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Insulin resistance syndrome (IRS), also termed syndrome X, is a distinctive constellation of risk factors for the development of type 2 diabetes mellitus and cardiovascular disease. The syndrome's hallmarks are glucose intolerance, hyperinsulinemia, a characteristic dyslipidemia (high triglycerides; low high-density lipoprotein cholesterol, and small, dense low-density lipoprotein cholesterol), obesity, upper-body fat distribution, hypertension, and increased prothrombotic and antifibrinolytic factors. Insulin resistance, caused by a complex of genetic and environmental influences, is now recognized not just as a mechanism contributing to hyperglycemia in type 2 diabetes, but also as an early metabolic abnormality that precedes the development of overt diabetes. The clinical definition of insulin resistance is the impaired ability of insulin (either endogenous or exogenous) to lower blood glucose. In some insulin-resistant individuals, insulin secretion will begin to deteriorate under chronic stress (glucose toxicity) and overt diabetes will result. If not, individuals will remain hyperinsulinemic, with perhaps some degree of glucose intolerance, together with other hallmarks of the IRS. The statistical correlation between hypertension and impaired glucose tolerance is clear, although the mechanism is not yet fully understood. Epidemiologic evidence of insulin resistance as an independent risk factor for atherosclerosis and coronary heart disease (CHD) completed the evolving concept of IRS as the common soil for the development of both diabetes and CHD. No single laboratory test exists for diagnosis of IRS. Rather, IRS remains a clinically evident syndrome that can be suspected on the basis of physical and laboratory findings. This identifies individual patients whom the clinician should screen for associated comorbid conditions, aggressively control cardiovascular risk factors, and tailor drug therapy for optimal benefit. This article provides practical guidelines to achieve these goals and specific strategies to ameliorate cardiovascular and metabolic risk in the IRS.
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PMID:Clinical implications of the insulin resistance syndrome. 1068 70

In 1988, Reaven used the term syndrome X to describe a relation between several disorders including hypertension, dyslipidemia, impaired glucose tolerance, obesity, and coronary heart disease. Despite a number of studies dealing with syndrome X, its genetic basis remains poorly understood. Regarding the complexity of this syndrome, it is important to use animal models developing the traits of the disease. Here we show a genetic dissection of syndrome X in the WOKW rat, an animal model of genetically determined syndrome X. We found a major quantitative trait locus (QTL) for glucose metabolism on chromosome 3 and further QTLs influencing obesity and body weight on chromosomes 1 and 5. Genetic determinants of dyslipidemia were mapped to chromosomes 4 and 17. In addition, suggestive linkage for serum insulin was found on chromosome 1 to the region previously shown to be associated with type-1 diabetes mellitus. This is the first study demonstrating independent genetic factors influencing traits of the syndrome X in the rat as well as a possible genetic relationships between syndrome X and diabetes mellitus. Moreover, regarding the close similarities between WOKW rat and human syndrome X, the study could help in a search of genetic factors involved in this complex metabolic disorder in human.
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PMID:Genetic dissection of the syndrome X in the rat. 1072 Apr 72

HIV infection induces an early decrease of cholesterol and a late increase of triglycerides (TG) with a reduction of HDL. These changes are proportional with the lowering of CD4, which reflects the infection's severity. Both the increase of TG synthesis and the decrease of TG catabolism, in relation with a reduction of lipoprotein lipase activity, are responsible of these changes. Moreover, LDL catabolism is enhanced by macrophage scavenger receptors, due to a high proportion of small, dense LDL which are more easily oxidized. Many cytokines (interferon alpha, interleukins, TNF) play probably a pathogenic role in the dyslipidemia. Some HIV patients who received antiproteases may develop lipodystrophy with central obesity, insulino-resistance, glucose intolerance and sometimes diabetes (like in syndrome X). Other patients present a cushingoid, buffalo hump. This complication may be observed also with antiretroviral treatment other than antiproteases. The physiopathology of these findings could be in relation with structural homologies between antiproteases and some important proteins, involved in lipid and adipocyte metabolism. Cardiovascular risk linked to these perturbations is evident. The treatment is not different from the treatment for seronegative, hyperlipidemic patients: struggle against risk factors, diet advices, fibrates or statins. The antiproteases bring huge contribution to the prognosis of AIDS patients but the risk of cardiovascular complications could impair this therapeutic progress. So, it is essential to understand the pathogeny of these complications in order to discover new antiproteases, without these adverse side effects.
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PMID:[Lipids and AIDS]. 1074 83

