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

Essential hypertension is frequently associated with several metabolic abnormalities, of which obesity, glucose intolerance, and dyslipidemia are the most common. This report discusses the epidemiologic evidence for the coexistence of these risk factors and questions why hyperinsulinemia and essential hypertension cosegregate. The euglycemic insulin clamp and the insulin suppression test are documented with respect to the physiologic functions of insulin, and the mechanisms of insulin resistance in essential hypertension are discussed. Evidence to suggest that insulin resistance is a marker for an "atherogenic syndrome" is reviewed. It is concluded that all the hemodynamic and metabolic disorders of essential hypertension and insulin resistance are closely related. The clinical approach to the patient with any of the abnormalities in question should take into consideration the whole cluster, with therapy aimed at ameliorating the entire hemodynamic-metabolic profile.
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PMID:Essential hypertension, metabolic disorders, and insulin resistance. 200 56

Effective blood pressure control with traditional high-dose diuretic therapy has led to a distinct decrease in cerebrovascular morbidity and mortality, but failed to achieve a satisfactory reduction of coronary complications and sudden death. The same applies also for beta blockers, although they have been shown to be effective in secondary prevention of myocardial infarction. It is suspected that conventional antihypertensive treatment has an unfavorable effect on coronary risk factors other than hypertension. For instance, thiazide-type diuretics can impair glucose tolerance and increase the potentially atherogenic serum low-density lipoprotein (LDL) cholesterol fraction and triglycerides. Beta blockers without partial intrinsic sympathomimetic activity increase serum triglycerides and tend to lower the potentially antiatherogenic high-density lipoprotein (HDL) cholesterol. Certain beta blockers may also impair glucose tolerance, particularly when they are combined with diuretics. Calcium channel blockers, angiotensin converting-enzyme inhibitors and alpha 1-receptor blockers do not adversely affect lipoprotein or carbohydrate profiles. The latter two drug classes may even increase insulin sensitivity, and alpha 1 blockers may also slightly improve lipid metabolism. The prognostic relevance of drug-induced dyslipidemia and/or glucose intolerance awaits further clarification. In the meantime, it is of clinical interest that several of the generally available antihypertensive drugs seem to be metabolically neutral or sometimes perhaps even potentially beneficial with regard to the lipoprotein and carbohydrate metabolism.
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PMID:Antihypertensive agents, serum lipoproteins and glucose metabolism. 202 Nov 13

Pathophysiological effects of the autonomic nervous system are clearly seen in young patients with a high cardiac output and borderline hypertension. As the hypertension progresses, there is a change from the hyperkinetic circulation in borderline hypertension to the increased vascular resistance seen in established hypertension. This hemodynamic transition is caused by decreased beta-adrenergic responsiveness and decreased end-diastolic distension of the heart combined with an increased alpha-adrenergic responsiveness of the resistance vessels. In parallel, the sympathetic tone decreases in the course of hypertension. This transition in sympathetic tone can be explained by the hypothesis of the 'blood pressure seeking properties of the brain'. The central nervous system 'seeks' to maintain a higher pressure. When vascular overresponsiveness sets in, less sympathetic drive is needed to maintain a neurogenic hypertension. Sympathetic overactivity in borderline hypertension is associated with overweight subjects, insulin resistance and dyslipidemia. This suggests a new area of research to investigate the basis of metabolic abnormalities in hypertension.
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PMID:Changing role of the autonomic nervous system in human hypertension. 209 97

