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

It is clearly recognized that patients with NIDDM have an increased risk for CHD. Recent data indicate that persons with glucose concentrations in the nondiabetic range also may be at higher risk for CHD. These associations may not represent cause and effect, however. Emerging data suggest that hyperglycemia and CHD may both arise from hyperinsulinemia/insulin resistance. In support of this hypothesis are studies showing that NIDDM and CHD have many risk factors in common, including age, elevated blood pressure, dyslipidemia, adiposity, and a central pattern of fat distribution. Moreover, these risk factors are frequent concomitants of hyperinsulinemia, itself a risk factor for CHD and perhaps for NIDDM. Although the duration of NIDDM has been infrequently related to risk of CHD, the authors hypothesize that duration of hyperinsulinemia/insulin resistance would be a more sensitive marker for risk of CHD. The relation of IDDM to CHD is a different situation. The etiological process leading to IDDM, namely the destruction of beta-cells in genetically predisposed persons, is not related to cardiovascular risk. However, IDDM patients still have an excess of CVD, the risk factors for which may vary according to the location of the diseases (e.g., LEAD vs. CHD). There is a strong relationship between proteinuria and CVD, which has led to a general theory of vascular complications in IDDM based on defective heparan sulfate metabolism (Steno hypothesis). Recent evidence challenges parts of this hypothesis, and the possibility is raised that a higher case-fatality rate in a subgroup of patients with both renal and CVD explains part of the renal connection, as does the general worsening of CVD risk factors.
Diabetes Care 1992 Sep
PMID:Diabetes mellitus and macrovascular complications. An epidemiological perspective. 139 12

Diabetes mellitus has become the leading cause of ESRF in the United States. Patients with diabetic nephropathy suffer high cardiovascular morbidity and mortality. Because only 40% of diabetic patients eventually develop diabetic kidney disease, it may be possible to devise primary prevention measures targeted at the subset of patients at risk. Recently, a predisposition to hypertension, a family history of diabetic nephropathy, and a family history of CVD disease each have been associated independently with the development of diabetic renal complication in IDDM. Risk factors for macrovascular damage, including raised arterial BP, dyslipidemia, and insulin resistance, can be detected early in the course of progression to diabetic nephropathy. These risk indicators recently have been shown to be already present at the stage of normoalbuminuria in those patients who eventually will progress to microalbuminuria. Treatment of established renal disease can only delay the onset of ESRF, and lowering of microalbuminuria has been shown to retard the onset of persistent proteinuria. However, no study to date has demonstrated prevention of renal disease in these patients. The ultimate aim should, therefore, be the prevention of the transition from normoalbuminuria to microalbuminuria in individuals who are at higher risk of diabetic renal disease and CVD.
Diabetes Care 1992 Sep
PMID:Diabetic nephropathy. Future avenue. 139 18

The effect of herpes simplex virus (HSV) and influenza virus (IV) on lipid metabolism was studied. In conditions of acute herpetic infection of rabbits we detected typical dyslipidemia, characterized by increased contents of total cholesterol, beta-cholesterol and triglycerides in the absence of trustworthy differences in concentrations of alpha-cholesterol. The use of antiherpetic preparation furavir, on the background of infection, corrected lipid spectrum of the infected animals. Blood lipid disturbances in acute influenza virus infection of mice were not detected. HSV infection of cell culture of human aorta was accompanied by increased accumulation of free lipids in cells. IV infection, in the same conditions of experiment, did not change the contents of intracellular lipids. The obtained data deepen the existing notions of herpetic and influenza infections pathogenesis and may be useful in understanding etiopathogenesis of certain somatic metabolism diseases.
Biull Eksp Biol Med 1992 Sep
PMID:[Lipid metabolism in experimental virus infections]. 147 68

Renal transplantation modifies the dyslipidemia characteristic of chronic renal failure (CRF). The change in lipoprotein and lipid values of 51 transplant recipients, on cyclosporine and corticosteroid treatment, was studied during 2 years after transplantation to examine the short- and medium-term variations of lipid metabolism. Compared with control values of (all in mg/dL) triglycerides (Tg) 111 +/- 44, very-low-density lipoprotein (VLDL) Tg 69 +/- 18, total cholesterol (Chol) 201 +/- 32, VLDL-Chol 32 +/- 9, low-density lipoprotein (LDL) Chol 118 +/- 28, and high-density lipoprotein (HDL) Chol 50 +/- 10, uremic patients pretransplantation exhibited values of Tg 200 +/- 82 (P less than .001), VLDL-Tg 133 +/- 70 (P less than .001), Chol 193 +/- 51 (NS), VLDL-Chol 52 +/- 16 (P less than .001), LDL-Chol 100 +/- 37 (P less than .007), HDL-Chol 40 +/- 16 (P less than .001), which changed to Tg 118 +/- 18 (P less than .001), VLDL-Tg 64 +/- 45 (P less than .001), Chol 223 +/- 48 (P less than .006), VLDL-Chol 26 +/- 33 (P less than .001), LDL-Chol 134 +/- 43 (P less than .001), at HDL-Chol 63 +/- 21 (P less than .001) at 3 months and Tg 135 +/- 76, VLDL-Tg 81 +/- 62, Chol 218 +/- 55, VLDL-Chol 22 +/- 20, LDL-Chol 139 +/- 46, and HDL-Chol 58 +/- 18 at 24 months without evidence of a significative variations in the 3- to 24-month posttransplant period.(ABSTRACT TRUNCATED AT 250 WORDS)
Metabolism 1991 Sep
PMID:Lipoprotein-apolipoprotein changes in renal transplant recipients: a 2-year follow-up. 189 57

