UMLS:C0242339 - FACTA Search

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

The general practitioner man be confronted with the X syndrome, which includes central obesity, impaired glucose tolerance or type II diabetes mellitus, dyslipidemia and eventually hypertension. Insulinoresistance and hyperinsulinaemia contribute to the pathogenesis of these disorders. The syndrome X, which leads to important cardiovascular morbidity, needs appropriate treatment, which has to take into account the actions of drugs on glucose and lipid profiles. Syndrome X is rarely treated as a whole, but to treat separately each of its manifestations would be a mistake. The necessity of a global approach, a complete understanding of the familial environment and also the duration of the development of syndrome X justify the prominent part of the family doctor in the follow-up.
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PMID:[Syndrome X and general medicine]. 778 42

Syndrome X is a constellation of abnormalities; it appears to be strongly linked to insulin resistance and the risk of atherosclerosis. It consists of hypertension, glucose intolerance, obesity, dyslipidemia and, observed more recently, coagulation abnormalities. It is possible that treating blood pressure levels alone while ignoring or worsening other strongly associated risk factors has resulted in minimal effects on the incidence of coronary heart disease (CHD). Syndrome X has raised the awareness of these associated risk factors and has further led to the consideration of hypertension as a metabolic disease. The epidemiologic evidence in support of the link between insulin resistance and hypertension is reviewed, and the public health implications of these data are outlined.
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PMID:Reducing the incidence of coronary heart disease by managing hypertension: implications of syndrome X. 780 51

Increased body weight is one of the most important cardiovascular risk factors. Increased body weight is often associated with high blood pressure, dyslipidemia and also impaired glucose tolerance; therefore, the control of the body weight is of crucial importance in primary prevention. The substrate balance of the different energy substrates are regulated very differently, so that in a healthy person body weight can increase only in the case of an excess ingestion of dietary fat, but not in case of an excess of carbohydrates and/or proteins. Avoiding the ingestion of fat is the major dietary strategy for the control of body weight. Eating a low-fat/high-carbohydrate diet will stabilize the body weight and in the case of overweight lead to a slow but constant decline in body weight. A low-fat diet is also the major dietary strategy for the control of dyslipidemias. A low-fat diet is characterized by a low energy density and a high nonenergy nutrient density. The increased intake of vitamins, especially antioxidative vitamins, is an additional advantageous mean for primary prevention of free-radical damage.
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PMID:[Primary prevention: nutrition and body weight]. 783 21

The individual components of the metabolic syndrome such as central obesity, dyslipidemia with increased triglycerides and decreased HDL-cholesterol, hyperuricemia, hypertension and progressive glucose intolerance are markers for an increased risk of atheroma and type 2 (non-insulin-dependent) diabetes. All components, with the exception of hyperuricemia, are associated with skeletal muscle insulin resistance, leading to compensatory chronic hyperinsulinemia. Insulin resistance/hyperinsulinemia, in turn, is associated with a series of hypertensiogenic and atherogenic side effects, aggravating the individual components of the metabolic syndrome. From a more pathophysiologically orientated point of view, early identification of individuals obviously at risk for atheroma and type 2 diabetes, as well as early intervention aimed at the improvement of reduced insulin action may play a central role in an integrated life-style approach of primary prevention of atherosclerosis and type 2 diabetes.
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PMID:[The metabolic syndrome. Pathophysiologic causes, diagnosis, therapy]. 784 93

