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)

The effects of oral estrogen replacement (ethinyl estradiol 0.02 mg/d) on plasma triglyceride, total cholesterol, very-low-density lipoprotein (VLDL) cholesterol, low-density lipoprotein (LDL) cholesterol, high-density lipoprotein (HDL) cholesterol, and apolipoprotein (apo) A-I and B levels and LDL particle size were assessed in 20 postmenopausal women with a previous hysterectomy and various forms of dyslipidemia (LDL cholesterol > or = 4.14 mmol/L [160 mg/dL] and/or HDL cholesterol < or = 1.03 mmol/L [40 mg/dL]). All subjects were studied while on a standard cholesterol-lowering diet, and were sampled in the fasting state before beginning estrogen therapy and after a mean of 13 weeks of estrogen therapy. Lipids were measured by standardized enzymatic techniques, apos were measured by enzyme-linked immunoassays, and LDL particle size was measured by gradient gel electrophoresis. Mean values for plasma lipid parameters (mmol/L) at baseline and during estrogen replacement were as follows: triglyceride, 2.11 and 2.75 (30% increase); total cholesterol, 7.45 and 6.52 (13% decrease); VLDL cholesterol, 1.09 and 1.22 (12% increase); LDL cholesterol, 5.09 and 3.70 (27% decrease); and HDL cholesterol, 1.27 and 1.58 (24% increase). Mean values for apo A-I were 163 and 254 mg/dL (56% increase), and for apo B they were 170 and 148 mg/dL (13% decrease). The LDL particle score was 4.09 and 4.52 (11% smaller). Changes in all parameters were statistically significant (P = .05) except for VLDL cholesterol. These data indicate that estrogen replacement is effective in decreasing LDL cholesterol and apo B concentrations and increasing HDL cholesterol and apo A-I concentrations in dyslipidemic postmenopausal women, but it should not be used in patients with baseline fasting triglyceride levels higher than 2.82 mmol/L (250 mg/dL) unless it is accompanied by a progestin. Our data indicate that this form of estrogen replacement could lower the risk of coronary artery disease (CAD) by more than 50% in these women, based on favorable alterations in plasma lipoproteins.
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PMID:Effects of estrogen replacement on plasma lipoproteins and apolipoproteins in postmenopausal, dyslipidemic women. 143 90

Hyperlipidemia is a prominent feature of the nephrotic syndrome. Lipoprotein abnormalities include increased very low and low density lipoprotein (VLDL and LDL) cholesterol and variable reductions in high density lipoprotein (HDL) cholesterol. We hypothesized that plasma cholesteryl ester transfer protein (CETP), which influences the distribution of cholesteryl esters among the lipoproteins, might contribute to lipoprotein abnormalities in nephrotic syndrome. Plasma CETP, apolipoprotein and lipoprotein concentrations were measured in 14 consecutive untreated and 7 treated nephrotic patients, 5 patients with primary hypertriglyceridemia, and 18 normolipidemic controls. Patients with nephrotic syndrome displayed increased plasma concentrations of apoB, VLDL, and LDL cholesterol. The VLDL was enriched with cholesteryl ester (CE), shown by a CE/triglyceride (TG) ratio approximately twice that in normolipidemic or hypertriglyceridemic controls (P < 0.001). Plasma CETP concentration was increased in patients with untreated nephrotic syndrome compared to controls (3.6 vs. 2.3 mg/l, P < 0.001), and was positively correlated with the CE concentration in VLDL (r = 0.69, P = 0.004) and with plasma apoB concentration (r = 0.68, P = 0.007). Treatment with corticosteroids resulted in normalization of plasma CETP and of the CE/TG ratio in VLDL. An inverse correlation between plasma CETP and HDL cholesterol was observed in hypertriglyceridemic nephrotic syndrome patients (r = -0.67, P = 0.03). The dyslipidemia of nephrotic syndrome includes increased levels of apoB-lipoproteins and VLDL that are unusually enriched in CE and likely to be atherogenic. Increased plasma CETP probably plays a significant role in the enrichment of VLDL with CE, and may also contribute to increased concentrations of apoB-lipoproteins and decreased HDL cholesterol in some patients.
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PMID:Increased concentration of plasma cholesteryl ester transfer protein in nephrotic syndrome: role in dyslipidemia. 147 91

Nephrotic syndrome causes hypercholesterolemia. Chronic renal failure results in hypertriglyceridemia, low HDL cholesterol and, more often, apolipoprotein abnormalities. This dyslipidemia is not corrected by hemodialysis. Transplantation corrects it but leads to other kinds of lipid abnormalities. Whether the treatment of these potentially atherogenetic abnormalities is beneficial of not remains unproved. There is some evidence of lipid contribution to the constitution of glomerulosclerosis in animals but it remains hypothetical in man.
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PMID:[Kidneys and lipids]. 160 59

