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)

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

Subtle abnormalities of carbohydrate metabolism and overt diabetes mellitus are both associated with a substantial increase in the prevalence of hypertension and the accelerated development of atherosclerosis. Hypertension is also a presumed independent risk factor for atherosclerosis, although some of the atherogenic properties of hypertension may be related to the recently recognized subtle metabolic abnormalities commonly found in persons with essential hypertension. The results of epidemiologic studies suggest that the elevated fasting and postprandial insulin levels that often occur in patients with essential hypertension, as well as in patients with type II diabetes mellitus, are an independent risk factor for atherosclerotic cardiovascular disease. Elevated glucose levels in patients with diabetes and hypertension appear to contribute to the acceleration of atherosclerosis, perhaps through toxic effects on the vascular endothelium. Other cardiovascular risk factors that are accentuated in persons with carbohydrate intolerance and hypertension include abnormalities in platelet function, clotting factors, the fibrinolytic system, and dyslipidemia. The goals of both nonpharmacologic and pharmacologic therapy for patients with abnormal carbohydrate metabolism and hypertension are to decrease cardiovascular risk as well as lower blood pressure.
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PMID:Hyperinsulinemia, insulin resistance, and hyperglycemia: contributing factors in the pathogenesis of hypertension and atherosclerosis. 839 10

The occurrence of multi-metabolic syndrome was studied by authors on 31 patients with obesity of android type and hypertension. Plasma glucose and plasma insulin levels were investigated during oral glucose tolerance test, plasma lipid levels were determined, furthermore body mass index and waist/hip ratio were calculated. It was considered that in 65 percent of the cases the presence of multi-metabolic syndrome could have been proved. Dyslipidemia in 22 cases, hyperinsulinemia in 20 cases, deterioration of the carbohydrate metabolism in 14 cases could be demonstrated. The negative correlation between glucose- and insulin-responses to glucose challenge may suggest the presence of insulin resistance. No significant difference was found in metabolic parameters between men and women. The multi-metabolic syndrome is regarded by authors as a process which may lead to both type 2 diabetes mellitus and atherosclerosis. According to their appearance about two third of these patients could be screened. Authors emphasize the great significance of this problem and the importance of early diagnosis and prevention.
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PMID:[Hypertension and multimetabolic syndrome]. 844 28

Insulin resistance may contribute to non-insulin-dependent diabetes mellitus, hypertension, and dyslipidemia; increased free fatty acid concentrations could both promote and maintain this state of insulin resistance. Therefore, agents that inhibit lipolysis and decrease plasma concentrations of free fatty acids could be of therapeutic interest. We have measured metabolic effects of clonidine, an alpha 2 adrenergic agonist, and adenosine in healthy human subjects since human fat cells have alpha 2 and adenosine A1 receptors, which inhibit lipolysis in vitro. Clonidine, as expected, significantly lowered systolic and diastolic blood pressure; clonidine also decreased the plasma concentration of free fatty acids. Although clonidine caused a transient mild increase in plasma glucose, insulin and triglyceride concentrations were unchanged. The metabolic effects of adenosine were examined with two protocols. In the first study, volunteers received a graded infusion of adenosine (at 0, 10, 20, 50 and 100 micrograms/kg.min for 30 min/dose), and glucose, insulin, free fatty acids, as well as respiratory rate, systolic and diastolic blood pressures, and heart rate were measured. There was no change in glucose, insulin, or free fatty acid concentrations. In the second study a graded infusion was used and was maintained at 100 micrograms/kg/min for 120 minutes. Heart rate and respiratory rate significantly increased. Glucose and free fatty acid concentrations were unchanged, while insulin concentrations were significantly increased. All subjects had significant symptomatic complaints (dyspnea, chest pressure) during the adenosine infusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute metabolic effects of clonidine and adenosine in man. 845 15

The pathogenesis of hypertension associated with diabetes mellitus (DM) involves an interplay of hereditary and acquired mechanisms. A familial trait for essential hypertension appears to be a risk factor for the development of both hypertension and nephropathy in type I DM and coexists commonly with impaired insulin sensitivity, relative hyperinsulinemia, and dyslipidemia, which can already be detected before the appearance of hypertension, obesity, or upper abdominal redistribution of body fat. The latter finding helps explain the frequent development of hypertension as well as dyslipidemia and/or type II DM in given individuals. Obesity is an important factor promoting these complications. Type I or II DM but not uncomplicated essential hypertension is characteristically accompanied by excess body Na+. This abnormality complements a tendency toward vascular hyperreactivity and a presumably morphologic and functional vasculopathy, thereby promoting the pathogenesis of hypertension in diabetic patients. For the treatment of hypertension in diabetic patients, nonpharmacologic measures are indispensable. If drugs are needed, angiotensin-converting enzyme (ACE) inhibitors and some but not all calcium antagonists are the preferred agents. Monotherapy or a combination of these drug types allows effective blood pressure control in most diabetic patients without further metabolic impairment; ACE inhibitors even tend to improve glucose control. Ketanserin may be a potential alternative, and if a diuretic is also needed, the metabolically neutral indapamide is a reasonable choice. If these agents do not allow satisfactory blood pressure highly selective beta 1-blockers or alpha 1-blockers may be introduced as a second choice. In diabetic patients with nephropathy, effective antihypertensive therapy can reduce proteinuria and slow the progression of the nephropathy; ACE inhibitors may improve diabetic proteinuria even at unchanged systemic blood pressure levels. Unless diuretics are needed for reasons other than hypertension, the treatment of diabetic patients with thiazides or loop diuretics in conventional dosage should probably be avoided until clarification of their influence on prognosis. Nevertheless, whether and to what extent other agents and nonpharmacologic measures can modify the prognosis in diabetic patients is also unclear, and the approach to antihypertensive therapy is therefore still largely empiric.
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PMID:Pathogenesis and treatment of hypertension associated with diabetes mellitus. 848 Jun 21