The pathophysiology of the various manifestations of Syndrome X has been poorly understood. A possible mechanism involves stimulation of the sympathetic nervous system (SNS). Insulin plays an important role in the relationship between dietary intake and SNS activity. Because insulin-mediated glucose uptake in central hypothalamic neurons regulates SNS activity in response to dietary intake, a hypothesis was developed that links the hyperinsulinemia of obesity to sympathetic stimulation, the latter exerting a prohypertensive effect mediated by the kidney, the heart, and the vasculature. Evidence in support of this hypothesis has been obtained from the Normative Aging Study (NAS) in which a relationship between insulin (and glucose) and the SNS, and between insulin and SNS activity and blood pressure was demonstrated. The characteristic dyslipidemia in NAS subjects, moreover, was related to insulin and epinephrine. As reported in other studies, insulin level was directly associated with low HDL and high triglyceride levels. An independent inverse association was also noted between urinary epinephrine excretion and lipid levels: high epinephrine excretion rates were associated with high HDL and low triglyceride levels and, conversely, low epinephrine excretion was associated with low HDL and high triglycerides. In the NAS, therefore, increased SNS activity contributes to hypertension while diminished adrenal medullary activity contributes to the low HDL and high triglyceride levels commonly seen in association with hypertension.
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PMID:Role of the sympathetic adrenal system in the pathogenesis of the insulin resistance syndrome. 1084 54

A significant number of Americans are at risk for developing a condition of insulin resistance termed Syndrome X. Dyslipidemia, resistance to insulin, obesity, and blood pressure elevation--the deadly quartet--describe Syndrome X, which increases atherogenic risk and contributes to coronary artery disease. Lifestyle factors such as overeating and physical inactivity play a pivotal role in Syndrome X. This deadly duet has been aptly coined "hyperactive fork" and "hypoactive foot," respectively. In addition, emerging evidence suggests that certain nutrients may help protect against Syndrome X. This review provides a brief discussion of diet and lifestyle factors related to Syndrome X.
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PMID:Syndrome X: medical nutrition therapy. 1086 Mar 97

Patients with type 2 diabetes (formerly known as non-insulin-resistant diabetes) have a significantly increased risk of developing cardiovascular disease. Once clinical cardiovascular disease develops, these patients have a poorer prognosis than normoglycemic patients. By inducing endothelial changes, hyperglycemia contributes directly to atherosclerosis. Type 2 diabetes is also associated with atherogenic dyslipidemias. This form of diabetes, or the precursor state of insulin resistance, commonly occurs as a metabolic syndrome (formerly known as syndrome X) consisting of hypertension, atherogenic dyslipidemia and a procoagulant state, in addition to the disorder of glucose metabolism. All cardiovascular risk factors except smoking are more prevalent in patients with type 2 diabetes. In addition to exercise, weight control, aspirin therapy and blood pressure control, therapy to modify lipid profiles is usually necessary. The choice of agent or combination of statin, bile acid sequestrant, fibric acid derivative and nicotinic acid depends on the lipid profile and characteristics of the individual patient.
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PMID:Attenuating cardiovascular risk factors in patients with type 2 diabetes. 1114 70

The manifestations of syndrome X increase the risk of coronary heart disease (CHD) as much, if not more so, than elevated low-density lipoprotein (LDL) cholesterol concentrations. The fundamental abnormality leading to the manifestations that comprise syndrome X is resistance to insulin regulation of muscle glucose uptake and adipose tissue lipolysis. To prevent decompensation of glucose tolerance, patients with syndrome X secrete large amounts of insulin. Treatment should be aimed at 1) increasing insulin sensitivity, 2) attenuating day-long hyperinsulinemia, and 3) pharmacologic treatment of the specific manifestations of syndrome X if lifestyle interventions are not entirely successful. The two major lifestyle modulators of insulin action are body weight and physical fitness--the heavier and the more sedentary a patient is, the greater the degree of insulin resistance and compensatory hyperinsulinemia. In overweight, insulin-resistant patients, the magnitude of insulin resistance is attenuated with weight loss (10 to 15 pounds). Aerobic exercise (30 minutes a session, three to four times a week) is equally effective, irrespective of the presence of obesity. In the absence of associated weight loss, the usually recommended low-fat, high-carbohydrate diet makes the manifestations of syndrome X worse. This is because the more carbohydrates present in the insulin-resistant patient's diet, the greater the insulinogenic stimulus to the pancreas, and hence day-long plasma insulin levels are higher. Replacing saturated fat with monounsaturated and polyunsaturated fat instead of carbohydrates provides the same favorable effect on LDL cholesterol concentrations without the insulin-stimulating effect of low-fat, high-carbohydrate diets. This intervention does not affect insulin resistance, but maintains day-long insulin levels as low as possible. Although lifestyle changes can be very effective in attenuating the manifestations of syndrome X, it may be necessary to initiate pharmacologic treatment aimed at controlling dyslipidemia and hypertension. The major obstacle to reducing the risk of CHD in patients with syndrome X is becoming aware of its manifestations. After this is accomplished, the relatively simple approaches outlined herein are an effective treatment strategy.
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PMID:Syndrome X. 1144 62

