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 metabolic syndrome and type 2 diabetes are associated with endothelial activation (and thus with inflammatory processes leading to atherosclerosis), but the mechanisms that underlie these associations are not fully understood. Endothelial intercellular adhesion molecule (ICAM)-1 plays an important role in the recruitment of immune cells during the development of atherosclerotic plaque and is a marker of inflammatory disease. We performed bivariate quantitative genetic analyses to estimate genetic and environmental correlations between circulating ICAM-1 concentration and 17 phenotypes associated with the metabolic syndrome. Our study population comprised 428 adults in 20 extended Mexican-American families from the San Antonio Family Heart Study (SAFHS). Circulating ICAM-1 concentration is heritable (h(2) = 0.56). ICAM-1 concentration showed significant positive genetic correlations (range 0.32-0.52, P < 0.05) with fasting insulin, insulin 2 h after oral glucose challenge, homeostasis model assessment of insulin resistance, BMI, waist circumference, and leptin concentration; negative genetic correlation with HDL3 cholesterol concentration; and negative environmental correlation with adiponectin concentration. Significant genetic correlations were not found between ICAM-1 and fasting or 2-h serum glucose or systolic or diastolic blood pressure. Thus, ICAM-1 expression may share common genetic modulation with traits related to obesity, insulin resistance, and HDL3 cholesterol, but not with hyperglycemia or hypertension per se.
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PMID:Intercellular adhesion molecule-1 concentration is genetically correlated with insulin resistance, obesity, and HDL concentration in Mexican Americans. 1544 2

The metabolic syndrome is a widespread clinical condition and an important cluster of atherothrombotic disease risk factors. The inclusion of this syndrome in the recently published Adult Treatment Panel III (ATP III) guidelines focused the attention of the physicians on this entity. Abdominal obesity, PPAR modulation, insulin resistance (with or without glucose intolerance), atherogenic dyslipidemia, elevated blood pressure, prothrombotic and proinflammatory states are the principal factors of this multifaceted syndrome. There are two major pathways of metabolic syndrome progress: (1) With preserved pancreatic beta cells function and insulin hypersecretion, which can recompense for insulin resistance. This pathway leads mostly to the macrovascular complications of metabolic syndrome. (2) With substantial injure of pancreatic beta cells leading to gradually reduced insulin secretion and to hyperglycemia (e.g. overt type 2 diabetes). This pathway leads to both microvascular and macrovascular complications. Because macrovascular complications of insulin resistance state precede the onset of hyperglycemia, early intervention in patients with metabolic syndrome is particularly important. Since central obesity (accompanied by insulin resistance even in the absence of hyperglycemia) is the key factor leading to development of metabolic syndrome and its future macrovascular complications, we assume that next logical step is the recognition of central obesity itself as a major risk factor for cardiovascular diseases.
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PMID:Macrovascular complications of metabolic syndrome: an early intervention is imperative. 1545 79

Insulin resistance syndrome, also referred to as the metabolic syndrome, affects 1 in 3 to 4 adults older than 20 years. This syndrome consists of a clustering of metabolic abnormalities that put people at risk for type 2 diabetes and cardiovascular disease. These clinical abnormalities include dyslipidemia, specifically elevated triglycerides and low high-density lipoprotein cholesterol, elevated glucose, and hypertension. The incidence of this morbid syndrome is expected to continue to grow both in the United States and worldwide, and thus is of tremendous interest to nurses seeking to measure their impact on patient outcomes. The key lifestyle interventions essential to treating this syndrome are weight loss and physical activity. The purpose of this article is to (1) describe the insulin resistance syndrome and discuss the current focuses for inquiry in major outcome areas (eg, mortality, morbidity, costs); (2) describe the status of specific lifestyle interventions (weight loss, diet, and exercise); (3) identify outcomes that nurses could measure to assess their impact on patient care; and (4) identify areas for future nursing research.
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PMID:Insulin resistance syndrome. 1549 94

Little is known about the association between prior gestational hyperglycemia of different severity and the subsequent risk for the metabolic syndrome. Eighty-one women with prior gestational diabetes mellitus (GDM), 25 with one abnormal value at the oral glucose tolerance test (OGTT), and 65 with normal OGTT were studied after a mean of 8.5 yr from the index pregnancy. Patients with prior gestational hyperglycemia (both one abnormal value at the OGTT and GDM) showed a worse metabolic pattern than subjects with gestational normoglycemia [respectively higher values of body mass index (BMI), waist, blood pressure, serum glucose, insulin, C-peptide, homeostatic model assessment (HOMA), fibrinogen and lower levels of HDL-cholesterol]. Prevalence of the metabolic syndrome and its components was 2-4-fold higher in women with prior gestational hyperglycemia (and 10-fold higher if pre-pregnancy obesity coexisted) when compared to normoglycemic controls; in a Cox proportional hazard model, after adjustments for age and pre-pregnancy BMI, gestational hyperglycemia and pre-pregnancy BMI predicted subsequent metabolic syndrome [respectively: hazard ratio (HR)=4.26 and HR=1.21] and most of its components. In the same model, the highest quartile of fasting serum glucose at the OGTT of the index pregnancy was significantly associated to the metabolic syndrome and its components. Gestational hyperglycemia and fasting glucose values were also associated to subsequent fibrinogen values, but not to albumin excretion rates. In young adult women, prior gestational hyperglycemia (particularly abnormal fasting glucose values), above all in combination with pre-pregnancy obesity, anticipates a subsequent syndrome at high cardiovascular risk and, possibly, a mild chronic inflammatory response.
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PMID:Prior gestational hyperglycemia: a long-term predictor of the metabolic syndrome. 1550 85