Coronary heart disease is the leading cause of death among patients with non-insulin-dependent diabetes mellitus (NIDDM). NIDDM patients have a high frequency of dyslipidemia, which along with obesity, hypertension, and hyperglycemia may contribute significantly to accelerated coronary atherosclerosis. Because risk factors for coronary heart disease are additive and perhaps multiplicative, even mild degrees of dyslipidemia may enhance coronary heart disease risk. Therefore, therapeutic strategies for management of NIDDM should give equal emphasis to controlling hyperglycemia and dyslipidemia. The National Cholesterol Education Program recently issued guidelines for treatment of hyperlipidemia in adults including diabetic patients. Because of the unique features of diabetic dyslipidemia, however, we suggest that certain modifications in these guidelines be made to meet specific needs of diabetic patients. For example, therapeutic goals for serum cholesterol reduction should be lower in diabetic patients than in nondiabetic subjects. Particular emphasis should be given to weight reduction in NIDDM patients. In some diabetic patients, monounsaturated fatty acids may be a better replacement for saturated fatty acids than carbohydrates. The target for cholesterol lowering should include both very-low-density lipoprotein and low-density lipoprotein (LDL) (non-high-density lipoprotein) rather than LDL alone. To obtain a substantial reduction of cholesterol levels, drug therapy may be required in many patients. However, first-line drugs for nondiabetic patients (nicotinic acid and bile acid sequestrants) may be less desirable in NIDDM patients than hydroxymethylglutaryl coenzyme A (HMG CoA) reductase inhibitors and even fibric acids. In fact, HMG CoA reductase inhibitors may be the drugs of choice for NIDDM patients with elevated LDL cholesterol and borderline hypertriglyceridemia, whereas gemfibrozil appears preferable for NIDDM patients with severe hypertriglyceridemia.
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PMID:Management of dyslipidemia in NIDDM. 219 Jul 70

The chronic hyperglycemia of non-insulin-dependent diabetes mellitus (NIDDM) evolves gradually and is usually preceded by more transient hyperglycemia, classified as impaired glucose tolerance (IGT). Already in this phase, there is an increased risk of cardiovascular complications, and many IGT subjects, like NIDDM patients, often display several of the metabolic and circulatory disturbances that are associated with hyperglycemia, e.g., insulin resistance, hyperinsulinemia and/or hyperproinsulinemia, delayed insulin release, dyslipidemia, and hypertension. Therefore, and because untreated hyperglycemia is a self-perpetuating condition, early detection and early intervention may be necessary to prevent the progression and complications of NIDDM. This in turn would necessitate screening procedures, and the therapeutic goal should include both euglycemia and normalization of plasma insulin, plasma lipids, and blood pressure. A study in the German Democratic Republic indicated that the mortality in screening-detected NIDDM patients did not differ from that in patients detected in routine care. In a Swedish study on screening-detected NIDDM subjects, only those who had IGT rather than manifest NIDDM could maintain fasting blood glucose less than or equal to 6 mM for 5 yr by hypocaloric dietary regulation alone. In those with screening-detected NIDDM, the delayed acute insulin release and net postprandial hyperglycemia were improved by addition of glipizide, and most managed to attain and maintain fasting blood glucose less than or equal to 6 mM for approximately 2 yr after such addition. However, after 4 yr, there was an increase in blood glucose, suggesting that preventive intervention either may not be possible or may have to start in the IGT phase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Will sulfonylurea treatment of impaired glucose tolerance delay development and complications of NIDDM? 220 45

Dyslipidemias are frequent in diabetic subjects: they increase the risk for atherosclerosis, in addition to the risk of diabetes mellitus per se. The pathogenesis of dyslipidemias differs between type I and type II diabetes: untreated type I diabetic subjects demonstrate frequently increased triglyceride concentrations due to diminished removal of triglyceride-containing particles, as a result of diminished activity of lipoprotein lipase. In addition, more triglycerides are produced due to increased lipolysis and increased free fatty acid supply to the liver. Type II diabetic subjects demonstrate very low density lipoprotein (VLDL) over-production due to obesity, insulin resistance and caloric overconsumption. In addition, triglyceride removal may be diminished due to diminished lipoprotein lipase activity when diabetes mellitus is poorly controlled. In addition, high density lipoprotein (HDL) is frequently lowered. During decompensation low density lipoprotein (LDL) concentrations may also increase. LDL particle composition is frequently abnormal. A severe dyslipidemia in diabetes mellitus is frequently a combined effect of diabetes mellitus and a congenital lipoprotein abnormality. The evaluation and treatment of dyslipidemias in diabetic subjects should be performed similarly to non-diabetics according to the guidelines published recently by the Working Group 'Lipids' of the Swiss Foundation of Cardiology. Additional accents in diabetic subjects are necessary. It is recommended that serum cholesterol, triglycerides and HDL are determined in every patient when diabetes mellitus is diagnosed. If serum cholesterol is greater than 6.5 mmol/l and the cholesterol/HDL-ratio is greater 6.5, dietary treatment should be reinforced; if its effect is insufficient, drug therapy should be considered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Dyslipidemia in diabetes mellitus: significance, diagnosis and treatment]. 223 46

