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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this article we have focused on the evolving pattern of nutritional management of the person with diabetes. Before the advent of insulin in 1922, it was sufficient to identify a meal plan that would keep people alive until they could be rescued from mortality due to diabetic ketoacidosis (the major killer of the era) by pharmacologic means. Now, the life expectancy of people with diabetes is close to that of the general population and focus has turned to combating the new threats of macrovascular disease and kidney failure. Over recent years the susceptibility of NIDDM patients to macrovascular events has been established and the twofold increase in risk of a heart attack in diabetic men is outshadowed by the four- to fivefold risk in diabetic women and the 13- to 17-fold greater risk in diabetics under the age of 30 years compared with their nondiabetic counterparts. The mechanism behind the susceptibility to macrovascular disease has generated a veritable plethora of investigations focusing on the atherogenic profile of diabetic dyslipidemia. Hyperinsulinemia, insulin resistance, and overtreatment of the diabetic with insulin have been claimed as contributors to the development of premature atherosclerosis. The hallmark of the diabetic dyslipidemia is the tendency to elevated VLDL triglyceride levels and the closely linked reduction in HDL cholesterol. Although there is some controversy on the relationship between triglyceride levels and the incidence of CAD, there is no doubt that HDL is an independent risk factor. It can now be safely said that elevated triglycerides are a risk factor in women and that in men elevated triglycerides constitute a risk factor if accompanied by a reduced HDL level. For these reasons, any approach to nutritional management of the diabetic must attempt not only to normalize glycemia but to make every effort to reduce the atherogenic profile. In the accompanying algorithm (Fig. 4), we consider the risk factors conducive to a reduction in life expectancy and offer a meal plan that is appropriate for the individual with diabetes. For the 80% of NIDDM patients who are obese, a diet with a reduction of 500 to 1000 kcal is in order and this may be achieved by a periodic VLCD. We examined carefully the controversy related to yo-yo dieting and support the notion that its effects in humans are not all that harmful. Ingestion of simple sugars in the high carbohydrate diet has negative effects both on carbohydrate and lipid metabolism.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The good, the bad, and the ugly in diabetic diets. 131 32

Subjects with chronic renal failure have a greatly increased risk of coronary heart disease and dyslipidemia. Relatively few studies have examined the relationship of chronic renal failure to lipoprotein (Lp)(a) concentrations, an important risk factor for coronary heart disease. Diabetic subjects have been reported to have both increased Lp(a) concentrations and an increased risk of renal failure, thereby possibly confounding the Lp(a)-renal failure association. The association between Lp(a) and chronic renal failure in 359 control subjects and 111 subjects with renal failure was examined. Lp(a) (in milligrams per deciliter) was elevated in subjects with chronic renal failure, regardless of ethnicity (Mexican Americans, 19.8 +/- 2.7 versus 14.1 +/- 1.3; P = 0.03; non-Hispanic white patients, 24.9 +/- 3.0 versus 16.3 +/- 1.2; P = 0.006;). These differences persisted after adjustment for diabetes and ethnicity (P < 0.001). The type of treatment for chronic renal failure (diet, hemodialysis, or peritoneal dialysis) did not have an effect on Lp(a) concentrations. Lp(a) levels were not correlated with the level of creatinine in subjects with chronic renal failure. Thus, the elevation of Lp(a) levels in renal failure must occur early in renal failure, or alternatively, elevated Lp(a) levels may promote progression to chronic renal failure. These results indicate that Lp(a) concentrations are increased in chronic renal failure and may increase the risk for coronary heart disease in these subjects.
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PMID:Increased lipoprotein(a) concentrations in chronic renal failure. 148 54

Chronic renal failure is associated with abnormalities in lipoprotein metabolism that may contribute to premature atherosclerosis and early mortality in patients on dialysis. In previous studies, we found that plasma clearance of radiolabelled low density lipoprotein (LDL) was retarded in nephrectomized guinea pigs left with one-sixth of normal functioning renal mass. To elucidate potential mechanisms of delayed LDL clearance, we compared binding of LDL to hepatic membranes from both normal and uremic guinea pigs. One hundred micrograms of the 8000-100,000 X g hepatic microsomal protein was incubated with 125I-labelled normal guinea pig LDL (10-150 micrograms/mL) for 1 h at 37 degrees C, and the membrane washed and pelleted by centrifugation in a Beckman Ti 42.2 rotor. Parallel incubations with excess unlabelled LDL were done to determine specific binding. LDL specific binding to uremic hepatic membranes was significantly impaired compared with normal ones. The major abnormality, as determined by Scatchard transformation of the binding data, was a reduction of the apparent maximal binding of LDL to uremic membranes, with an average Bmax of 4.1 micrograms/mg protein compared with 6.6 micrograms/mg protein for normal hepatic microsomes. The affinity of LDL for uremic liver membranes was only slightly diminished with a mean apparent Kd of 35.2 micrograms/mL in comparison with 21.8 micrograms/mL for normal liver membranes. These results provide a biochemical explanation for the diminished LDL clearance in uremia and may account for the dyslipidemia of renal failure.
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PMID:Impaired binding of low density lipoprotein to hepatic membranes from uremic guinea pigs. 166 54

