Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011860 (type 2 diabetes)
 57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Atorvastatin, a second generation synthetic 3-hydroxy 3-methylglutaryl-coenzyme-A (HMG-CoA) reductase inhibitor used in the treatment of hypercholesterolemia, reduces both intracellular cholesterol synthesis and serum cholesterol levels, and this could have a potential negative impact on gonadal and adrenal steroidogenesis. Hypercholesterolemia in type 2 diabetes, even when mild, must be treated in an aggressive way, due to the more strict therapeutic goals than in the non diabetic population. Since the wide use of 3-hydroxy 3-methylglutaryl-coenzyme-A (HMG-CoA) reductase inhibitor (statins) in type 2 diabetes, the main aim of our study was to evaluate the effects of "therapeutic" doses of atorvastatin on gonadal and adrenal hormones in 24 type 2 diabetic patients (16 males and 8 postmenopausal females), with mild to moderate hypercholesterolemia (LDL-cholesterol = 150.1 +/- 32.0 and 189.9 +/- 32.9 mg/dl, respectively) studied before and after a 3 months treatment with atorvastatin (20 mg/day). In all patients, lipids and serum cortisol, dehydroepiandrosterone sulphate (DHEA-S), androstendione and sex hormone binding globulin (SHBG) were measured, with the addition, only in males, of testosterone and free testosterone index. After atorvastatin treatment a significant decrease in total and LDL cholesterol was observed (p < 0.05), while HDL-cholesterol did not significantly change ( p = N.S.), as no significant difference was found between steroid hormones measured before and after atorvastatin either in male and females. In conclusion, our data suggest that, in type 2 diabetic patients, the use of atorvastatin has no clinically important effects on either gonadal or adrenal steroid hormones.
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PMID:Atorvastatin treatment does not affect gonadal and adrenal hormones in type 2 diabetes patients with mild to moderate hypercholesterolemia. 1456 85

Few data are available on the effects of high dose statin therapy on lipoprotein subfractions in type 2 diabetes. In a double blind randomised placebo-controlled trial we have studied the effects of 80 mg atorvastatin over 8 weeks on LDL, VLDL and HDL subfractions in 40 overweight type 2 diabetes patients. VLDL and LDL subfractions were prepared by density gradient ultracentrifugation. Triglycerides, cholesterol, total protein and phospholipids were measured and mass of subfractions calculated. HDL subfractions were prepared by precipitation. Atorvastatin 80 mg produced significant falls in LDL subfractions (LDL(1) 66.2 mg/dl:36.6 mg/dl, LDL(2) 118:56.6 mg/dl, LDL(3) 36.9:19.9 mg/dl all P < 0.01 relative to placebo) and VLDL subfractions (VLDL(1) 55:22.1 mg/dl, VLDL(2) 40.1:19.1 mg/dl, VLDL(3) 52.6:30 mg/dl all P < 0.01 relative to placebo). There was no change in the proportion of LDL present as LDL(3). There was a reduction in the proportion of VLDL as VLDL(1) and a reciprocal increase in the proportion as VLDL(3). Changes in VLDL subfractions were associated with changes in lipid composition, particularly a reduction in cholesterol ester and a reduction in the cholesterol ester/triglyceride ratio. Effects on HDL subfractions were largely neutral. High dose atorvastatin produces favourable effects on lipoprotein subfractions in type 2 diabetes which may enhance antiatherogenic potential.
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PMID:The effect of high dose atorvastatin therapy on lipids and lipoprotein subfractions in overweight patients with type 2 diabetes. 1513 63

