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Query: UMLS:C0011860 (type 2 diabetes)
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Premature adrenarche was previously thought to be a benign condition. However, the authors and several other research groups have noted hyperinsulinism and insulin resistance in many girls with premature adrenarche. African-American and Caribbean-Hispanic girls with premature adrenarche are frequently obese with marked hyperandrogenism, signs which correlate with the degree of insulin resistance (i.e., those girls who are obese and insulin resistant tend to have higher levels of adrenocorticotropic hormone-stimulated androgens). Also, girls with premature adrenarche and reduced insulin sensitivity can have subtle decreases in their high-density lipoprotein (HDL) profile. Many of these girls have a strong family history of type 2 diabetes mellitus. Preliminary data regarding long-term follow-up of girls with premature adrenarche indicate that those girls who remain obese are at risk of developing polycystic ovary syndrome (PCOS). The term 'syndrome X' refers to the constellation of laboratory and clinical findings associated with hyperinsulinism stemming from insulin resistance. These findings include obesity, acanthosis nigricans, glucose intolerance, type 2 diabetes mellitus, dyslipidaemia with reduced HDL and elevated low-density lipoprotein, cardiovascular disease and PCOS. Hence, for certain girls, premature adrenarche may be a part of the clinical spectrum of syndrome X.
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PMID:Premature adrenarche: findings in prepubertal African-American and Caribbean-Hispanic girls. 1062 48

Type 2 diabetes mellitus has emerged as an important condition of older patients in which both microvascular and macrovascular complications are a common cause of morbidity and mortality. In contrast to type 1 diabetes mellitus, this endocrinopathy is clustered in minority populations and has both strong genetic and environmental factors that influence disease manifestation. A number of physiological alterations of glucose metabolism including hepatic overproduction of glucose, and reduced glucose utilization by peripheral tissues as a result of insulin resistance contribute to the development of the metabolic manifestations of this disease. Ultimately, pancreatic failure and reduced insulin secretion lead to hyperglycemia and the diabetic state. Frequently, many of these metabolic manifestations, or what has been termed Syndrome X, antecede the development of overt diabetes by many years. This syndrome is manifest clinically by such cardiovascular risk factors as hypertension, dyslipidemia, and coagulation abnormalities. This abnormal metabolic milieu contributes to the high prevalence of macrovascular complications including coronary artery disease as well as more generalized atherosclerosis. Microvascular complications have only more recently been recognized as an important and frequent complication of type 2 diabetes. Among the elderly and minority populations, this has become the single most important cause of end-stage renal failure that necessitates renal replacement therapies. The outcome for these patients on hemodialysis, the modality most frequently selected, is poor, with the majority of these patients dying of cardiovascular causes. Unfortunately, interventional strategies to reduce or prevent the microvascular and macrovascular complications have only recently received the needed attention and will require considerable effort and resources to improve the clinical outcomes and life expectancies for these patients.
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PMID:Diabetes in the elderly population. 1067 16

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

Multiple metabolic syndrome (MMS) implies a frequent coincidence of four basic serious metabolic risk factors for subsequent manifestation of cardiovascular disease. The latter include: central type obesity, arterial hypertension, dyslipoproteinaemia and diabetes mellitus type II (non-insulin-dependent diabetes mellitus--NIDDM). MMS is also described as syndrome X, Reaven's syndrome, insulin resistance syndrome, metabolic syndrome or as the "deadly quartet". NIDDM in humans is conceived as a syndrome the pathogenesis of which is multifactorial and it is not an unequivocal nosological unit. It many epidemiological studies reliable evidence was provided that in the aetiology of NIDDM a marked genetic influence is involved. Its genetic predisposition is conditioned by the interaction of candidate genes and a complex of influences of the external environment. Evidence was provided that MMS phenotypes cumulate only in members of some families. The mode of genetic transmission of NIDDM remains obscure.
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PMID:[Genetic predisposition for multiple metabolic syndrome. Part 1. Diabetes mellitus type 2--incidence and prevalence]. 1095 28