A number of patients with type 2 diabetes are GAD antibody positive. A Diabetes Outcome Progression Trial (ADOPT) is a randomized, double-blind clinical trial in recently diagnosed drug-naive patients with type 2 diabetes that allows for the evaluation of GAD positivity in the context of anthropometric and biochemical characteristics. Of the 4,134 subjects enrolled in ADOPT for whom GAD status was obtained, 174 (4.2%) were GAD positive, with the prevalence of GAD antibodies being similar in North America (4.7%) and Europe (3.7%). Although BMI and age were similar, GAD-positive patients had a lower fasting insulin level, compatible with them being more insulin sensitive. The lower fasting insulin concentration was accompanied by a decreased early insulin response to oral glucose. However, when this insulin response was corrected for the degree of insulin sensitivity, GAD-positive and -negative patients had similar beta-cell function. Consistent with the difference in insulin sensitivity, GAD-positive patients had higher HDL cholesterol and lower triglyceride levels. In the GAD-positive individuals, the prevalence of the metabolic syndrome as defined by NCEP ATP III (National Cholesterol Education Program Adult Treatment Panel III) was also lower (74.1 vs. 83.7%, P = 0.0009). These phenotypic differences may underlie a potential difference in the natural history of hyperglycemia and its clinical outcomes.
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PMID:Phenotypic characteristics of GAD antibody-positive recently diagnosed patients with type 2 diabetes in North America and Europe. 1556 50

Patients with diabetes mellitus have a higher risk for cardiovascular heart disease (CHD) than does the general population, and once they develop CHD, mortality is higher. Good glycemic control will reduce CHD only modestly in patients with diabetes. Therefore, reduction in all cardiovascular risks such as dyslipidemia, hypertension, and smoking is warranted. The focus of this article is on therapy for dyslipidemia in patients with type 2 diabetes. Patients with the metabolic syndrome (insulin resistance) share similarities with patients with type 2 diabetes and may have a comparable cardiovascular risk profile. Diabetic patients tend to have higher triglyceride, lower high-density lipoprotein cholesterol (HDL), and similar low-density lipoprotein cholesterol (LDL) levels compared with those levels in nondiabetic patients. However, diabetic patients tend to have a higher concentration of small dense LDL particles, which are associated with higher CHD risk. Current recommendations are for an LDL goal of less than 100 mg/dl (an option of < 70 mg/dl in very high-risk patients), an HDL goal greater than 40 mg/dl for men and greater than 50 mg/dl for women, and a triglyceride goal less than 150 mg/dl. Nonpharmacologic interventions (diet and exercise) are first-line therapies and are used with pharmacologic therapy when necessary. Lowering LDL levels is the first priority in treating diabetic dyslipidemia. Statins are the first drug choice, followed by resins or ezetimibe, then fenofibrate or niacin. If a single agent is inadequate to achieve lipid goals, combinations of the preceding Drugs may be used. For elevated triglyceride levels, hyperglycemia must be controlled first. If triglyceride or HDL levels remain uncontrolled, pharmacologic agents should be considered. Fibrates are slightly more effective than niacin in lowering triglyceride levels, but niacin increases HDL levels appreciably more than do fibrates. Unlike gemfibrozil, niacin selectively increases subfraction Lp A-I, a cardioprotective HDL. Niacin is distinct in that it has a broad spectrum of beneficial effects on lipids and atherogenic lipoprotein subfraction levels. Niacin produces additive results when used in combination therapy. Recent data suggest that lower dosages and newer formulations of niacin can be used safely in diabetic patients with good glycemic control. Current evidence and guidelines mandate that diabetic dyslipidemia be treated aggressively, and lipid goals can be achieved in most patients with diabetes when all available products are considered and, if necessary, used in combination.
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PMID:Pharmacologic treatment of type 2 diabetic dyslipidemia. 1558 39

The prevalence of type 2 diabetes has assumed epidemic dimensions. Children are now vulnerable to a disease that was once the exclusive domain of adulthood. Increased body weight and sedentary behavior accelerate insulin resistance and beta-cell dysfunction, leading to the clinical manifestation of hyperglycemia. Other cardiovascular risk factors tend to cluster in this milieu, setting the stage for vastly increased macrovascular morbidity. Many more people have impaired glucose tolerance ('prediabetes'). They are not only at risk for frank diabetes but also for the recently recognized entity of 'metabolic syndrome,' which is further characterized by hypertension, dyslipidemia, and central adiposity. A multifactorial approach addressing these aspects in addition to intensive glycemic control is the most efficacious therapy, optimally achieved through a team effort comprising the clinician, diabetes nurse, dietitian, and other professionals. Early use of oral-agent combinations is gaining favor. Insulin is best utilized in a basal-bolus fashion to manage both fasting and postprandial glycemia, delivered with multiple-dose injections or continuously via the pump. In hospitalized patients, good diabetic control reduces mortality. Finally, recent trials show that optimal weight maintenance and regular exercise can prevent or delay type 2 diabetes. Such information can serve as the foundation for large-scale preventive endeavors at the community level.
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PMID:Type 2 diabetes: epidemiologic trends, evolving pathogenetic [corrected] concepts, and recent changes in therapeutic approach. 1621