A major factor contributing to cardiovascular mortality in type 2 diabetes is dyslipidemia, characterized by low HDL cholesterol and high triglycerides, rather than elevated LDL cholesterol. Lipoprotein lipase (LPL) is the rate-limiting enzyme of triglyceride removal from plasma and has been implicated in atherosclerosis. Since treatment with statins significantly reduces cardiovascular morbidity in diabetes, we analyzed the lipid profile and LPL activities in 61 patients with type 2 diabetes before and 8 weeks after initiation of atorvastatin (40 mg) or placebo treatment. Lipid parameters and LPL activity were unchanged under treatment with placebo. Atorvastatin treatment resulted in a 30% reduction of total and a 45% reduction of LDL cholesterol (6.06 +/- 1.39 mmol/L versus 4.14 +/- 1.27 mmol/L and 4.11 +/- 1.13 mmol/L versus 2.27 +/- 0.89 mmol/L, both P < 0.0001). Triglycerides and VLDL cholesterol were also significantly reduced by statin therapy (2.24 +/- 2.11 mmol/L versus 1.82 +/- 1.46 mmol/L and 1.08 +/- 1.56 mmol/L versus 0.67 +/- 0.66 mmol/L, both P < 0.05). HDL cholesterol was not different between the atorvastatin and the placebo group. Compared to baseline, LPL activity was increased by 25% after atorvastatin treatment (213.0 +/- 28.1 nmol/mL/min versus 171.9 +/- 17.7 nmol/mL/min, P < 0.01). Our data demonstrate that atorvastatin induces a significant improvement of diabetic dyslipidemia and a significant increase of LPL activity. Since low LPL activity indicates an increased cardiovascular risk, the statin-mediated increase in LPL activity may help to explain the reduction of CAD in diabetic patients treated with statins.
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PMID:Atorvastatin improves diabetic dyslipidemia and increases lipoprotein lipase activity in vivo. 1526 89

Retrospective and uncontrolled studies suggest that the lipid-lowering statin class of drugs has either no or beneficial effects on bone density and may reduce fracture risk. We have examined the effects of atorvastatin on serum and plasma markers of bone turnover in 25 patients (age 56 +/- 8 years) with type 2 diabetes (duration: 4.7 +/- 5.0 years, 16 female, 2 insulin-treated, 4 diet alone, and 19 on oral hypoglycemic agents) and baseline hypercholesterolemia (cholesterol 6.6 +/- 0.8 mmol/l) in a double-blind, placebo-controlled, crossover study of 12 weeks of placebo/40 mg of atorvastatin with an 8-week wash-out period. Atorvastatin resulted in a fall in total cholesterol of 2.3 +/- 0.9 mmol/l. There were no effects of active or placebo therapy on total alkaline phosphatase, bone-specific alkaline phosphatase, osteocalcin, or beta C-telopeptide of type 1 collagen (beta-CTX). We conclude that atorvastatin (40 mg/day) has no significant effect on bone turnover in man.
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PMID:The effect of atorvastatin on markers of bone turnover in patients with type 2 diabetes. 1533 14

Atorvastatin (Lipitor) is an HMG-CoA reductase inhibitor with well documented lipid-lowering effects. It has recently been evaluated for the primary prevention of major cardiovascular events in patients with type 2 diabetes mellitus without elevated serum low-density lipoprotein (LDL)-cholesterol levels. Atorvastatin 10mg daily for 4 years was effective at reducing the risk of a first major cardiovascular event, including stroke, in a large, placebo-controlled, multicentre trial in patients with type 2 diabetes and at least one other coronary heart disease (CHD) risk factor, but without markedly elevated LDL-cholesterol levels. In this trial, known as CARDS (the Collaborative AtoRvastatin Diabetes Study), atorvastatin had a similar tolerability profile to that of placebo. Thus, atorvastatin has a potential role in the primary prevention of cardiovascular events in diabetic patients at risk of CHD, irrespective of pre-treatment LDL-cholesterol levels.
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PMID:Atorvastatin: a review of its use in the primary prevention of cardiovascular events in patients with type 2 diabetes mellitus. 1561 62

The Collaborative AtoRvastatin Diabetes Study (CARDS) is the first large primary prevention study to focus specifically on the role of a statin in patients aged 40-75 years with type 2 diabetes, but no signs or symptoms of pre-existing vascular disease and who had only average or below average cholesterol levels. The trial was a prospective double-blind randomised trial with 2383 type 2 diabetic subjects randomised to either 10-mg atorvastatin daily or placebo. Originally designed to run for 5 years, the trial was terminated over a year early in June 2003 on account of a clear benefit demonstrated for the intervention group. Over half of patients had a low-density lipoprotein cholesterol (LDL-C) below 3.3 mmol/l at entry and a quarter had an LDL-C <2.6 mmol/l. Atorvastatin 10 mg reduced LDL-C by 40% (1.2 mmol/l) on average. Results at 4 years showed a 37% relative risk reduction (p <0.001) for atorvastatin 10 mg in the primary endpoint (acute coronary heart disease death, fatal or non-fatal myocardial infarction, unstable angina requiring hospital admission, resuscitated cardiac arrest, coronary revascularisation procedures and stroke). Among the secondary endpoints, total mortality was reduced by 27% (p=0.05), acute coronary events by 36%, coronary revascularisation by 31% and stroke by 48%. The same magnitude of benefit was observed among patients with LDL-C above or below 3 mmol/l. Results observed were against a background where 9% of placebo patients had been permitted to start statin therapy after enrolment and 15% of patients on active treatment had discontinued atorvastatin. The true benefit of the intervention is therefore probably around 25% greater than the intention to treat analysis reports.
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PMID:The collaborative atorvastatin diabetes study: preliminary results. 1570 77

