Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0948265 (metabolic syndrome)
24,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purpose of the present study was to perform a BPH risk factor analysis in men, relating the prostate gland volume to components of the metabolic syndrome and to identify clues to the etiology of BPH. Our material comprised a consecutive series of 158 patients with lower urinary tract symptoms with or without manifestations of the metabolic syndrome. In this group, the measured volume of the prostate was related consecutively to potential risk factors. The diagnoses atherosclerosis, non-insulin-dependent diabetes mellitus (NIDDM) and treated hypertension were obtained from the patient's medical history. Data on blood pressure, waist and hip measure, body height and weight were collected and body mass index (BMI) and waist/hip ratio (WHR) were calculated. Blood samples were drawn from fasting patients to determine insulin, cholesterol, triglycerides, HDL and LDL-cholesterol, uric acid and ALAT. The prostate gland volume was determined using ultrasound. Our results show that there was a larger prostate gland in men with NIDDM (P=0.0058), treated hypertension (P=0.0317), obesity (P<0.0001), low HDL-cholesterol levels (P=0.0132) and high insulin levels (P<0.0001) than in men without these conditions. The prostate gland volume correlated positively with the systolic blood pressure (r(s)=0.17; P=0.03), obesity (r(s)=0.34; P<0.0001) and fasting insulin (r(s)=0.38; P<0.0001) and negatively with HDL-cholesterol (r(s)=-0.22; P=0.009). On the basis of our findings, we concluded that NIDDM, treated hypertension, obesity, low HDL-cholesterol levels and high insulin levels constitute risk factors for the development of BPH. The results suggest that BPH is a facet of the metabolic syndrome and that BPH patients may share the same metabolic abnormality of a defective insulin-mediated glucose uptake and secondary hyperinsulinemia as patients with the metabolic syndrome. The findings generate a hypothesis of a causal relationship between high insulin levels and the development of BPH. In a clinical setting, the findings of the present report suggest that, in any patient presenting with BPH, the possible presence of NIDDM, hypertension, obesity, high insulin and low HDL-cholesterol levels should be considered. Conversely, in patients suffering from these conditions, the possibility of a clinically important BPH should be kept in mind.
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PMID:Components of the metabolic syndrome-risk factors for the development of benign prostatic hyperplasia. 1249 10

The role of low-density lipoprotein in the development of coronary heart disease (CHD) is well recognised. There is also growing evidence that high-density lipoprotein cholesterol (HDL-C) is a powerful inverse predictor for premature CHD and that maintaining a high HDL-C level may guard against atherosclerosis. Patients with low HDL-C levels often also have central obesity, insulin resistance and other features of the metabolic syndrome. This syndrome is both increasingly common and strongly implicated in the growing worldwide epidemic of type 2 diabetes. HDL-C may be increased by lifestyle changes, e.g. weight loss, physical activity and smoking cessation. Pharmacological agents such as fibrates, niacin and statins have also been shown significantly to elevate HDL-C. Although current guidelines are beginning to recognise the protective role of HDL-C level in preventing coronary events, HDL-C should be adopted soon as a target for intervention in its own right.
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PMID:High density lipoprotein: guardian of the vascular system? 1251 Sep 50

The metabolic syndrome is a cluster of metabolic and inflammatory abnormalities including obesity, insulin resistance, type 2 diabetes, hypertension, dyslipidemia, and atherosclerosis. The fatty acid binding proteins aP2 (fatty acid binding protein [FABP]-4) and mal1 (FABP5) are closely related and both are expressed in adipocytes. Previous studies in aP2-deficient mice have indicated a significant role for aP2 in obesity-related insulin resistance, type 2 diabetes, and atherosclerosis. However, the biological functions of mal1 are not known. Here, we report the generation of mice with targeted null mutations in the mal1 gene as well as transgenic mice overexpressing mal1 from the aP2 promoter/enhancer to address the role of this FABP in metabolic regulation in the presence or absence of obesity. To address the role of the second adipocyte FABP in metabolic regulation in the presence and deficiency of obesity, absence of mal1 resulted in increased systemic insulin sensitivity in two models of obesity and insulin resistance. Adipocytes isolated from mal1-deficient mice also exhibited enhanced insulin-stimulated glucose transport capacity. In contrast, mice expressing high levels of mal1 in adipose tissue display reduced systemic insulin sensitivity. Hence, our results demonstrate that mal1 modulates adipose tissue function and contributes to systemic glucose metabolism and constitutes a potential therapeutic target in insulin resistance.
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PMID:Role of the fatty acid binding protein mal1 in obesity and insulin resistance. 1254 Jun

