Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nephrotic-range proteinuria is associated with a several-fold increase risk of cardiovascular infarction. This increased risk is accompanied by endothelial dysfunction, which is not related to increased blood pressure and is not correctable by acute administration of L-arginine. The latter is in direct contrast to what has been found in patients with primary hypercholesterolemia, suggesting that either hypoalbuminemia itself or other aspects of the dyslipidemia characteristic of the nephrotic syndrome impair endothelial function. Lysophosphatidylcholine (lyso-PC) is formed during oxidative modification of cholesterol, and lyso-PC in oxidized low-density lipoprotein (LDL) is responsible for reduced endothelial function in vitro. However, in the circulation, lyso-PC is tightly bound to albumin. Indeed, the addition of albumin can restore endothelial function, which was previously disturbed by lyso-PC. Hypoalbuminemia induces a shift in lyso-PC to lipoproteins, notably LDL, and to erythrocytes. The latter directly induces a reduction in deformability that can also be corrected by the addition of albumin. Hypoalbuminemia may disturb endothelial function, either by directly affecting Gi-protein-dependent signal transduction or indirectly by changing the configuration of the cell membrane. Such a change in cell membrane configuration will disturb binding of ligands to receptors and of endothelial nitric oxide (NO) synthase to caveolin. However, other pathways have been suggested, such as stimulation by lyso-PC of vasoconstriction mediated by protein kinase C. It remains to be shown whether lipid-lowering and antiproteinuric strategies have independent positive effects on endothelial function in nephrotic subjects.
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PMID:Endothelial function in proteinuric renal disease. 1041 39

A 45-year-old nondiabetic man presented with features resembling diabetic triopathy. He worked in a rayon manufacturing plant and was exposed to toxic levels of carbon disulfide (CS(2)). Clinical abnormalities included peripheral and central nervous system abnormalities as well as retinopathy, dyslipidemia, cardiovascular disease, and nephrotic syndrome. He later developed focal sclerosing glomerulonephritis. The latter has not previously been described in cases of CS(2) exposure. Terminally, he developed end-stage renal disease and progressive dementia, both of which were thought to be consequences of CS(2) exposure earlier in life.
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PMID:Carbon disulfide nephropathy. 1097

Vascular calcification is a common feature in chronic dialysis patients, but their clinical significance is debated and the role of kidney transplantation (TP) in the natural history of their development has received scanty attention. We will describe a case of dramatic worsening of vascular calcifications during TP in a young patient in spite of early and successful parathyroidectomy (PTX), and will discuss other causes which might be putatively linked to vascular damage during the time of TP. A 37-year-old man on regular dialytic treatment (RDT) for 11 years, received his first cadaveric transplantation in January 1993. He underwent PTX 6 months after TP because of the lack of decreasing in parathyroid hormone values despite normal graft function. Although PTX was effective, a dramatic worsening was evident in large as well as in medium and small-sized arteries during the following three years of TP. In February 1997, few months after starting dialysis again because of the recurrence of his primary membranoproliferative glomerulonephritis (MPGN), the patient experienced myocardial infarction followed by aorto-coronary bypass (right coronary artery and anterior descending coronary artery) and leg "claudicatio". Though a role for parathyroid hormone in vascular disease has been commonly accepted, the case here reported clearly shows that blunting parathyroid gland activity may be unable to avoid the worsening of a process of vascular disease during the time of TP. Many other factors--linked to the time of TP--may be involved in vascular diseases, such as nephrotic syndrome, dyslipidemia, hypertension and drugs. In the case of our patient, a clear cut risk factor for his progressive atherosclerosis can be designated hyperlipidema and other disturbancies secondary to a nephrotic syndrome due to relapse of MPGN, together with persistent hypertension. This is the first case report in the English literature which clearly demonstrates that TP may add fuel to the fire of vascular disease also in young people and even in the absence of parathyroid hyperactivity, perhaps on the basis of a favorable genetic background. Furthermore, the history of our patient demonstrates that vascular calcifcation heralds major cardiovascular diseases.
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PMID:Dramatic worsening of vascular calcifications after kidney transplantation in spite of early parathyroidectomy. 1114 Aug 10