The effects of long-term monotherapy with terazosin, an alpha-1 blocker, on blood pressure, glucose tolerance, and serum lipid profiles were prospectively investigated in 53 hypertensive patients: 19 with normal glucose tolerance (NGT) and 34 with impaired glucose tolerance (IGT). The plasma glucose, serum lipids, fructosamine, and glycosylated hemoglobin A1c (HbA1c) levels were determined before and during long-term (6 months) therapy with terazosin. A 75-g oral glucose tolerance test was performed before and during long-term terazosin therapy. Significant falls in both systolic and diastolic blood pressure in both patient groups were maintained during the long-term therapy with terazosin. Neither fasting nor postglucose-load venous plasma glucose levels were altered in either group of patients, and diabetes mellitus did not develop in any patient with NGT during the study. There was no significant change in the insulinogenic index (delta IRI/delta BS at 30 minutes after glucose load) in either patient group. In patients with IGT, glucose intolerance was slightly improved with significant reductions in HbA1c and fructosamine during terazosin therapy. Serum total cholesterol (TC) and triglyceride levels were significantly decreased in patients with IGT. In addition, TC and low density lipoprotein (LDL) cholesterol were significantly decreased in patients with hypercholesterolemia (TC > 220 mg/dL). These results suggest that long-term therapy with terazosin may improve glucose and lipid metabolism in hypertensive patients and terazosin seems to be an antihypertensive agent with beneficial effects for hypertensive patients with either dyslipidemia or impaired glucose metabolism.
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PMID:Long-term therapy with terazosin may improve glucose and lipid metabolism in hypertensives: a multicenter prospective study. 790 68

Hypertension is often related to metabolic disorders, such as android obesity, glucose intolerance, dyslipidemia, and hyperinsulinism (X syndrome). Insulin resistance (IR), described as the common link among these disorders, could contribute to an increase in coronary risk. The euglycemic insulin clamp technique has been used to show that different classes of antihypertensive agents have different effects on IR. The purpose of this multicenter study was to compare the effects of captopril to those of nicardipine on insulin profile using the oral glucose tolerance test (OGTT), a routine-feasible test. After a 1-month single-blind placebo period, 154 patients with hypertension and android obesity were randomized to 3 months of double-blind therapy with either 50 mg captopril twice daily (n = 77) or 50 mg nicardipine twice daily n = 77). An OGTT with an assay of insulin was performed before and after active treatment. Lipid parameters, Factor VII (F VII), fibrinogen, plasminogen activator inhibitor 1 (PAI-1), and insulin-like growth factor I (IGF-I) were measured at the same time. After 3 months of treatment, the changes from baseline in mean +/- SD values for the insulin area under the curve (AUC) were -24.8 +/- 107.4 microIU x h/mL (-15.2%) for captopril v 6.1 +/- 98.6 microIU x h/mL (4.8%) for nicardipine (P = .072). Changes in peak insulin values were -18.3 +/- 86.2 microIU/mL (-14%) for captopril v 6.7 +/- 79.4 microIU/mL (6.6%) for nicardipine (P = .070).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of the effects of captopril and nicardipine on insulin sensitivity and thrombotic profile in patients with hypertension and android obesity. CaptISM Study Group. Captopril Insulin Sensitivity Multicenter Study Group. 798 64

Insulin resistance is associated with a number of risk factors for atherosclerosis, including glucose intolerance, hypertension, and dyslipidemia. Management of these disorders should include an attempt to reduce insulin resistance and certainly not to increase it. For example, when possible, thiazide diuretics and beta blockers should be avoided for treating hypertension, because they increase insulin resistance and, in diabetic patients, adversely affect glycemic control. Since exercise, weight loss, and cessation of smoking reduce insulin resistance, they are often helpful components of a treatment regimen for patients who have chronic medical disorders that are associated with insulin resistance.
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PMID:Insulin resistance. An often unrecognized problem accompanying chronic medical disorders. 809 25