Insulin resistance, hyperinsulinemia, and dyslipidemia are common characteristics of patients with untreated hypertension. However, the link between the vascular and metabolic disturbances is still unclear. To provide further insights into the metabolic picture of subjects with hypertension, we evaluated insulin resistance, pancreatic secretion, and hepatic extraction of the hormone in 16 untreated patients with essential hypertension before and after 12-16 weeks of drug treatment in comparison with 16 age-, sex-, and body weight-matched normotensive control subjects. All subjects underwent an oral and a frequently sampled intravenous glucose tolerance test. Metabolic parameters were calculated by the minimal model technique. The hypertensive patients exhibited a highly reduced tissue insulin sensitivity (2.6 +/- 0.4 versus 9.6 +/- 1.9 10(4) min-1/[microunits/mL]; p < 0.001). The basal secretion rate (70 +/- 11 versus 35 +/- 5 pmol/L per minute) and the total amount of prehepatically secreted insulin (32 +/- 4 versus 16 +/- 2 nmol/L in 4 hours) were significantly increased in the hypertensive patients compared with the control subjects (p < 0.01), whereas the posthepatic insulin delivery rate was not significantly different between the two groups (4.9 +/- 0.6 versus 3.5 +/- 0.3 nmol/L in 4 hours). Hepatic insulin extraction was found to be significantly elevated in the hypertensive patients compared with control subjects (81 +/- 4% versus 69 +/- 3%, p < 0.04). Increased hepatic insulin extraction partially ameliorated B cell hypersecretion in hypertensive patients. After 12-16 weeks of drug treatment, the blood pressure was normalized, but the metabolic profile of the patients remained unchanged. We conclude that elevated insulin extraction in the liver is a specific characteristic of individuals with essential hypertension and partially compensates pancreatic B cell hypersecretion.
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PMID:Elevated hepatic insulin extraction in essential hypertension. 849 99

Insulin resistance of skeletal muscle glucose disposal underlies the pathogenesis of NIDDM and is associated with hypertension, obesity, and dyslipidemia. Angiotensin-converting enzyme (ACE) inhibitors are used primarily in antihypertensive therapy but also are known to improve whole-body insulin-mediated glucose disposal. However, the exact site of action is not well characterized. We have used the isolated epitrochlearis muscle from a well-established animal model of skeletal muscle insulin resistance, the obese Zucker rat, to test the effect of oral administration of ACE inhibitors on insulin-sensitive muscle glucose transport activity. Both acute and chronic administration of a sulfhydryl-containing ACE inhibitor (captopril) or a non-sulfhydryl-containing ACE inhibitor (tran-dolapril) significantly enhanced in vitro insulin-mediated muscle glucose transport activity. In addition, the acute effect of oral captopril administration was completely abolished by pretreatment of the animal with a bradykinin B2 receptor antagonist (HOE 140). These findings indicate that ACE inhibitors may improve whole-body glucose metabolism by acting on the insulin-sensitive skeletal muscle glucose transport system. In addition, bradykinin or one of its metabolites may be involved in the action of the ACE inhibitor captopril on insulin-resistant muscle.
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PMID:Glucose transport activity in insulin-resistant rat muscle. Effects of angiotensin-converting enzyme inhibitors and bradykinin antagonism. 852 93

A positive association exists between insulin resistance, dyslipidemia, and hypertension, specifically salt-sensitive hypertension. A subgroup of salt-sensitive normal and high renin hypertensives called nonmodulators (NM) manifest an inability to modulate the adrenal and renal blood flow responses to a change in dietary sodium. Therefore, we tested the hypothesis that the NM subgroup would be insulin resistant and dyslipidemic when compared with normal and high renin hypertensives, in whom modulation is intact (M). Forty-six nondiabetic hypertensive individuals were evaluated and their modulation status defined by either renal or adrenal criteria. Fasting blood was drawn for measurement of several metabolic factors. Since the NM group had a greater body mass index (BMI) it was subdivided into a "lean" subgroup that matched the BMI of the M group. The fasting insulin levels in both the total NM and lean NM groups was significantly higher than in the M group (P = .013 and .04, respectively). There were no differences in age, blood pressure, or plasma/serum levels of glucose, triglycerides, total cholesterol, or potassium. NM had elevated fasting insulin levels compared to M, compatible with an insulin resistant state, but this insulin resistance are dissociable in the hypertensive population.
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PMID:Metabolic derangements in nonmodulating hypertension. 854 Oct 1

