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:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The effect of inhibiting the rate-limiting enzyme (3-hydroxy-3-methylglutaryl-CoA reductase, EC 1.1.1.88) in cholesterol synthesis on plasma lipid and lipoprotein concentrations was investigated in 16 patients with primary glomerular disease, heavy proteinuria, well-preserved renal function and hypercholesterolaemia. 2. Detailed studies of low-density lipoprotein metabolism were performed on eight patients before and after 12 weeks of simvastatin therapy. Radioiodinated tracers were used to quantify the fractional catabolic rate of low-density lipoprotein by apolipoprotein B/E receptors and alternative pathways. 3. Simvastatin produced consistent reductions in total plasma cholesterol concentration (median 36.9%), plasma low-density lipoprotein-cholesterol concentration (43.6%) and apolipoprotein B pool size (29.9%). 4. In contrast, the changes in kinetic parameters of low-density lipoprotein metabolism showed no clear pattern. Although an increase in the receptor-mediated catabolism of low-density lipoprotein was demonstrated in five patients, no change or a slight decrease was seen in three patients. Production rates were not significantly altered, although there was a slight decrease in the median value (from 12.4 to 9.7 mg day-1 kg-1). Plasma lathosterol concentration was reduced in all eight patients (range 34-71%), indirectly confirming significant inhibition of cholesterol synthesis. 5. These results suggest that, as in patients with primary moderate hyperlipidaemia, the significant cholesterol-lowering effect of 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors in the nephrotic syndrome is accompanied by variable changes in lipoprotein metabolism. The reasons for this heterogeneous response are unclear. This reflects our limited understanding of the metabolic basis of nephrotic hyperlipidaemia and the relationship between hepatic sterol synthesis and plasma lipoprotein kinetics.
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PMID:Effect of simvastatin on plasma lipid and lipoprotein concentrations and low-density lipoprotein metabolism in the nephrotic syndrome. 132 May 52

The efficacy, tolerability and safety of simvastatin in the treatment of hyperlipemia in uremic patients undergoing hemodialysis were evaluated in 6 patients; a further 6 patients were treated with placebo and represented the control group. All patients treated completed the study. No clinical or laboratory side-effects were noted during the entire period of observation. Simvastatin caused a significant 26% reduction in total cholesterol, a 36% reduction in LDL cholesterol and a 28% reduction in triglycerides; HDL cholesterol and Apolipoprotein A increased by 19% and 12% respectively.
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PMID:[Efficacy and safety of simvastatin in the treatment of hyperlipidemia in uremic patients undergoing hemodialysis treatment]. 141 67

Recent reports demonstrate a hypocholesterolaemic effect of daily subcutaneous injections of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors in different rat models of hyperlipidaemia. However, this effect is not seen after oral administration of HMG-CoA reductase inhibitors in rats. We found that oral administration of the HMG-CoA reductase inhibitor Simvastatin also had no effect on plasma cholesterol in severely hyperlipidaemic Nagase analbuminaemic rats (NAR). Simvastatin (an apolar compound dissolved in propylene glycol) was infused continuously for 28 days into the subcutis of control Sprague-Dawley rats (SDR) and NAR using an implanted osmotic pump. All doses which were effective in reducing cholesterol in the NAR (reductions up to approximately 60%), reduced apolipoprotein AI but not apolipoprotein B and caused a severe inflammatory reaction in the dermis. Similar toxicity was observed in the SDR. Subcutaneous administration of the vehicle (propylene glycol) did not cause this reaction and did not affect plasma lipids. Administration of Lovastatin in osmotic pumps resulted in a similar inflammatory reaction. Incorporation of Simvastatin into liposomes did not diminish the toxic effect. On the other hand, infusion of Pravastatin (a polar HMG-CoA reductase inhibitor dissolved in isotonic saline) caused no changes in the dermis and had no effect on plasma lipids in NAR or SDR. Liver microsomes prepared from the Pravastatin-treated rats demonstrated a 3- to 4-fold increase in HMG-CoA reductase activity as compared to untreated rats, confirming uptake of the drug. We conclude that continuous subcutaneous administration of the HMG-CoA reductase inhibitors Simvastatin, Lovastatin and Pravastatin for 28 days may not reduce plasma cholesterol in rats by a mechanism which is related to inhibition of HMG-CoA reductase activity in the liver. The decrease of plasma cholesterol effected by subcutaneous infusion of Simvastatin or Lovastatin in NAR coincides with, and may be related to inflammatory changes caused by administering these compounds into the dermis.
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PMID:Subcutaneous administration of HMG-CoA reductase inhibitors in hyperlipidaemic and normal rats. 144 5