Atorvastatin reduces both plasma cholesterol and triglyceride concentrations in patients with type 2 diabetes, but mechanisms underlying triglyceride decrease and the effect of atorvastatin on high density lipoprotein (HDL) still remain unclear. Apolipoprotein (apo) E plays a crucial role in modulating production and clearance of triglyceride-rich very low density lipoprotein (VLDL). The main effect of apoAI is to modulate HDL metabolism. The aim of this work was to study the influence of atorvastatin on apoAI and apoE kinetics and to determine whether its hypocholesterolemic and hypotriglyceridemic effects could be related to changes in this apolipoprotein metabolism. Plasma VLDL-apoE, HDL-apoE, and HDL-apoAI were studied in seven patients with diabetes with mixed hyperlipidemia using a stable isotope labeling technique ([(2)H3]leucine-primed constant infusion) and monocompartmental model before and after 2 months of treatment with 40 mg/day of atorvastatin. Plasma apoE concentration was significantly reduced (44.1 +/- 19.1 versus 32 +/- 11.6 mg/l, p < 0.05) after treatment. This decrease was associated with a diminution of HDL-apoE concentration (17.46 +/- 6.71 versus 13.37 +/- 6.05 mg/l, p < 0.05) and production rate (0.202 +/- 0.085 versus 0.119 +/- 0.047 mg/kg/day, p < 0.05), whereas an increase in VLDL-apoE concentration (6.44 +/- 2.16 before versus 9.23 +/- 4.02 mg/l after, p < 0.05) and production rate (0.827 +/- 0.367 versus 1.524 +/- 0.664 mg/kg/day, p < 0.05) was observed. No significant difference was observed after treatment for apoAI parameters. We conclude that atorvastatin treatment promotes different apoE distribution between HDL and VLDL, favoring VLDL apoE content. The increased number of apoE per VLDL particle suggests that atorvastatin could enhance the direct catabolism of triglyceride-rich VLDL through apoE receptor pathways.
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PMID:Influence of atorvastatin on apolipoprotein E and AI kinetics in patients with type 2 diabetes. 1601 56

It has been estimated that 92% of individuals with type 2 diabetes, without cardiovascular disease (CVD), have a dyslipidaemic profile. Several guidelines on cardiovascular risk now recommend that patients with diabetes should be considered at high risk of CVD and should thus receive lipid-lowering therapy to reduce low-density lipoprotein cholesterol (LDL-C) to below 2.5 mmol/L. Since their introduction in 1987, statins have revolutionized the management of CVD. The most recent statin to be introduced, rosuvastatin, has been shown to be the most effective at lowering LDL-C, as well as consistently raising HDL-C across the 10-40 mg dose range. This has been confirmed by many studies, including the Measuring Effective Reductions in Cholesterol Using Rosuvastatin Therapy (MERCURY I) study in which rosuvastatin 10 mg was shown to be more effective than commonly used doses of other statins, both for LDL-C reduction and achieving treatment target goals. The effectiveness of rosuvastatin has also been studied in type 2 diabetes patients in three studies: the URANUS (Use of Rosuvastatin vs. Atorvastatin iN type 2 diabetes mellitUS), ANDROMEDA (A raNdomized, Double-blind study to compare Rosuvastatin [10 & 20 mg] and atOrvastatin [10 & 20 Mg] in patiEnts with type II DiAbetes) and CORALL (COmpare Rosuvastatin [10-40 mg] with Atorvastatin [20-80 mg] on apo B/apo A-1 ratio in patients with type 2 diabetes meLLitus and dyslipidaemia) studies. URANUS and ANDROMEDA showed rosuvastatin to be more effective than atorvastatin at reducing LDL-C and achieving treatment target goals. CORALL demonstrated rosuvastatin 10, 20 and 40 mg to be more effective at lowering LDL-C than 20, 40 and 80 mg of atorvastatin, respectively. Ongoing studies will evaluate whether these properties of rosuvastatin translate into beneficial effects on atherosclerosis and significant reductions in cardiovascular events.
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PMID:A review of the efficacy of rosuvastatin in patients with type 2 diabetes. 1603 94