Recent studies suggest that circulating blood monocytes may serve as a lipid clearance system in early atherosclerotic lesions. To evaluate the influence of moderate hyperlipoproteinemia on monocyte lipid concentrations, we measured fasting serum and monocyte lipid levels in 7 healthy individuals, in 7 patients with primary hypercholesterolemia and in 17 patients with secondary dyslipidemia due to chronic renal failure; 10 of these patients were treated by hemodialysis (HD) and 7 patients by continuous ambulatory peritoneal dialysis (CAPD). The hypercholesterolemic patients had elevated serum levels of total cholesterol, LDL-cholesterol and apolipoprotein (apo) B, but normal plasma triglycerides. Patients on dialysis had elevated serum levels of triglycerides, serum cholesterol (CAPD only) and VLDL- and LDL-cholesterol (CAPD only) and apo B (CAPD only), whereas HDL-cholesterol and apo A-I levels (HD only) were decreased. In monocytes, we measured the content of free cholesterol (FC), cholesteryl esters (CE) and triglycerides (TG). The normal mean intracellular concentrations of FC, CE and TG were 48.3, 1.7 and 2.4 micrograms/mg cell protein, respectively. All monocyte lipid levels were similar in patients and controls, with the exception of a decreased content of FC (30.8 micrograms/mg) in monocytes of HD patients. We conclude that moderate increases in serum lipoprotein lipid levels are not associated with lipid accumulation in monocytes.
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PMID:Lipid levels in monocytes of patients with moderate hyperlipoproteinemia. 163 66

To investigate early detection of young families with inherited dyslipidemia, we assessed changes in circulating apolipoprotein (apo) B and A-I levels and the apo B/A-I ratio during the 1st year of life and their relations to parental values. After measuring initial dried blood spot capillary blood levels in 919 babies when aged 4.25 +/- 0.98 d (mean +/- SD), we recalled at a mean age of 8.5 +/- 2.3 mo those with levels in one or more of the following categories: the top 5% of apo B values (group 1), the top 5% of apo B/A-I ratios (group 2), the bottom 5% of apo A-I values (group 3), and a group of 18 infants (group 4) who were not in any of the above three categories. We thus obtained serum lipid measurements in 51 infants and their parents. Two of the 13 group 1 infants had persistent hyperapo B at 8.5 mo; there was an inverse relationship between apo B and apo A-I levels in this group (p less than 0.001). Two of 11 babies in group 2 had lipid profiles consistent with familial hypercholesterolemia. However, none of the infants in group 3 had evidence at 8.5 mo of abnormal apo A-I or HDL levels, nor did their parents. For groups 1, 2, and 3, there was at 8.5 mo a regression of apo B and A-I toward mean levels for the "normal" 18 babies of group 4. In contrast, the high apo B/A-I ratios in group 2 remained high (p less than 0.01) and showed evidence of tracking.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Apolipoproteins A-I and B and the B/A-I ratio in the first year of life. 180 51

This study examined apolipoprotein (apo) B metabolism in normolipemic subjects homozygous for the apo E2 (n = 4), apo E3 (n = 5), or apo E4 (n = 5) phenotype. Radioiodinated very low density lipoprotein (VLDL1) (ultracentrifuge flotation rate [Sf] 60-400) and VLDL2 (Sf 20-60) were injected into volunteers and the conversion of apo B was followed through intermediate density lipoprotein (IDL) to low density lipoprotein (LDL). Subjects homozygous for E3 converted approximately 50% of LVDL2 to LDL, the remainder being lost by direct catabolism. Those with the E2 phenotype produced less VLDL1, but converted more of it to VLDL2 (compared to E3 subjects). They displayed a characteristic dyslipidemia with the presence of slowly catabolized VLDL1 and VLDL2 remnants. LDL levels were low owing to increased direct catabolism of VLDL2 and IDL and a reduced efficiency of delipidation; only 25% of VLDL2 apo B was directed to LDL production. In contrast, E4 subjects converted more VLDL2 apo B to LDL than E3 subjects. About 70% of VLDL2 apo B was found in LDL; direct catabolism of VLDL and IDL was reduced as was the fractional catabolic rate of LDL (0.2 vs. 0.26 in E3 subjects). These changes in the VLDL----IDL----LDL metabolic cascade can in part be explained by alterations in hepatic LDL receptors with E2 subjects having higher and E4 subjects lower activities than those in E3 homozygotes.
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PMID:Influence of apolipoprotein E polymorphism on apolipoprotein B-100 metabolism in normolipemic subjects. 193 41