The metabolic syndrome is characterized by insulin resistance and abnormal apolipoprotein AI (apoAI) and apolipoprotein B-100 (apoB) metabolism that may collectively accelerate atherosclerosis. The effects of atorvastatin (40 mg/day) and micronised fenofibrate (200 mg/day) on the kinetics of apoAI and apoB were investigated in a controlled cross-over trial of 11 dyslipidemic men with the metabolic syndrome. ApoAI and apoB kinetics were studied following intravenous d(3)-leucine administration using gas-chromatography mass spectrometry with data analyzed by compartmental modeling. Compared with placebo, atorvastatin significantly decreased (P < 0.001) plasma concentrations of cholesterol, triglyceride, LDL cholesterol, VLDL apoB, intermediate-density lipoprotein (IDL) apoB, and LDL apoB. Fenofibrate significantly decreased (P < 0.001) plasma triglyceride and VLDL apoB and elevated HDL(2) cholesterol (P < 0.001), HDL(3) cholesterol (P < 0.01), apoAI (P = 0.01), and apoAII (P < 0.001) concentrations, but it did not significantly alter LDL cholesterol. Atorvastatin significantly increased (P < 0.002) the fractional catabolic rate (FCR) of VLDL apoB, IDL apoB, and LDL apoB but did not affect the production of apoB in any lipoprotein fraction or in the turnover of apoAI. Fenofibrate significantly increased (P < 0.01) the FCR of VLDL, IDL, and LDL apoB but did not affect the production of VLDL apoB. Relative to placebo and atorvastatin, fenofibrate significantly increased the production (P < 0.001) and FCR (P = 0.016) of apoAI. Both agents significantly lowered plasma triglycerides and apoCIII concentrations, but only atorvastatin significantly lowered (P < 0.001) plasma cholesteryl ester transfer protein activity. Neither treatment altered insulin resistance. In conclusion, these differential effects of atorvastatin and fenofibrate on apoAI and apoB kinetics support the use of combination therapy for optimally regulating dyslipoproteinemia in the metabolic syndrome.
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PMID:Differential regulation of lipoprotein kinetics by atorvastatin and fenofibrate in subjects with the metabolic syndrome. 1260 23

The prevalence of marked obesity is increasing rapidly among adults and has more than doubled in 10 years. Sixty-one percent of the adult population of the United States is overweight or obese. Americans are the fattest people on earth. Paradoxically these increases in the numbers of persons who are obese or overweight have occurred during recent years when Americans have been preoccupied with numerous dietary programs, diet products, weight control, health clubs, home exercise equipment, and physical fitness videos, each "guaranteed" to bring rapid results. Overweight and obesity are also world problems. The World Health Organization estimates that 1 billion people around the world are now overweight or obese. Westernization of diets has been part of the problem. Fruits, vegetables, and whole grains are being replaced by readily accessible foods high in saturated fat, sugar, and refined carbohydrates. Since class 3 obesity (morbid or extreme obesity) is associated with the most severe health complications, the incidence of hypertension, stroke, heart disease, diabetes, and peripheral vascular disease will increase substantially in the future. Recently, obesity alone has been implicated in the development of cardiac hypertrophy and CHF. The metabolic syndrome associated with abdominal obesity, which includes insulin resistance, dyslipidemia, and elevated CRP levels, identifies subjects who have an increase in cardiovascular morbidity and mortality. Twenty to 25% of the adult population in the United States have the metabolic syndrome, and in some older groups this prevalence approaches 50%. The prevalence of overweight children in the United States has also been increasing dramatically, especially among non-Hispanic blacks and Mexican-American adolescents. Overweight children usually become overweight adults. Atherosclerosis begins in childhood. The degree of atherosclerotic changes in children and young adults can be correlated with the presence of the same risk factors seen in adults. As health providers, our direction is obvious!
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PMID:Obesity and the metabolic syndrome. 1262 76

The metabolic syndrome is the constellation of adverse metabolic and clinical effects of insulin resistance. Its high and increasing prevalence and its profound impact on the major diseases of the western world require that clinicians consider its diagnosis and management on a routine basis. Recently published guidelines on its definition now make convenient and reliable diagnosis possible. Also, there is new and better understanding of the complex dyslipidemias and other risk factors strongly associated with the metabolic syndrome, which greatly increase the risk of clinical atherosclerotic events. Comprehensive clinical evaluation of these dyslipidemias and associated atherosclerosis risk factors can lead to their aggressive treatment, customized according to the circumstances of each patient. These steps are now more feasible and more clearly desirable than ever before. Statins alone greatly reduce atherosclerosis risk, but combination lipid therapy is often required for optimal dyslipidemia management and atheroprevention.
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PMID:Lipid abnormalities in the metabolic syndrome. 1264 48

The metabolic syndrome is a highly prevalent multifaceted clinical entity produced through the interaction of genetic, hormonal, and lifestyle factors. A distinctive constellation of abnormalities precedes and predicts the accelerated development of inflammation and coagulation represent emerging risk contributors associated with obesity and insulin resistance, central components of the metabolic syndrome, which act in concert with traditional abnormalities to increase cardiovascular risk. The initiation and progression of atherosclerosis may have its origins in impaired endothelial function that can be detected at the earliest stages of development of the syndrome. The basic elements of the metabolic syndrome and accelerated phase of atherogenesis are often silent partners that present many years before the onset of type 2 diabetes mellitus. The ability to detect and monitor subclinical vascular disease, as a reflection of the multiple factors that contribute to impair arterial wall integrity, holds potential to further refine cardiovascular risk stratification. Noninvasive assessment of vascular health may also aid the clinical decision-making process by guiding therapeutic interventions to optimize vascular protection in the metabolic syndrome.
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PMID:Endothelial dysfunction and the metabolic syndrome. 1264 51

