis C. 987 34

Twenty-eight dogs with iatrogenic hyperadrenocorticism were studied. The most common clinical signs were cutaneous lesions (27/28), polydipsia (21/28), polyuria (19/28), and lethargy (16/28). The most predominant findings on biochemical profile were elevated alkaline phosphatase (ALP, 15/28) and alanine transferase (ALT, 14/28); hypercholesterolemia (14/28); elevated aspartate transferase (AST, 12/28); and elevated triglycerides (12/18). Baseline cortisol levels of all 28 dogs were at the lower end of the reference range and exhibited suppressed or no response to adrenocorticotropic hormone (ACTH) stimulation. The mean time for each dog to show initial improvement of clinical signs after corticosteroid withdrawal was six weeks, with another mean time of 12 weeks to demonstrate complete remission.
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PMID:Iatrogenic hyperadrenocorticism in 28 dogs. 1033 57

This study examined the action of cerivastatin, a new statin, in subjects with primary hypercholesterolaemia. The effects of two oral doses of cerivastatin (400 micrograms/day or 300 micrograms/day) were compared with placebo in 349 patients using a multicentre, randomized, double-blind, placebo-controlled study design. Cerivastatin treatment lasted 8 weeks and produced significant reductions in low density lipoprotein-cholesterol (LDL-C) levels from baseline compared with placebo. The reduction in LDL-C was significantly greater with 400 micrograms than with 300 micrograms cerivastatin. When responder rates were examined, the higher (400 micrograms/day) cerivastatin dose was found to be more effective in producing larger (> 40%) reductions in LDL-C levels. Cerivastatin treatment was well tolerated. Only two withdrawals due to adverse events during active treatment occurred, neither of which was considered to be due to the study medication. In addition, no clinically relevant increases in the levels of creatine phosphokinase and hepatic transaminases (alanine transaminase and aspartate transaminase) compared with placebo were seen in this study. In conclusion, cerivastatin treatment produced a significant lowering of LDL-C levels, with the higher dose providing the greatest benefit.
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PMID:Efficacy and safety of 300 micrograms and 400 micrograms cerivastatin once daily in patients with primary hypercholesterolaemia: a multicentre, randomized, double-blind, placebo-controlled study. 1050 1

An international multicentre double-blind randomised trial compared the efficacy and safety of cerivastatin (0.025, 0.05, 0.1 and 0.2 mg once daily) with placebo and simvastatin (20 mg) over a period of 12 weeks, with study extensions to 52 and 100 weeks. The primary efficacy parameter was the percentage change in low density lipoprotein cholesterol (LDL-C). This was reduced from the baseline by 12.5% (0.025 mg) to 30.6% (0.2 mg) compared with falls of 2.0% on placebo and 40.3% on simvastatin. All four cerivastatin doses and simvastatin (20 mg) produced significantly greater falls than placebo (p < 0.0001) and the decrease in LDL-C was dose-dependent for cerivastatin. Simvastatin produced significantly greater falls than any cerivastatin dose or placebo (p < 0.0001). The effect was maintained at 1 year but somewhat attenuated at 100 weeks. Significant falls were also seen in serum total cholesterol and triglycerides. High density lipoprotein cholesterol (HDL-C) levels were significantly increased by cerivastatin (0.1 and 0.2 mg) and simvastatin (20 mg) at 12 weeks and increased further by 100 weeks. Mean fasting apolipoprotein A1 and lipoprotein A1 were increased and apolipoprotein B decreased by cerivastatin and simvastatin therapy. All doses of cerivastatin produced significant falls in the total cholesterol/HDL-C ratio at 12 weeks (0.5-1.6) compared with a fall of 2.1 for simvastatin (20 mg). Cerivastatin was well tolerated. Elevations in creatine phosphokinase, aspartate aminotransferase and alanine aminotransferase were mostly minor and transitory. Vital signs, electrocardiogram determinations, urinalysis and ophthalmic assessment showed similar results for both drugs. Cerivastatin, at doses of 0.1 mg and 0.2 mg daily, is considered to be of therapeutic value in the treatment of patients with primary hypercholesterolaemia, with 0.2 mg cerivastatin achieving reductions of LDL-C and total cholesterol similar to those achieved in the WOSCOP and CARE studies.
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PMID:International multicentre comparison of cerivastatin with placebo and simvastatin for the treatment of patients with primary hypercholesterolaemia. International Cerivastatin Study Group. 1056 66


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