GENETIC PREDISPOSITION: Insulin resistance and reactive hyperinsulinemia occur not only with obesity, impaired glucose tolerance or non-insulin-dependent (type 2) diabetes mellitus, but also in many non-obese, non-diabetic patients with essential hypertension and their currently normotensive, lean, young offspring, as well as in some other conditions known to promote hypertension. Insulin resistance impairs glucose tolerance, while insulin resistance and/or hyperinsulinemia promote dyslipidemia, body fat deposition and probably atherogenesis. Therefore, the common coexistence of a genetic predisposition for hypertension with insulin resistance helps to explain the frequent, although temporally often dissociated, occurrence of hypertension together with dyslipidemia, obesity and type 2 diabetes in a given patient. INSULIN RESISTANCE AND HYPERINSULINEMIA AS SLOW PRESSOR MECHANISMS: In the pathogenesis of hypertension, inappropriate vasoconstriction (due to an imbalance of vasoactive substances and/or raised cytosolic calcium) and/or structural vasculopathy is particularly important. Among the mosaic of assumed pressor mechanisms, distinct Na+ retention is almost invariably involved in diabetes mellitus, while sympathetic activation tends to occur in essential hypertension, particularly in association with obesity. Insulin resistance may develop as a consequence of an intracellular excess of Ca2+ or a decrease in Mg2+, an impaired insulin-mediated rise in skeletal muscle blood flow, increased sympathetic activity or excess body weight. Acute hyperinsulinemia causes arterial vasodilation on one hand and increases sympathetic activity and renal Na+ reabsorption on the other. Chronically, hyperinsulinemia may promote cardiovascular muscle cell proliferation and atherogenesis, while insulin resistance may be associated with certain transmembraneous cation transporters, leading to an increase in cytosolic Ca2+. Hyperinsulinemia and/or insulin resistance may also be associated with an increased blood pressure sensitivity to high salt intake. In the mosaic of many different blood pressure-raising mechanisms, insulin resistance and/or hyperinsulinemia is likely to represent an amplifying slow or very slow pressor factor.
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PMID:Insulin resistance and hyperinsulinemia in hypertension. 857 90

Dyslipidaemia may be treated with a number of safe and effective pharmacological agents that target specific lipid disorders through a variety of mechanisms. The bile-acid sequestrants--cholestyramine and colestipol--primarily decrease LDL cholesterol by binding bile acids, thereby decreasing intrahepatic cholesterol, and by increasing the activity of LDL receptors. Nicotinic acid lowers LDL cholesterol and triglyceride by decreasing VLDL synthesis and by decreasing free fatty acid mobilization from peripheral adipocytes. The HMG-CoA reductase inhibitors--fluvastatin, lovastatin, pravastatin and simvastatin--lower LDL cholesterol by partially inhibiting HMG-CoA reductase (the rate-limiting enzyme of cholesterol biosynthesis) and by increasing the activity of LDL receptors. The fibric-acid derivatives--bezafibrate, ciprofibrate, clofibrate, fenofibrate and gemfibrozil--primarily decrease triglyceride by increasing lipoprotein lipase activity and by decreasing the release of free fatty acids from peripheral adipose tissue. Probucol decreases LDL cholesterol by increasing non-receptor-mediated LDL clearance; as an anti-oxidant, probucol also decreases LDL oxidation; oxidized LDL which is thought to lead to atherogenesis. Although these agents have been proven safe in clinical trials, like any drug, they carry the risk for adverse effects. The bile-acid sequestrants may cause constipation, reflux oesophagitis, and dyspepsia, and may bind coadministered medications such as digitalis glycosides, beta blockers, warfarin, and exogenous thyroid hormone. Nicotinic acid use is commonly associated with flushing and pruritus and may also cause non-specific gastrointestinal complaints, hepatotoxicity (hepatic necrosis, hepatitis, or elevated liver enzymes), gout, myolysis, decreased glucose tolerance and increased fasting glucose levels, and ophthalmological complications including decreased visual acuity, toxic amblyopia, and cystic maculopathy. The HMG-CoA reductase inhibitors may produce liver enzyme elevations, creatine kinase elevations and rhabdomyolysis. The combination of a reductase inhibitor and a fibrate increases the risk for rhabdomyolysis. Possible adverse effects of the fibric-acid derivatives include abdominal discomfort, nausea, flatulence, increased lithogenicity of bile, liver enzyme elevations and creatine kinase elevations. Probucol may increase the QTc interval and may cause non-specific gastrointestinal complaints.
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PMID:Currently available hypolipidaemic drugs and future therapeutic developments. 859 27


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