Both the American Diabetes Association (ADA) and the National Cholesterol Education Program (NCEP) consider type 2 diabetes mellitus to be a coronary artery disease (CAD) risk equivalent and thus suggest that patients with either diabetes or CAD should have their plasma levels of low-density lipoprotein (LDL) cholesterol lowered to <2.59 mmol/L (<100 mg/dL). Recently the NCEP issued a white paper suggesting an even lower plasma LDL cholesterol goal of <1.81 mmol/L (<70 mg/dL) for patients at high cardiovascular risk, including patients with diabetes. This rationale was based partly on the higher risk of future cardiovascular disease seen in patients who have diabetes with or without preexisting cardiovascular disease than in nondiabetic subjects with preexisting cardiovascular disease. Additionally, as reported in the Pravastatin or Atorvastatin Evaluation and Infection Therapy (PROVE-IT) study, high-dose lipid-lowering therapy has been shown to further reduce CAD event rates compared with conventional therapy.
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PMID:Rationale for new American Diabetes Association Guidelines: are national cholesterol education program goals adequate for the patient with diabetes mellitus? 1609 41

Patients with diabetes mellitus are at higher risk for cardiovascular events than those without diabetes. Furthermore, patients with diabetes have a characteristic 'lipid triad' of low high-density lipoprotein-cholesterol (HDL-C) levels, high triglyceride levels, and normal or slightly raised low-density lipoprotein-cholesterol (LDL-C) levels, with a preponderance of small, dense LDL-C particles. Current guidelines on preventing cardiovascular disease recognize the need not only to reduce LDL-C levels, but also to increase HDL-C and decrease triglyceride levels in diabetic patients. Some clinical trials of HMG-CoA reductase inhibitors (statins) have included large populations of diabetic patients. In some of these trials (such as 4S [Scandinavian Simvastatin Survival Study], CARE [Cholesterol and Recurrent Events] trial, and the HPS [Heart Protection Study]), HMG-CoA reductase inhibitor treatment significantly reduced cardiovascular events in diabetic patients, whereas in other trials (ALLHAT-LLT [Antihypertensive and Lipid-Lowering Treatment to Prevent Heart Attack Trial], ASCOT [Anglo-Scandinavian Cardiac Outcomes Trial]) the reductions were not significant. In CARDS (Collaborative Atorvastatin Diabetes Study), the first large HMG-CoA reductase inhibitor study to enroll only patients with type 2 diabetes, atorvastatin reduced cardiovascular events by 37% (p=0.001) compared with placebo. Fibric acid derivatives (fibrates), which are agonists of peroxisome proliferator-activated alpha receptors, exert their effects by altering the transcription of genes encoding proteins that control lipoprotein metabolism. Fibric acid derivatives are a valuable tool in the treatment of dyslipidemia in patients with diabetes, as they reduce plasma triglyceride levels by 30--50%, increase HDL-C levels by 10--15%, and shift the distribution of LDL subfractions towards larger, less atherogenic particles. The DAIS (Diabetes Atherosclerosis Intervention Study), which was conducted exclusively in patients with type 2 diabetes, found that fenofibrate reduces the progression of angiographic coronary artery disease. The VA-HIT (Veterans Affairs Cooperative Studies Program HDL-C Intervention Trial) showed that gemfibrozil reduced cardiovascular events in subgroups of diabetic patients. A large clinical event study, FIELD (Fenofibrate Intervention and Event Lowering in Diabetes), which is currently being completed, will provide further information on the value of fenofibrate for the reduction of cardiovascular risk in patients with diabetes.
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PMID:A new perspective in the treatment of dyslipidemia : can fenofibrate offer unique benefits in the treatment of type 2 diabetes mellitus? 1618 99


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