Insulin resistance and hyperinsulinemia are known atherosclerosis risk factors. The association between adiponectin plasma levels and obesity, insulinemia, and atherosclerosis has been shown. Thus, adiponectin may be a link between hyperinsulinemia and vascular disease. In vitro data demonstrated a reduction of adiponectin expression by insulin. However, it is still unclear whether insulin regulates adiponectinemia in vivo in humans. Five healthy male volunteers were studied. Circulating adiponectin levels were determined before and during hyperinsulinemic euglycemic clamp. Adiponectin was measured by radioimmunoassay. Hyperinsulinemia (85.0 +/- 33.2 at baseline vs. 482.8 +/- 64.4 pmol/l during steady state; p < 0.01) was achieved using a euglycemic hyperinsulinemic clamp, keeping blood glucose levels basically unchanged during the intervention (4.6 +/- 0.14 vs. 4.37 +/- 0.15 mmol/l, respectively; ns). We found a significant decrease of adiponectin plasma levels during the steady state of hyperinsulinemic euglycemic clamp (26.7 +/- 3.5 micro g/ml) compared to baseline levels (30.4 +/- 5 micro g/ml; p < 0.05). Hyperinsulinemia caused a significant decrease of adiponectin plasma levels under euglycemic conditions. Considering existing data about adiponectin dependent effects, hypoadiponectinemia might at least partly be a link between hyperinsulinemia and vascular disease in metabolic syndrome.
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PMID:Insulin decreases human adiponectin plasma levels. 1266 Aug 77

Cardiovascular accidents represent the most important cause of death in patients with Cushing's syndrome. This prospective study aims at evaluating carotid arteries by echo-Doppler ultrasonography and clinical and metabolic markers of atherosclerosis in 25 patients with Cushing's disease (CD) before and after 1 yr of remission. Thirty-two sex- and age-matched subjects (control-1) and 32 body mass index-matched subjects (control-2) served as controls. At diagnosis, CD patients had higher body mass index, waist to hip ratio (WHR), total, low-density lipoprotein-cholesterol and total/high-density lipoprotein (HDL) ratio, glucose and insulin, as well as lower HDL-cholesterol than control-1; they had higher WHR and total/HDL ratio and lower HDL-cholesterol than control-2. They also had higher intima-media thickness (IMT), and lower systolic lumen diameter and distensibility coefficient (DC) than either control group. Atherosclerotic plaques were detected in 31.2% of patients, 0 control-1, and 6.2% of control-2 subjects. One year after remission, WHR, LDL-cholesterol, and IMT significantly decreased, whereas systolic lumen diameter and DC significantly increased. However, all of the above parameters were still abnormal compared with control-1, but not control-2. A significant correlation was found between WHR, glucose and insulin levels, and right and left carotid IMT. WHR was the best predictor of left IMT and left DC in active, but not in cured, patients. The duration of hypercortisolism was the best predictor of right DC in active but not in cured patients. In conclusion, patients with CD have severe atherosclerotic damage. The persistence of a metabolic syndrome, vascular damage, and atherosclerotic plaques after cortisol level normalization makes these subjects still at high cardiovascular risk despite disease remission.
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PMID:Cardiovascular risk factors and common carotid artery caliber and stiffness in patients with Cushing's disease during active disease and 1 year after disease remission. 1278 49

Over the past ten years it has become clear that cardiovascular disease (CVD) and atherosclerosis have a 'microinflammatory' component and are often associated with low levels of inflammatory markers that are in the upper part of the 'normal' range. In particular, diseases that predispose to CVD, such as the metabolic syndrome and type 2 diabetes, appear to have a very strong inflammatory component. While the inflammatory process is very complicated, single measures, such as C-reactive protein (CRP) or fibrinogen, have clear benefits as they summarise many different parts of the inflammatory process and are easy to apply. However, it is important to remember that the process of inflammation includes coagulation, fibrinolysis, complement activation, antioxidation, immune response and hormonal regulation through the hypothalamic-pituitary-adrenal axis. Furthermore, genetic variation, differences in exposure to environmental influences and the mass of inflammation-producing tissue (e.g. adipose tissue) can all influence responses. Thus, the relationship between atherosclerosis, the metabolic syndrome and inflammation is extraordinarily complex. Inflammatory markers such as CRP exhibit strong CVD-risk prediction that is consistent across sexes and a number of different populations. They reflect risk not only for 'vulnerable plaque' and myocardial infarction (MI) but also for other cardiovascular diseases. In fact, inflammation is associated with several, if not all, of the chronic diseases of old age, and it is now clear that there are important links between inflammation and general metabolism. For instance, visceral adiposity exerts a major influence on inflammation status. Medications that affect atherosclerosis appear to do so at least in part by influencing inflammation (for instance, the emerging pleiotropic effects of statins), and this has far-reaching ramifications for chronic diseases of old age and their treatment.
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PMID:Inflammation, the metabolic syndrome and cardiovascular risk. 1279 93


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