In the context of metabolic alteration in dialysis patients the Authors have studied the characteristics, incidence, pathogenesis, effect of dialysis, atherogenic risk and therapeutic approach to hyperlipemia in hemodialysis patients. Hypertriglyceridemia secondary to reduced lipolytic activity is the most frequent alteration observed in hemodialytic patients (36.7% of cases). In addition, hemodialysis reduces the levels of lipoprotein in the blood whereas the atherogenic role of hyperlipemia does not appear to be as important as that of arterial hypertension and smoking. Simvastatin breaks down the lipidic fractions which are involved in atherogenesis and coronary cardiopathy, thus acting as a valuable prevention against cardiovascular involvement in dialysis.
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PMID:[The lipid model in hemodialyzed patients]. 181 37

Nephrotic syndrome, uremia, hemodialysis, peritoneal dialysis, and renal transplantation are accompanied by alterations in lipoprotein metabolism In nephrotic patients, total cholesterol, LDL, VLDL and triglycerides are elevated, while HDL may be increased, normal, or decreased. The pathophysiology includes increased hepatic synthesis of VLDL and cholesterol, decreased activity of lipoprotein lipase, and increased urinary excretion of HDL. The risk of coronary heart disease (CHD) is increased in nephrotic patients and elevated LDL-cholesterol may contribute to this risk. Cholesterol lowering diet and drugs are indicated. Presently, Lovastatin and Simvastatin are the most potent cholesterol lowering drugs in nephrotic patients with good evidence of long-term safety. Most patients with impaired renal function or on hemodialysis have moderate hypertriglyceridemia due to decreased lipoprotein lipase activity. HDL may be slightly decreased. Although the risk of CHD is increased in these patients, triglyceride lowering drugs are not indicated, since no benefit can be expected. Peritoneal dialysis is accompanied by elevated VLDL in addition to hypertriglyceridemia. Reabsorption of large amounts of glucose from peritoneal dialysis fluid increases the carbohydrate load and stimulates hepatic VLDL synthesis. Cholesterol lowering therapy may be advantageous, but the experience is very limited. Side effects of lipid lowering drugs may be aggravated in renal failure. Total cholesterol, LDL, VLDL, and triglycerides are elevated in 50% of patients following renal transplantation. Corticosteroids and cyclosporin are major causes of hyperlipidemia. Cholesterol lowering therapy is indicated since the incidence of CHD is increased.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Pathophysiology and therapy of lipid metabolism disorders in kidney diseases]. 192 Dec 28

A causal link between hypercholesterolemia due to elevated plasma concentrations of LDL and VLDL remnants of CAPD patients has been established. The effects of 24 weeks of treatment with Simvastatin, a new HMG coenzyme A-reductase inhibitor (at 20 and 40 mg/day) on serum lipid, lipoprotein, and apolipoprotein A-I and B concentrations, as well as safety parameters and subjective side effects, were evaluated in eight patients (mean duration CAPD 24.80 +/- 7.50 months, age 54.50 +/- 13.70 years). Maximal effects on plasma lipoprotein and apolipoprotein concentrations were achieved after 4 weeks, and remained stable thereafter during the study. Mean fasting plasma cholesterol concentrations decreased from 280.5 +/- 60.2 mg% to 190.2 +/- 40.4 mg/dl (p less than 0.005) (-47%); mean plasma LDL-cholesterol concentrations also decreased from 257.6 +/- 13.4 mg% to 190.5 +/- 15.4 mg/dl (p less than 0.001) (-35%). Apolipoprotein A and B concentrations decreased significantly from 1.78 +/- 0.19 to 1.40 +/- 0.22 g/L (p less than .005) and 1.81 +/- 0.26 to 1.38 +/- 0.20 g/L (p less than .005). These data substantiate the view that Simvastatin is well tolerated and that no serious clinical or adverse laboratory effects have been observed. It appears to be a promising drug for the effective control of hyperlipemia in a large proportion of hypercholesterolemic patients, reducing their cardiovascular morbidity while on CAPD.
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PMID:Therapeutic effects of simvastatin on hyperlipidemia in CAPD patients. 225 55

The efficacy, safety, and tolerability of simvastatin (20 mg twice a day) in the treatment of hyperlipidaemia due to unremitting nephrotic syndrome was compared with that of cholestyramine (8 g twice a day) in a crossover trial in ten patients. Two patients were taken off the protocol, one because he could not tolerate cholestyramine and one because of non-compliance with the cholestyramine regimen. No clinical or laboratory adverse experiences were noticed during the study in the other eight patients. Simvastatin was significantly more effective than cholestyramine in reducing the hyperlipidaemia--it produced a 36% decrease in total cholesterol and a 39% decrease in low density (LDL)-cholesterol, whereas cholestyramine reduced total cholesterol by 8% and LDL-cholesterol by 19%. With simvastatin the apolipoprotein B level decreased by 30%, whereas the apolipoprotein A level increased by 10%.
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PMID:Effects of simvastatin and cholestyramine on lipoprotein profile in hyperlipidaemia of nephrotic syndrome. 290 53