Syndrome X, the clustering of risk factors for cardiovascular disease, is recognized as an obesity-related health concern among adults. In particular, individuals with visceral (intra-abdominal) obesity are prone to developing syndrome X. Although extremes of visceral fat have been detected in prepubertal children, the extent to which visceral fat contributes to the development of disease risk factors in children is not known. This review addresses the occurrence of syndrome X and its antecedents in the pediatric population, as well as two specific issues regarding syndrome X in children: the roles of ethnicity and visceral fat. The central feature to emerge from most studies is that basal and post-challenge insulin are significantly higher in African-American, Mexican-American, and Pima Indian children compared to Caucasian children. Although these ethnic differences are independent of adiposity, adiposity is associated with greater insulin in all ethnic groups examined. Mexican-Americans have a higher lipid risk factor level, which is related to greater obesity, and African-Americans have lesser lipid-associated risk, independent of obesity. African-American children may be more likely to develop type 2 diabetes due to obesity-independent hyperinsulinemia and insulin resistance, but appear less predisposed to the obesity-related clustering of risk factors associated with syndrome X. Mexican-American children may be more likely to develop syndrome X due to greater obesity-related hyperinsulinemia and dyslipidemia. Total body fat, rather than visceral fat, appears be the primary determinant of insulin resistance prior to puberty. However, visceral adipose tissue is uniquely related to both insulin and lipid risk factors in children and adolescents, and thus may contribute to the development of the early stages of syndrome X. Am. J. Hum. Biol. 11:249-257, 1999. Copyright 1999 Wiley-Liss, Inc.
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PMID:Syndrome X in children: Influence of ethnicity and visceral fat. 1153 48

Adrenarche is the puberty of the adrenal gland. The descriptive term "pubarche" indicates the appearance of pubic hair, which may be accompanied by axillary hair. This process is considered premature if it occurs before age 8 yr in girls and 9 yr in boys. The chief hormonal products of adrenarche are DHEA and DHEAS. The well-documented evolution of adrenarche in primates and men is incompatible with either a neutral or harmful role for DHEA and implies most likely a positive role for some aspects of young adult pubertal maturation and developmental maturation. Premature adrenarche has no adverse effects on the onset and progression of gonadarche and/or final height. Mechanisms for initiation of adrenal androgen secretion at adrenarche are still not well understood. Maturational increases in 17-hydroxylase and 17,20-lyase are seen together with a lower activity of 3beta-hydroxysteroid dehydrogenase (3beta-HSD). There is good evidence that the zona reticularis is the source of adrenal androgens. Adrenarche and gonadarche are regulated differently. Although premature adrenarche has been thought to be a benign, normal variant of puberty, our findings indicate that, for certain girls, premature adrenarche represents an early clinical feature of syndrome X (obesity, hypertension, dyslipidemia, insulin resistance). Perhaps the early identification of these patients will permit early therapy, such as lifestyle changes, including dietary and activity level intervention. As insulin resistance is an underlying feature of premature adrenarche, it seems rational to assess the efficacy and safety of using insulin-sensitizing agents to treat these individuals. In the absence of controlled longitudinal studies, the cross-sectional data available from our studies suggest that premature pubarche driven by premature adrenarche and hyperinsulinemia may precede the development of ovarian hyperandrogenism, and this sequence may have an early origin with low birth weight serving as a marker. Premature adrenarche may thus be a forerunner of syndrome X in some girls.
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PMID:Premature adrenarche. 1171 59

There are several reports in literature implicating cholesterol metabolism in the pathogenesis of neuronal degenerations, oncogenesis, functional neuropsychiatric disorders and multiple sclerosis. Biosynthesis of cholesterol takes place by the isoprenoid pathway, which also produces digoxin, an inhibitor of membrane Na(+)-K+ ATPase. Inhibition of this enzyme results in intracellular Mg++ deficiency which can influence cholesterol metabolism. Digoxin also influences transport of tryptophan and tyrosine which are precursors of various neurotransmitters. Alterations in digoxin, membrane Na(+)-K+ ATPase and also in neurotransmitters have been reported in the disorders mentioned above. In view of this, serum lipid profile, activity of plasma HMG CoA reductase (the major rate limiting step in the isoprenoid pathway), RBC membrane Na(+)-K+ ATPase activity, serum Mg++ concentration, concentration of digoxin and concentration of serum neurotransmitters were studied in some neuropsychiatric disorders. The serum serotonin level was increased while that of serum dopamine and noradrenaline was reduced. Serum digoxin levels were high and RBC membrane sodium-potasium ATPase activity and serum magnesium were reduced. There was a reduction in HDL cholesterol and increase in plasma triglycerides (pattern similar to insulin resistance and syndrome X) in most of the disorders studied. The HMG CoA reductase activity was high, the serum total cholesterol was increased while RBC membrane cholesterol was reduced in most of the cases. The significance of increased digoxin with consequent inhibition of membrane Na(+)-K+ ATPase in relation to changes in cholesterol metabolism and insulin resistance type of dyslipidemia is discussed in this paper.
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PMID:Membrane Na+ K+ ATPase inhibition related dyslipidemia and insulin resistance in neuropsychiatric disorders. 1188 68


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