Hypertension may be either accentuated or caused by hyperinsulinemia secondary to insulin resistance. The role of hyperinsulinemia has been most clearly defined in those people with upper body obesity who frequently have hypertension, abnormal glucose tolerance, and dyslipidemia. Less well understood but repeatedly demonstrated, insulin resistance and hyperinsulinemia are also seen in normal-weight hypertensive patients. The implications of these findings are important to recognize, both in an attempt to understand the pathogenesis of hypertension and in hopes of treating it most appropriately.
Prim Care 1991 Sep
PMID:Hypertension and hyperinsulinemia. 194 84

Abnormalities of plasma lipid and lipoprotein concentrations are common in both insulin-dependent (IDDM) and non-insulin-dependent (NIDDM) diabetes mellitus. In general, individuals with IDDM who are untreated or inadequately treated have elevations in both postprandial and fasting triglyceride levels in association with reduced activity of lipoprotein lipase. Low-density lipoprotein (LDL) cholesterol levels can rise when insulin deficiency impacts on LDL-receptor function. When patients with IDDM are treated and plasma glucose levels well controlled, plasma very-low-density lipoprotein (VLDL) triglyceride and LDL cholesterol levels are usually normal. In addition, plasma high-density lipoprotein (HDL) cholesterol levels are normal or elevated in well-controlled IDDM subjects. In NIDDM, increased VLDL triglyceride and reduced HDL cholesterol concentrations are common and are only partially related to glycemic control. Overproduction of VLDL leads to hypertriglyceridemia, which can be exacerbated if lipoprotein lipase activity is also reduced. The regulation of LDL levels is complex; catabolism can be reduced if significant insulin deficiency exists or increased if significant hypertriglyceridemia is present. The reduced levels of HDL cholesterol in NIDDM appear to be related to increased exchange of HDL cholesteryl esters for VLDL triglycerides, although other mechanisms may exist. The roles of insulin resistance, obesity, and independently inherited abnormalities of lipoprotein metabolism in the etiology of dyslipidemia of NIDDM are complex and require further investigation. Finally, the effects of diabetes on glycosylation of apoproteins; on other lipid enzymes, particularly hepatic triglyceride lipase; on lipoprotein surface lipids; and on hepatic uptake of remnants have only just begun to be defined. In view of the marked increase in atherosclerotic cardiovascular disease in individuals with diabetes mellitus, prompt attention to and aggressive therapy for dyslipidemia should be a central component of care for these patients.
Diabetes Care 1991 Sep
PMID:Lipoprotein physiology in nondiabetic and diabetic states. Relationship to atherogenesis. 195 76

The inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase are highly effective in treating severe elevations of serum cholesterol, and are being widely used for this purpose. In our laboratory, these drugs have been used for the treatment of other forms of dyslipidemia including primary moderate hypercholesterolemia, primary mixed hyperlipidemia, diabetic dyslipidemia, hyperlipidemia of the nephrotic syndrome, and primary hypoalphalipoproteinemia. In these conditions, the HMG CoA reductase inhibitors proved effective in substantially decreasing levels of both low-density lipoproteins and very low density lipoproteins, as well as apolipoprotein B. In some patients, they may even increase levels of high-density lipoproteins. The primary mode of action of HMG CoA reductase inhibitors appears to be to increase the synthesis of hepatic receptors for lipoproteins containing apolipoprotein B, although a reduction in synthesis of these lipoproteins has not been ruled out with certainty. Regardless of mechanisms, drugs of this type appear to have the potential for effective therapy of various forms of dyslipidemia beyond primary severe hypercholesterolemia.
Am J Cardiol 1990 Sep 18
PMID:Use of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors in various forms of dyslipidemia. 220 34