The safety and efficacy of combined bezafibrate-simvastatin therapy was evaluated in 49 patients with diet-resistant mixed hyperlipidaemia (type IIb). After a two-month placebo phase, patients were randomized to receive either Bezafibrate Slow Release (SR) 400 mg mane or simvastatin 20 mg nocte followed by three months combination therapy. Total cholesterol, triglycerides and high-density lipoprotein (HDL) cholesterol were measured at monthly intervals. Apolipoproteins (apo) A1 and B, lipoprotein (a) [Lp(a)] and fibrinogen were measured before and after each treatment. Simvastatin was more effective than Bezafibrate SR in reducing total cholesterol (2.0 vs. 1.1 mmol/l, p = 0.003) and lowering LDL cholesterol (1.7 vs. 0.4 mmol/l, p = 0.0001) whereas Bezafibrate SR was more effective in reducing triglycerides (by 41% vs. 17%, p = 0.001) and fibrinogen (by 23% vs. 3%, p = 0.004). Compared with simvastatin monotherapy, combined drug therapy induced further reductions in triglycerides (by 26%, p = 0.0003) and apoB (by 11 mg/dl, p = 0.03) and an increase in apoA1 (by 21 mg/dl, p = 0.0008). Symptomatic and biochemical adverse events did not occur more frequently on combined drug therapy than on monotherapy. The combination of bezafibrate and simvastatin was more effective in controlling mixed hyperlipidaemia than either drug alone and did not provoke more adverse events.
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PMID:Combined bezafibrate and simvastatin treatment for mixed hyperlipidaemia. 764 34

Hyperlipidemia is common in heart transplant patients. Lipid-lowering therapy poses special problems, yet may be important because accelerated graft atherosclerosis is the major factor limiting long-term survival. Simvastatin 5 mg/day was started > 6 months after surgery in 26 consecutive cardiac transplant recipients with a total serum cholesterol level of > 250 mg/dl. The dose of simvastatin was increased in 5-mg increments until total serum cholesterol fell below 220 mg/dl or until side effects developed or up to a maximal dose of 20 mg/day. The final average daily dose was 10 mg. Changes in serum lipid levels after 6 months of therapy were compared with data from a matched and concurrent control group of heart transplant patients not taking simvastatin. Immunosuppression for both groups consisted of CsA, AZA, and corticosteroids. In the simvastatin-treated group, the serum level of total cholesterol decreased by 27% from 315 +/- 53 to 230 +/- 38 mg/dl (P < 0.0001), low density lipoprotein cholesterol decreased by 40% from 205 +/- 30 to 123 +/- 32 mg/dl (P < 0.0001), and triglycerides decreased by 21% from 177 +/- 89 to 140 +/- 49 mg/dl (P < 0.01). There was no significant change in high density lipoprotein cholesterol level. Body weight and CsA blood levels remained stable. Steroid intake decreased during the study period to a similar extent in both the treated and the control groups. In the control group, no significant changes in serum lipid levels were observed. Two patients experienced a mild form of myotoxicity. In one other patient simvastatin treatment was stopped after an acute pancreatitis of uncertain etiology developed. Low dose simvastatin effectively lowers total serum cholesterol, low density lipoprotein cholesterol, and triglycerides in heart transplant patients. With due precautions, the safety profile of the drug in this patient population seems reasonable.
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PMID:Safety and efficacy of low dose simvastatin in cardiac transplant recipients treated with cyclosporine. 803 6

Patients with non-insulin-dependent diabetes mellitus (NIDDM) are at high risk of cardiovascular disease for many reasons and especially due to the fact that dyslipidemias are more frequent in this group of patients. Fibrate derivatives are the drugs of choice when hypertriglyceridemia is the main lipid anomaly. When hypercholesterolemia is predominant, the use of resins and nicotinic acid has been advocated but these drugs are poorly tolerated on a long-term basis. We assessed the effect of simvastatin, a recent HMG-CoA reductase inhibitor in 12 NIDDM patients with hypercholesterolemia. After 4 weeks of placebo, which did not significantly modify the lipid values, patients were given simvastatin at increasing dosages (from 10 to a maximum of 40 mg daily) during 24 weeks. Compliance and clinical tolerance were excellent. There was no major biological side effect, but a significant deterioration of glucose control was noted at the end of the study. Simvastatin reduced total cholesterol by 28%, LDL-cholesterol by 36% and apo B by 31%. Concomitantly, there was an increase of HDL-cholesterol by 15%. This improvement of lipid profile persisted during the 24 weeks of treatment. Comparing the patients with pure hypercholesterolemia to those presenting combined hyperlipidemia, it was evident that the hypolipidemic effect was more marked in the diabetic subjects with combined hyperlipidemia.
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PMID:Efficacy of simvastatin for lowering cholesterol in non-insulin dependent diabetic patients with hypercholesterolemia. 806 75


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