Diabetes mellitus is increasing worldwide, resulting from the interaction of obesity, inflammation, and hyperglycemia. Activated immunity and cytokine production lead to insulin resistance and other components of the metabolic syndrome, establishing the link between diabetes and atherosclerosis. Hyperglycemia-induced endothelial dysfunction is mediated by increased oxidative stress, a promoter of adventitial inflammation and vasa vasorum neovascularization in experimental models of diabetic atherosclerosis. Recent studies have documented increased inflammation, neovascularization, and intraplaque hemorrhage in human diabetic atherosclerosis. This inflammatory microangiopathic process is independently associated with plaque rupture, leading to coronary thrombosis. Tissue factor, the most potent trigger of the coagulation cascade, is increased in diabetic patients with poor glycemic control. Circulating tissue factor microparticles are also associated with apoptosis of plaque macrophages, closing the link among inflammation, plaque rupture, and blood thrombogenicity. High-density lipoproteins, responsible for free cholesterol removal, are reduced in patients with insulin resistance and diabetes. High-density lipoprotein therapy leads to a significant decrease in plaque macrophages and increase in smooth-muscle cells. These beneficial effects may be responsible for coronary plaque stabilization in patients treated with recombinant Apolipoprotein A-I Milano/phospholipid complex. Finally, peroxisomal proliferator-activated receptors (PPARs) are now considered the nuclear transcriptional regulators of atherosclerosis. Three subfamilies, including PPAR-alpha, -delta, and -gamma, have been identified with crucial roles in lipid metabolism, plaque inflammation, expression of adhesion molecules and cytokines, and regulation of matrix metalloproteinases. Multiple experimental studies have documented plaque stabilization with PPAR-gamma agonists, a group of medications holding great promise in the treatment of diabetes atherosclerosis.
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PMID:New aspects in the pathogenesis of diabetic atherothrombosis. 1560 89

We used factor analysis to define and compare the manner in which the various features of the metabolic syndrome are linked or clustered in Chinese, Malays and Asian Indians. One thousand nine hundred and fifty seven men (1324 Chinese, 391 Malays and 261 Asian Indians) and 2308 women (1622 Chinese, 391 Malays and 296 Asian Indians) were examined. Anthropometry, blood pressure, serum glucose, lipid concentrations, and serum insulin were measured for all subjects. These data were then subjected to factor analysis which reduced the variables examined to three factors in all ethnic groups and both genders. The first (dyslipidemia) factor was positively loaded for obesity, insulin resistance (IR), fasting triglyceride and negatively loaded for HDL-cholesterol. The second (hyperglycemia) factor was positively loaded for IR and blood glucose. The third (hypertension) factor was positively loaded for obesity and blood pressure. IR was positively loaded in the hypertension factor in Malay women but not in others. Rather than a single entity causally associated with insulin resistance (IR), our findings support a concept in which the metabolic syndrome represents several distinct entities (dyslipidemia, hypertension and hyperglycemia). It appears that Malay females may be more prone to develop hypertension in association with IR.
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PMID:The metabolic syndrome in Chinese, Malays and Asian Indians. Factor analysis of data from the 1998 Singapore National Health Survey. 1562 Apr 34

Two recently published reports from American Heart Association and National Heart, Lung, and Blood Institute have addressed the management of the metabolic syndrome. It is of importance to present the content of these reports and to discuss the management of the metabolic syndrome in Swedish health care. Today there are official definitions of the metabolic syndrome from the US and also definitions issued by the WHO. The American criteria have been developed with the aim to be used in clinical practice whereas the definitions from the WHO are partly based upon examinations, which are not routinely used in the routine care. The metabolic syndrome is common among men and women and increases in parallel with increasing age. Overweight and obesity are among the most important factors in the syndrome, which may be expected to increase because of the increasing incidence of obesity. The metabolic syndrome according to the two definitions has in several studies been shown to strongly increase the risk for type 2 diabetes and are also associated with an increased risk of cardiovascular disease and death. Treatment of the syndrome must first of all be focused on changing diet and physical exercise habits. Drug therapy can be used for individual components in the syndrome such as hypertension, dyslipidemia, and hyperglycemia. Although there is still a need of further research in order to develop the knowledge of underlying mechanisms, improve risk assessment and treatment, there are now sufficient data and experiences to introduce the concept of the metabolic syndrome in clinical practice in the Swedish health care.
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PMID:[The metabolic syndrome--time to introduce the diagnosis in routine health care? Reflections on a current American report]. 1563 Dec 25


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