Secondary failure to oral hypoglycemic agents occurs in some 5% of type II diabetic patients per year, such that treatment with insulin becomes warranted. In most of the cases only hyperglycemia is apparent, while signs of severe metabolic derangement such as thirst, polyuria and weight loss are lacking. However, the hyperglycemic state adversely affects endogenous insulin secretion and favors the development of microvascular complications and neuropathy. In addition, dyslipidemia is often present, and the patient's well-being may be impaired. To differentiate between real secondary drug failure and transient metabolic impairment due to insufficient compliance with the diet prescriptions, plasma C-peptide should be measured. Insulin therapy should be initiated with a dose of 6-8 IU of an intermediate-action preparation and subsequently adjusted based on blood glucose measurements. Frequently it will be necessary to employ twice daily a mixture of (rapid- and intermediate-action) insulin in order to achieve adequate control of postprandial hyperglycemia. In some cases insulin therapy can be discontinued since the endogenous insulin secretion may improve during insulin treatment. We do not recommend to use as initial therapy of patients with secondary failure to oral hypoglycemic agents a combination of sulfonylureas and insulin since the 'insulin-saving' effect is small and not cost-effective.
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PMID:[Insulin treatment of Type II diabetes]. 223 54

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.
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PMID:Plasma apolipoprotein E, high density lipoprotein1 (HDL1) and urinary mevalonate excretion in pancreatectomized diabetic dogs: effects of insulin and lovastatin. 224 16

Recently, nicotinic acid has been recommended as a first-line hypolipidemic drug. To determine the effectiveness of nicotinic acid in dyslipidemic patients with non-insulin-dependent diabetes mellitus, 13 patients were treated in a randomized crossover trial. Patients received either nicotinic acid (1.5 g three times daily) or no therapy (control period) for 8 weeks each. Compared with the control period, nicotinic acid therapy reduced the plasma total cholesterol level by 24%, plasma triglyceride level by 45%, very-low-density lipoprotein cholesterol level by 58%, and low-density lipoprotein cholesterol level by 15%, and it increased the high-density lipoprotein cholesterol level by 34%. However, nicotinic acid therapy resulted in the deterioration of glycemic control, as evidenced by a 16% increase in mean plasma glucose concentrations, a 21% increase in glycosylated hemoglobin levels, and the induction of marked glycosuria in some patients. Furthermore, a consistent increase in plasma uric acid levels was observed. Therefore, despite improvement in lipid and lipoprotein concentrations, because of worsening hyperglycemia and the development of hyperuricemia, nicotinic acid must be used with caution in patients with non-insulin-dependent diabetes mellitus with dyslipidemia. We suggest that the drug not be used as a first-line hypolipidemic drug in patients with non-insulin-dependent diabetes mellitus.
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PMID:Nicotinic acid as therapy for dyslipidemia in non-insulin-dependent diabetes mellitus. 228 21

In order to find if the metabolic disorders more frequently found in our obese population were similar to the ones reported in the literature for other countries, a study was conducted in a group of 34 obese subjects (10 men and 24 women) whose only apparent alteration was a body mass index above 30 (mean value: 36.8 +/- 4.6) to obtain the relation between anthropometric measurements (Quetelet index, skinfold measures and waist/hip ratio) and plasma levels of nine biochemical parameters (including lipids, lipoproteins and glucose and insulin levels after an oral glucose load). The results revealed a tendency to the android distribution of fat in the female population, a significantly elevated triglyceride and total lipids levels and a decreased in HDL-cholesterol in both sexes. Hypercholesterolemia was present mainly in the male population. The most frequent dyslipidemia was Type IV (23%) followed by type IIb (15%). Practically none of the subjects had abnormal glycemic values after the glucose load, however the insulin levels were highly elevated in 80% of the patients, resulting in a great insulin/glucose ratios. Correlation analysis showed no association of the BMI with any biochemical parameter; only the insulin area was positively associated with anthropometric measures (mainly waist/hip ratio) and with the most altered biochemical parameter, the triglycerides. Variance analysis showed that only low HDL-cholesterol values were significantly different in patients presenting high blood pressure and familiar history of diabetes.
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PMID:[Metabolic changes associated with obesity in adults]. 248 10


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