Several studies have indicated that insulin resistance, elevated blood pressure (BP), and dyslipidemia precede the onset of non-insulin-dependent diabetes mellitus (NIDDM). Little data, however, exist on the presence of renal disease in prediabetic subjects. We measured albumin excretion in a cross-sectional population study in subjects 65-74 years of age living in eastern Finland in relation to the risk of developing diabetes 3.5 years later. The prevalence of microalbuminuria (urinary albumin-to-urinary creatinine ratio > or = 2 mg/mmol) was 1.3-, 1.8-, and 2.0-fold higher among subjects with impaired glucose tolerance (n = 242), newly diagnosed NIDDM subjects (n = 92), and previously diagnosed NIDDM subjects (n = 136), respectively, compared with subjects with normal glucose tolerance (n = 826). Nondiabetic subjects with microalbuminuria had multiple abnormalities in cardiovascular risk factors including elevated BP, high triglyceride concentration, high insulin concentration, and a low high-density lipoprotein cholesterol concentration, a cluster of risk factors typical for prediabetic individuals. The relationship between microalbuminuria and the incidence of NIDDM over the 3.5-year follow-up was studied in 891 subjects who were free of diabetes at baseline. Converters to diabetes (n = 69) had a higher prevalence of hypertension (68.1 vs. 54.4%, P < 0.05) and a higher prevalence of microalbuminuria (43.5 vs. 30.4%, P < 0.05) than nonconverters (n = 822). In logistic regression analysis, microalbuminuria predicted the development of NIDDM independently of BP level.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Microalbuminuria precedes the development of NIDDM. 813 60

Association between insulin resistance and hypertension: 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 and 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 as well as dyslipidemia, obesity and type 2 diabetes in a given subject. Pathogenetic mechanisms: In the pathogenesis of hypertension, inappropriate vasoconstriction (due to dysbalance of vasoactive substances and/or raised cytosolic Ca2+) and/or a structural vasculopathy is a very important ultimate causative event. In the presumed mosaic of participating pressor mechanisms, distinct Na+ retention is almost obligatory with diabetes mellitus, while essential and particularly obesity-associated hypertension probably involves a tendency for sympathetic activation. Development of insulin resistance: Insulin resistance may develop as a consequence of an intracellular excess of Ca2+ or decrease in Mg2+, an impaired insulin-mediated rise in skeletal muscle blood flow, increased sympathetic activity or being overweight. Acute hyperinsulinemia on the one hand causes arterial vasodilation and on the other hand enhances renal sodium reabsorption and sympathetic activity. Chronically, hyperinsulinemia may promote cardiovascular muscle cell proliferation and atherogenesis, and it has been proposed that insulin resistance in certain transmembranous cation exchange systems may elevate cytosolic Ca2+. Nevertheless, whether insulin resistance and/or hyperinsulinemia itself contribute to the pathogenesis of hypertension is still unclear.
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PMID:Insulin resistance, hyperinsulinemia and hypertension. 815 79

The objective of this study was to identify abnormalities in lipid and carbohydrate metabolism in women taking thiazide diuretics and determine whether these abnormalities are mitigated by concurrent postmenopausal estrogen replacement therapy. The study design was cross-sectional; its setting was Rancho Bernardo, an upper middle-class community in southern California. The subjects included 1047 white nondiabetic postmenopausal women, aged 50-89 yr, categorized by the use of thiazide diuretic, estrogen replacement therapy, both, or neither. Medical history including behavior, verified medication use, height, weight, fasting chemistry and lipid panels, and a standardized oral glucose tolerance test with fasting and 2-h plasma glucose and serum insulin levels were determined. Compared with nonusers, women taking thiazides had significantly lower high density lipoprotein cholesterol levels and significantly higher fasting triglyceride, glucose, and insulin levels. Concomitant use of thiazide and estrogen yielded lipid profiles and fasting glucose and insulin levels similar to those of subjects receiving estrogen alone, i.e. elevated high density lipoproteins, decreased low density lipoproteins, and lower levels of fasting glucose and insulin compared with those in nonusers. However, thiazide-associated postchallenge glucose and insulin elevations were not modified by estrogen. These patterns were not explained by differences in age, body mass index, exercise, smoking, alcohol use, type or dose of thiazide diuretic, type of estrogen replacement, or serum potassium levels. We conclude that postmenopausal estrogen use masks thiazide-associated dyslipidemia and fasting elevations in glucose and insulin levels, but does not improve thiazide-associated postchallenge glucose intolerance and hyperinsulinemia. Modification of most of the untoward metabolic effects of thiazides in women taking postmenopausal estrogen could provide a new incentive for the use of this traditional antihypertensive in elderly women.
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PMID:Thiazide-associated metabolic abnormalities and estrogen replacement therapy: an epidemiological analysis of postmenopausal women in Rancho Bernardo, California. 817 60

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