The metabolism of lipids in CAPD has not been fully elucidated. To further clarify the behavior of dyslipidemia in this setting we followed the values of total cholesterol (TC), HDL-cholesterol (HDL-C) and apolipoprotein (apo) parameters over time (12-24 months) in 40 patients and correlated these values and their ratios with clinical (age, gender, race, weight, diabetes, etc.) and biochemical (multiphastic screen) information. Mean HDL-C was lower in men (p less than 0.04), in whites, (p less than 0.03) and in diabetic patients (p less than 0.05), but there were no group differences for mean total cholesterol, mean apolipoprotein values, the atherogenic risk ratio TC/HDL-C, or the anti-atherogenic ratio apo A-I/apo B. Total months on CAPD was found to correlate positively with TC/HDL-C (p less than 0.05), an atherogenic risk factor, and to correlate negatively with HDL-C (p less than 0.02), an anti-atherogenic index. There was also a negative correlation with another anti-atherogenic index, apo A-I/apo B, which did not reach statistical significance (r = -0.41, p = NS). Counterbalancing this apparently increased atherogenic risk is the stability of individual parameters for each patient over time in this study. In fact, the good news appears to be that TC, HDL-C, apolipoproteins and the risk ratios TC/HDL-C and apo A-I/apo B all remained stable over 12-24 months (p = NS by paired t-test for all). Thus, we find no evidence for worsening of the uremic dyslipidemia over time with CAPD treatment.
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PMID:The impact of CAPD treatment on lipid metabolism and cardiovascular risk. 198 15

Lipid abnormalities have been postulated to contribute to renal insufficiency by a mechanism that is analogous to atherogenesis. The majority of patients treated for chronic renal failure die of cardiovascular complications. Lipid abnormalities in this group are thought to contribute to this high mortality. Proving a causal association between dyslipidemia and accelerated atherosclerosis in the end-stage renal disease population has been confounded by the presence of other pro-atherogenic conditions in this population. The current study compiles the lipid data we have accumulated from our renal population for the years 1987 to 1989. The report is divided into three main parts: The first is a survey of lipid levels and atherogenicity indicators in groups with different types of renal disease or modalities of treatment. The second is a multivariate analysis of the relationship of clinical and biochemical variables (and their interactions) to the serum lipid and apolipoprotein levels and their ratios and their change over time in a large dialysis population. In the third study, we quantitate the peritoneal clearances of apolipoproteins A-I and B in patients undergoing continuous ambulatory peritoneal dialysis and assess the relationship of these clearances to serum lipid and lipoprotein levels and risk ratios.
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PMID:Cholesterol and lipid disturbances in renal disease: the natural history of uremic dyslipidemia and the impact of hemodialysis and continuous ambulatory peritoneal dialysis. 248 49

Coronary artery disease (CAD) is the leading cause of death among whites with non-insulin-dependent diabetes mellitus (NIDDM). Several risk factors--dyslipidemia induced by NIDDM, obesity, hypertension and hyperglycemia--likely contribute to accelerated atherosclerosis. The dyslipidemia in NIDDM is characterized by abnormalities in composition and metabolism of very low density lipoproteins, low-density lipoproteins (LDL) and high-density lipoproteins (HDL). However, because of the lack of long-term prospective epidemiologic studies, the relative importance of lipoprotein risk factors in the causation of CAD in diabetic patients is not clear. The World Health Organization Multinational Study of vascular disease in diabetics observed increased prevalence of CAD in diabetic populations with relatively high levels of plasma cholesterol and supports the concept that lowering cholesterol levels may significantly reduce coronary risk in NIDDM. To determine the effectiveness of lovastatin, an inhibitor of HMG CoA reductase, for lowering cholesterol levels, 16 patients with NIDDM and mild to moderate increases in plasma cholesterol were given lovastatin (20 mg twice daily) in a randomized, double-blind, placebo-controlled manner for 4 weeks. Compared with the placebo, lovastatin reduced concentrations of total cholesterol (233 +/- 10 vs 172 +/- 7 mg/dl [standard error of the mean], p less than 0.001), LDL cholesterol (140 +/- 9 vs 101 +/- 6 mg/dl, p less than 0.001), and LDL apolipoprotein-B (108 +/- 16 vs 80 +/- 16 mg/dl, p less than 0.001). Plasma triglycerides and very low density lipoprotein cholesterol levels also decreased by 31 and 42%, respectively. Although HDL cholesterol levels did not increase, the total cholesterol/HDL cholesterol ratio decreased significantly with lovastatin therapy. No adverse effects were noted and glycemic control was well-maintained.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Treatment of dyslipidemia in non-insulin-dependent diabetes mellitus with lovastatin. 305 23

A one-year clinical trial with pantethine was conducted in 24 patients with established dyslipidemia of Fredrickson's types II A, II B, and IV, alone or associated with diabetes mellitus. The treatment was well tolerated by all patients with no subjective complaints or detectable side effects. Blood lipid assays repeated after 1, 3, 6, 9, and 12 months of treatment revealed consistent and statistically significant reductions of all atherogenic lipid fractions (total cholesterol, low-density lipoprotein cholesterol, and apolipoprotein B) with parallel increases of high-density lipoprotein cholesterol and apolipoprotein A. The results were equally good in patients with uncomplicated dyslipidemia and in those with associated diabetes mellitus. The authors conclude that pantethine (a drug entity related to the natural compound, pantetheine) represents a valid therapeutic support for patients with dyslipidemia not amenable to satisfactory correction of blood lipids by diet alone.
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PMID:Effectiveness of long-term treatment with pantethine in patients with dyslipidemia. 309 58


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