Acylation-stimulating protein (ASP) is an adipocyte-derived protein that has recently been suggested to play an important role in the regulation of lipoprotein metabolism and triglyceride (TG) storage. ASP also appears to have a role in the regulation of energy balance. In addition to its role as a hormonal regulator of body weight and energy expenditure, leptin is now implicated as a regulatory molecule in lipid metabolism. However, little is known about the alterations in fasting plasma ASP and leptin concentrations in the nephrotic syndrome. As hyperlipidemia is one of the most striking manifestations of the nephrotic syndrome, we have investigated fasting plasma ASP and leptin levels and their relation to lipid levels in this syndrome. Twenty-five patients with untreated nephrotic syndrome and 25 age-, sex-, and body mass index-matched healthy controls were included in the study. Fasting plasma lipoproteins, TG, total cholesterol, lipoprotein(a), apolipoprotein AI (apoAI), apoB, urinary protein, plasma albumin, third component of complement (C3), ASP, and leptin levels were measured in both groups. Total cholesterol, TG, low and very low density lipoproteins, lipoprotein(a), apoB, and urinary protein levels were increased in the patient group, whereas plasma albumin, high density lipoprotein cholesterol, and apoAI levels were decreased compared with those in the control group (P < 0.001). Plasma ASP levels were significantly higher in the patient group compared with the control subjects (133.72 +/- 65.14 vs. 29.93 +/- 12.68 nmol/liter; P < 0.001), whereas leptin (2.69 +/- 2.06 vs. 3.99 +/- 2.99 ng/ml; P = 0.118) and C3 (1.01 +/- 0.25 vs. 1.06 +/- 0.23 g/liter; P = 0.662) levels were not significantly different between the two groups. Plasma leptin levels were correlated with body mass index in both nephrotic patients (r(s) = 0.86; P < 0.001) and controls (r(s) = 0.98; P < 0.001), but were not correlated with the other parameters. Fasting ASP concentrations showed no correlation with body mass index, proteinuria, plasma albumin, leptin, or any lipid parameter in either group, but C3 levels (in patient group: r(s) = 0.92; P < 0.001; in control group: r(s) = 0.68; P < 0.001). Our findings showed that plasma ASP levels were significantly elevated, whereas leptin levels were normal in the nephrotic syndrome. Increased ASP levels in the setting of dyslipidemia in the nephrotic syndrome raise the possibility of an ASP receptor defect in adipocytes, which also suggests the existence of so-called ASP resistance. Moreover, it is possible that ASP activity is maximal, but cannot keep up with increased rates of lipid production by the liver. Thus, further studies are needed to elucidate the mechanism or source (adipocytes, the liver, or both) of elevated ASP concentrations in the nephrotic syndrome.
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PMID:Increased fasting plasma acylation-stimulating protein concentrations in nephrotic syndrome. 1183 32

Dyslipidemia increases the risk of cardiovascular events among individuals with renal disease, and there is a growing body of evidence that it hastens the progression of renal disease itself. Children with nephrotic syndrome or renal transplants have easily recognized hyperlipidemia. Among those with chronic renal insufficiency or end-stage renal disease, detection of dyslipidemia requires more careful analysis and knowledge of normal pediatric ranges. Disordered lipoprotein metabolism results from complex interactions among many factors, including the primary disease process, use of medications such as corticosteroids, the presence of malnutrition or obesity, and diet. The systematic treatment of dyslipidemia in children with chronic renal disease is controversial because conclusive data regarding the risks and benefits are lacking. Hepatic 3-methylglutaryl coenzyme A reductase inhibitors (statins), fibrates, plant stanols, bile acid-binding resins, and dietary manipulation are options for individualized treatment. Prospective investigations are required to guide clinical management.
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PMID:Dyslipidemia in pediatric renal disease: epidemiology, pathophysiology, and management. 1198 Dec 90

The review covers principles of treatment with statins, their pharmacokinetics, characterizes six most usable in clinical practice statins and one novel drug--rozuvastatin from a "superstatins" group. Statins proved effective in primary and secondary prophylaxis of coronary atherosclerosis, secondary prevention of ischemic stroke and diseases of peripheral arteries with intermittent claudication, prevention of Alzheimer's disease. Statins are indicated in dyslipidemia in diabetes mellitus type 2, nephrotic syndrome and renal insufficiency. Further studies are needed on statins' effects on hypercholesterolemia, their antiinflammatory and immunomodulating properties, the ability to enhance revascularization of ischemic tissue and stimulate proliferation of osteoblasts in osteoporosis.
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PMID:[Statins in clinical practice]. 1208 96

This review covers lipids, apolipoproteins, and receptors involved in the dyslipidemia of the nephrotic syndrome in humans and in rat or mouse models of the syndrome. It emphasizes research published during the last decade, though earlier work is cited. The focus is on the biosynthesis and catabolism of the plasma lipoprotein density classes and the role of receptors and enzymes in regulating lipoprotein metabolism in nephrosis. Although the factors responsible for the initiation of the hepatic and peripheral cellular responses to proteinuria and hypoalbuminemia remain elusive, recent work highlights the increased risk of atherosclerosis and the progression of renal disease associated with nephrotic dyslipidemia. Understanding of the role of the kidney in the catabolism of apolipoproteins entering the glomerular filtrate has been enhanced by the discovery of the receptor-mediated uptake of apolipoprotein A-I, the main apoprotein of HDL. The following aspects of lipid and lipoprotein metabolism in relation to nephrosis are discussed, with attention paid to differences between experimental nephrosis and the human nephrotic syndrome:(1) Albumin metabolism (2) Lipoprotein metabolism (3) Receptors (4) LCAT and CETP (5) Hepatic and Lipoprotein Lipase (6) Lipid metabolism (7) Lipiduria (8) Hypotheses and Questions (9) Summary.
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PMID:Lipoprotein metabolism in the nephrotic syndrome. 1213 20