Fifty-two patients with terminal renal failure (TRF) placed on elective hemodialysis were examined for serum lipids and red blood cell membranes with the aid of chromatographic separation of lipids in thin-layer silica gel on Silufol plates followed by densitometry. Spectrocytophotometry was employed to study red blood cell distribution on the basis of the content of lipoproteins in TRF patients. Fluidity of the lipid bilayer of the red blood cell membrane was measured on Hitachi spectrofluorimeter according to the degree of eximerization of fluorescent pyrene. Dyslipidemia manifested itself as hyperlipidemia, hypertriglyceridemia, hypercholesterolemia and hyperphosphatidylcholinemia. The lipid profile of the red blood cell membranes was found to be deranged, which was evidenced by the reduced content of lipoproteins, total phospholipids, triglycerides, and cholesterol esters. In addition, there was a significant rise in the content of free cholesterol, lysolecithin and phosphatidyl ethanolamine. Impairment of lipid exchange between blood serum and the red blood cell membrane in TRF patients is under discussion. The changes in the lipid spectrum of the red blood cell membranes mirror their morphofunctional failure, supported by derangement of fluidity of the lipid bilayer of the red blood cell membrane. Both increase of viscosity of the lipid bilayer of the red blood cell membrane caused by a high level of cholesterol in the membrane and changes in the cholesterol/phospholipid ratio and reduction of the lipid bilayer viscosity related to the rise of the content of membrane lysolecithin in part of TRF patients were discovered. Hemodialysis influenced the lipid content of blood serum, producing no effect on the lipid spectrum of the red blood cells membrane.
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PMID:[Disordered lipid metabolism and the morphofunctional instability of the erythrocyte membranes in patients with terminal kidney failure]. 221 35

A high rate of cardiovascular death in renal patients, particularly patients with endstage renal failure, has not been well appreciated in the past. It is obvious that cardiovascular lesions are more severe than can be explained by the classical risk factors of elevated blood pressure and dyslipidemia. In renal failure, a number of pathomechanisms are operative which may be paradigms of more general relevance, e.g. activation of the renin and sympathetic system, inhibition of the vasoconstrictor NO system, left ventricular hypertrophy in excess of what is expected for high blood pressure. A paradox inverse relation between lipid concentrations and cardiovascular death, i.e. a protective effect of hyperlipidemia, in dialysed patients, presumably results from the confounding effect of malnutrition, high lipid levels being a substitute marker of adequate nutrition.
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PMID:Excess cardiovascular mortality in the uremic patient--what does it teach for other risk factors in the non-renal patient? 773 91

Eight patients with biopsy-proven primary nephrotic syndrome were included in an open, prospective, two-year study of lovastatin. One patients was withdrawn after 6 months due to an asymptomatic rise in creatinine phosphokinase, which was rapidly reversed after interruption of lovastatin. In the remaining patients, treatment was well-tolerated and produced no side effects. After 2 years of treatment, these 7 patients had decreases in total cholesterol from 446 +/- 165 to 250 +/- 57 mg/dl (p < 0.001), LDL cholesterol from 343 +/- 121 to 174 +/- 49 mg/dl (p < 0.001), Apo B lipoprotein from 162 +/- 60 to 108 +/- 42 mg/dl (p < 0.05), triglycerides from 336 +/- 273 to 182 +/- 71 mg/dl (p < 0.04). There was no change in HDL cholesterol. The LDL/HDL cholesterol and the total/HDL cholesterol ratios fell from 15.0 +/- 12.1 and 19.1 +/- 17.2 mg/dl before the study to 4.4 +/- 1.2 and 6.3 +/- 1.6 mg/dl, respectively, at 2 years. A decrease in proteinuria from 8.6 +/- 4.6 to 5.0 +/- 3.7 g/24 h (p < 0.02) was noted in 4 patients on concomitant ACE inhibitor therapy. Renal function remained stable in all patients throughout the study, except for one whose moderate impairment progressed to end-stage renal failure requiring dialysis 3 months poststudy. We conclude that long-term lovastatin in patients with primary nephrotic syndrome is an effective and generally safe treatment for accompanying dyslipidemia.
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PMID:Long-term effect of lovastatin on lipoprotein profile in patients with primary nephrotic syndrome. 805 Feb 7