Reasons for the current emphasis on cholesterol as coronary risk factor are multiple. On one hand current studies have shown that primary as well as secondary prevention of ischemic heart disease is a realistic possibility with lipid lowering measures. On the other hand new drugs are actually available which permit a potent and adapted therapy of hyperlipidemias. According to new guidelines of the Swiss "lipid task force" screening for hypercholesterolemia is recommended. A cholesterol value greater than 6.5 mmol/l should be investigated and treated. Because a great proportion of adult Swiss fall into this category (approximately 1/3) it is essential that all those are efficiently treated that have markedly abnormal cholesterol values or present with other risk factors such as smoking and hypertension or have a personal or familiar history of ischemic heart disease. Because progression is likely in patients with or after manifest ischemic heart disease even when hypercholesterolemia is mild (over 5.2 mmol/l) all patients presenting with an infarct should be investigated for dyslipidemia. Cholesterol, triglycerides and HDL should be determined. Dietary measures are the basis of every attempt to reduce hyperlipidemia. Most importantly intake of saturated fats prevailing in animal products should be restricted. The next important step is reduction of dietary cholesterol and in obese patients also caloric restriction. Lipid lowering agents are recommended in patients at risk who do not respond to or comply with dietary regimens. According to type of dyslipidemia bile-acid-binding resins, fibrates, nicotinic acid or HMG-CoA reductase inhibitors are available.
Schweiz Rundsch Med Prax 1990 Sep 25
PMID:[Lipid-lowering therapy in the prevention of coronary heart disease]. 221 47

Normotensive rats of the Milan strain (MNS) spontaneously develop focal glomerulosclerosis. In order to explore the contribution of glomerular thromboxane (TX) A2 synthesis to the development of the disease, we have characterized the time course of renal functional and biochemical changes, and their modification by long-term treatment with a TX-synthase inhibitor. Oral administration (150 mg.kg-1 from 1 to 14 months of age) of FCE 22178 suppressed enhanced glomerular TXB2 production at all experimental times (mean inhibition 80%) and proteinuria (varying between 27.1 and 73.0%) while preserving renal blood flow and glomerular filtration rate. These effects of TX-synthase inhibition were seen in the absence of any statistically significant changes in systemic blood pressure. Moreover, FCE 22178 had no antihypertensive effects in hypertensive rats of the Milan strain (MHS) nor in spontaneously hypertensive rats (SHR). Treatment also prevented the age-related hypoalbuminemia and hyperlipidemia observed in control MNS and significantly (P less than 0.01) reduced glomerular histologic damage, as demonstrated by light microscopy studies and measurement of sclerotic area. We conclude that: 1) MNS rats provide an animal model of long-lasting proteinuria characterized by an age-related increase in glomerular TXB2 production paralleled by progressive loss of renal structural integrity and function and by a secondary dyslipidemia; 2) pharmacological inhibition of glomerular TX-synthase attenuates the structural as well as the functional expression of kidney disease, without a primary effect on systemic blood pressure. These data are suggestive of an important modulating role of TXA2 in the progression of MNS renal disease.
Kidney Int 1990 Sep
PMID:Role of enhanced glomerular synthesis of thromboxane A2 in progressive kidney disease. 223 87

Hypercholesterolemia and increased concentrations of an apolipoprotein E (apoE)-containing HDL subclass, high density lipoprotein1 (HDL1) have been observed in streptozocin-alloxan diabetic dogs consuming normal amounts of dietary cholesterol. The aim of this study was to characterize the response of HDL1 and its targeting ligand, apoE, to insulin and HMG-CoA reductase inhibitor treatment in pancreatectomized diabetic dogs. Following induction of diabetes, plasma total cholesterol, HDL1, and apoE concentrations were all increased. Urinary mevalonate excretion, an index of cholesterol synthesis in humans, was 6-fold that of nondiabetic controls. Lipoprotein fractionation by Pevikon block electrophoresis and gel filtration chromatography showed that the increased cholesterol and apoE were associated with alpha 2-migrating particles corresponding to HDL1. Insulin treatment, resulting in near normal fasting blood glucose concentrations in the group as a whole (average 5.1 mM, 92 mg/dl), led to variable reductions in apoE, total plasma cholesterol, and HDL1. Uncorrected dyslipidemia during intensified insulin treatment appeared to be related to failure to achieve euglycemia. Despite unremitting hyperglycemia, treatment with lovastatin resulted in pronounced decreases in plasma cholesterol, HDL1 and apoE to concentrations below those observed in nondiabetic animals. Mevalonate excretion also fell, but remained twice normal. Thus neither modality corrected all of the abnormalities in canine diabetic dyslipidemia. Since apoE-containing HDL1 may mediate cholesterol traffic between the periphery and the liver (reverse cholesterol transport), the present observations suggest that increased cholesterol synthesis is accompanied by parallel abnormalities in cholesterol flux through the reverse transport pathway in the canine model.
Atherosclerosis 1990 Sep
PMID:Plasma apolipoprotein E, high density lipoprotein1 (HDL1) and urinary mevalonate excretion in pancreatectomized diabetic dogs: effects of insulin and lovastatin. 224 16


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