In this study 43 patients with idiopathic nephrotic syndrome were randomly distributed into 2 age- and sex-matched groups. The first group was given fluvastatin while the second was used as control. The cases in the 2 groups were evaluated clinically, biochemically (creatinine clearance, albumin, 24-hour proteinuria, and lipogram), neurologically, and histopathologically (examination of renal biopsies obtained basally and after 1 year of treatment with fluvastatin). In the fluvastatin-treated group but not in the control group, we observed a significant reduction in cholesterol, low-density lipoprotein, and triglyceride. Clinical and laboratory assessment showed satisfactory tolerance of the drug by the patients. Proteinuria, serum albumin and creatinine clearance values were significantly better in the statin-treated patients. There was no difference in glomerular sclerosis between the 2 groups while interstitial fibrosis and renal fat deposits were less in the statin-treated group. The reduction in renal fat deposits in the statin-treated group was highly significant, while that of interstitial fibrosis was not. We conclude that: (1) statin can be safely and effectively used in the treatment of dyslipidemia in patients with persistent idiopathic nephrotic syndrome; (2) control of dyslipidemia in nephrotic patients is associated with better control of proteinuria and creatinine clearance; (3) statin treatment may cause regression of renal fat deposits in patients with nephrotic syndrome, and (4) longer term studies are still required to study further possible beneficial effects on renal histology and disease progression.
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PMID:Impact of treatment of dyslipidemia on renal function, fat deposits and scarring in patients with persistent nephrotic syndrome. 1213 63

Changes in lipid metabolism is one of the most important features of steroid sensitive nephrotic syndrome. Increased serum lipid level not always is connected with disease activity and sometimes may persist for long time, especially in frequently relapsing nephrotic syndrome. Hyperlipidemia and dyslipidemia are connected with cardiovascular diseases and development of glomerulosclerosis. Omega-3 (omega-3) polyunsaturated fatty acids have positive influence on lipid metabolism, diminishing hypercoagulation and a risk of cardiovascular diseases. The aim of this study was to examine influence of omega-3 polyunsaturated fatty acids on lipid disturbances in children with steroid sensitive nephrotic syndrome. Forty-eight patients were included in the study; 24 of them were treated with prednisolone (control group) and 24 were treated with prednisolone and fish oil (6 mg/day) along with symptomatic therapies. Serum lipid profile and spectrum of fatty acids before treatment and three months after start of the treatment were evaluated. Before treatment, contents of serum fatty acids and lipids did not differ between the groups. The study showed decrease in serum triglycerides (p<0.06) and omega-6 polyunsaturated fatty acids (p<0.02), increase in concentration of omega-3 polyunsaturated fatty acids and the ratio of 20:5 omega-3/20: omega-6 (eicosapentaenoic/arachidonic acids) (p<0.001). Cholesterol, HDL-Ch, LDL-Ch concentrations did not change under the treatment with fish oil. We conclude that fish oil might be useful as an agent normalising lipid metabolism in children with steroid sensitive nephrotic syndrome.
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PMID:[Influence of omega-3 fatty acids on lipid metabolism in children with steroid sensitive nephrotic syndrome]. 1276 26

Cardiovascular risk is dramatically increased in patients with end-stage renal disease (ESRD). However, even minor dys-functions such as microalbuminuria or a mild increase in serum creatinine (Cr) have a major impact on cardiovascular risk. Increased cardiovascular risk is present in multiple populations, including general populations, patients with moderate risk such as hypertensives, and high-risk patients including patients with heart failure and myocardial necrosis. There are many mechanisms underpinning the increased cardiovascular risk. Regarding atherosclerosis, the kidney can be victim or villain. On the one hand, both kidney disease per se and renal insufficiency can induce vascular damage, thereby increasing cardiovascular risk. Kidney disease without renal insufficiency can cause an increased prevalence in hypertension, dyslipidemia (nephrotic syndrome), sympathetic system hyperactivity, and in renin angiotensin system hyperactivity. A moderate-severe renal insufficiency can induce an increase in many vasculotoxic substances such as ADMA, lipoprotein(a), homocysteine, disturbances in calcium and phosphate metabolism, anemia and left ventricular hypertrophy. A more severe renal insufficiency can induce the ominous malnutrition-inflammation-atherosclerosis (MIA) syndrome. On the other hand, the kidney can be the victim of atherosclerosis. Ischemic nephropathy, caused by atherosclerotic renal artery disease and atheroembolism from abdominal aorta are two examples. Finally, it is important to consider that the kidney, being an organ with a wide vasculature, could be a sophisticated sensor of subclinical cardiovascular damage.
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PMID:[Hypertension, atherosclerosis and kidney]. 1578 9


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