Dyslipidemia is a common feature of renal failure. It is primarily caused by delayed catabolism of lipoprotein particles. This is due to decreased activity of the key enzymes of delipidation of lipoprotein particles (LPL, HTGL) and of HDL remodeling (LCAT). In epidemiological studies no correlation has been found in dialysis patients between total lipids and atherosclerotic endpoints and a modest relation, at best, between more sophisticated apolipoprotein indices and vascular disease. Such lack of correlations are presumably explained by malnutrition as a confounding factor. Fascinating new observations in animal studies document that in various models of renal damage, development of glomerulosclerosis is accelerated by hyperlipoproteinemia, either endogenous hyperlipoproteinemia or hyperlipoproteinemia induced by feeding of fat. Conversely, correction of hyperlipoproteinemia mitigates development of glomerulosclerosis. Currently there is no firm evidence that the same is true in humans.
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PMID:[Dyslipoproteinemia: its importance in nephrology]. 814 62

The main points to note in terms of strategies in renal failure and the impact of lipids are: 1) Timing and typing of dyslipidemia; 2) Occurrence of dyslipidemia in the course of strategies (conservative, dialysis and transplantation); 3) How the strategies can handle the impact of lipids. Analysis of point 1 confirms what a complex profile uremic dyslipidemia presents, involving the type, class, composition and enzyme systems involved in lipid metabolism. In conservative and dialysis, type IV (triglycerides) predominates; in transplantation, type II (cholesterol). Examination of point 2 shows the non obligatory relationship between dyslipidemia and the various strategies of treatment. Lipid abnormalities, type IV or II, occur in 50-60% of patients. Uremic factors for dyslipidemia include: 1) enhanced hepatic stimulation or altered removal in conservative strategies; 2) the same causes plus "specific" promotors in dialysis (dialysis fluid, plasticizer leaching; bioincompatibility, etc.); 3) steroid therapy and other "accessories" in transplantation. A genetic predisposition is very likely present in all patients. Point 3, finally, analyzes the various "supplements" that each strategy requires to cope with the lipid impact. Generic rules (ranging from doing nothing, to diet, drugs, etc.) are of value in all strategies when dyslipidemia occurs. More specific rules include: a) Conservative strategies: appropriate dietetic optimization and modulation (protein-lipid-carbohydrate ratio in terms of calories); b) Dialysis: timing treatment and improving biocompatibility; c) Transplantation: reducing steroids as much as possible.
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PMID:Strategies in renal failure and the impact of lipids. 817 99

Existing evidence suggests that dyslipidemia associated with long-lasting nephrotic syndrome and with chronic renal insufficiency may favor in the long run the occurrence of cardiovascular complications, and also aggravate glomerular damage with a pathological mechanism analogous to atherosclerosis. Correction of hypercholesterolemia and hypertriglyceridemia is therefore mandatory in both clinical conditions. This goal can be achieved with the combination of dietary intervention and the administration, even for long periods of time, of hypolipemic drugs (hydroxymethylglutaryl coenzyme A, HMGCoA, reductase inhibitors, to correct hypercholesterolemia in nephrotic syndrome, and fibric acids, to correct hypertriglyceridemia in uremic and dialyzed patients are the drugs of choice). In end-stage renal failure, the choice of the type of dialysis is also important. The value of extracorporeal LDL cholesterol removal is still to be proven.
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PMID:Treatment of hyperlipidemia in human renal disease. 823 7

Growth retardation is a common feature in children with end-stage renal failure (ESRF). Medical management of renal insufficiency rarely normalizes growth and optimistic reports on the effect of rhGH treatment on growth velocity may presage more extensive use of rhGH in pediatric nephrology. Ample evidence has shown beneficial effects of GH replacement therapy in both childhood and adolescent hypopituitarism. However, the remarkably few side effects of treatment reported in these conditions cannot necessarily be extrapolated to children with ESRF. Uremia is associated with a wide range of metabolic and hormonal derangements including decreased glucose tolerance. This is mainly due to impaired insulin-stimulated glucose disposal in peripheral tissues and insufficient insulin-induced suppression of hepatic glucose production. Insulin-stimulated glucose uptake in skeletal muscle in ESRF is reduced by 30-50% as compared to that in healthy subjects, and a reduction may be detected even in subjects with a more moderate reduction in renal function (GFR around 25 ml/min). Dialysis therapy improves the disturbed insulin action significantly. The cause of the insulin resistance in ESRF is multifactorial. Impaired physical fitness, accumulation of uremic toxins, raised levels of GH and glucagon, metabolic acidosis, dyslipidemia and the medication applied may all contribute. If exogenous GH administration is added to the already marked uremic insulin resistance, insulin action may be severely disturbed and the secondary hyperinsulinism further magnified. However, frank diabetes mellitus does not develop unless the beta cells fail to meet the enhanced demands. This will probably occur only in patients with a beta-cell genotype pivotal for the phenotypic expression of non-insulin dependent diabetes mellitus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose metabolism in chronic renal failure with reference to GH treatment of uremic children. 837 90


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