The effect of dietary Platycodon grandiflorum on the improvement of insulin resistance and lipid profile was investigated in lean (Fa/-) and obese (fa/fa) Zucker rats, a model for noninsulin dependent diabetes mellitus. Dietary Platycodon grandiflorum feeding for 4 weeks resulted in a significant decrease in the concentration of plasma triglyceride in both lean and obese Zucker rats. Furthermore, dietary Platycodon grandiflorum markedly decreased both plasma cholesterol and fasting plasma insulin levels, and significantly decreased the postprandial glucose level at 30 min during oral glucose tolerance test in obese Zucker rats. Although there was no statistical significance, the crude glucose transporter 4 protein level of obese rats fed Platycodon grandiflorum tended to increase when compared with that of obese control rats. Therefore, the present results suggested that dietary Platycodon grandiflorum may be useful in prevention and improvement of metabolic disorders characterized by hyperinsulinemia states such as noninsulin dependent diabetes mellitus, syndrome X, and coronary artery disease.
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PMID:Effect of dietary Platycodon grandiflorum on the improvement of insulin resistance in obese Zucker rats. 1109 Oct 95

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 definable causes of nonalcoholic steatohepatitis (NASH) include jejunoileal bypass surgery (JIB), other causes of rapid and profound weight loss in obese subjects, total parenteral nutrition, drugs, industrial toxins, copper toxicity, and disorders characterized by extreme insulin resistance. However, the etiopathogenesis in most cases of NASH appears multifactorial. Obesity, type 2 diabetes, and hypertriglyceridemia are often associated with hepatic steatosis, and although this does not invariably lead to NASH, the fatty liver is vulnerable to hepatocellular injury initiated by reactive oxygen species (ROS). It is critical to understand not only the triggers for hepatitis (injury and inflammation) in NASH but also how this is perpetuated as chronic liver disease. The present focus is on whether the biochemical processes that generate oxidative stress lead to hepatocyte injury and secondary recruitment of inflammation or whether inflammation is the primary mediator of liver cell injury. Insulin resistance is a reproducible pathogenic factor in NASH. It favors accumulation of free fatty acids in the liver and predisposes to oxidative stress by stimulating microsomal lipid peroxidases and by the direct effects of high insulin levels in decreasing mitochondrial beta-oxidation. CYP2E1 is normally suppressed by insulin but is invariably increased in the livers of patients with NASH. In rodent dietary models of steatohepatitis, CYP2E1 is the catalyst of microsomal lipid peroxidation, while in Cyp 2e1 nullizygous mice, CYP4A proteins are induced and function as alternative microsomal lipid peroxidases. Other studies implicate activation of peroxisome proliferator-activated receptor-alpha (PPAR alpha) as leading to NASH; PPAR alpha is a transcription factor that governs both microsomal (via CYP4A) and peroxisomal (beta-oxidation) pathways of lipid oxidation and ultimately production of ROS. Increased lipid peroxidation is a crucial difference between the livers of rodents with experimental NASH and those of ob/ob genetically obese mice that have uncomplicated steatosis. Administration of endotoxin, through the release of tumor necrosis factor-alpha (TNF-alpha), provokes liver inflammation with hepatocyte injury in the steatotic liver. This may be particularly relevant in JIB and has been suggested as a pathogenic mechanism in primary NASH. It has been proposed that inheriting one or more copies of the hemochromatosis gene, C282Y, promotes fibrotic progression in NASH because of increased hepatic iron deposition, but recent studies have failed to confirm this. The relationship between the severity of hepatitis in NASH and progression to cirrhosis implies that products of the inflammatory infiltrate play a role in fibrogenesis. In summary, NASH can be regarded as the hepatic consequence of the metabolic syndrome (or syndrome X). Attention should now shift from steatosis, a generally benign process that is less evident in the advanced stages of cirrhosis, to the mechanisms for hepatocellular injury, inflammation, and hepatic fibrosis. In particular, the genetic, molecular, and cellular factors that ordain and moderate fibrosis in the context of steatohepatitis will be of greatest relevance to effective therapy and clinical outcome.
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PMID:Etiopathogenesis of nonalcoholic steatohepatitis. 1129 94

Insulin resistance was already suspected in the thirties from clinical observations in diabetic patients, then better appreciated in the early sixties with the development of insulin radioimmunoassay, and finally confirmed in the last 20 years by using various sophisticated methods able to quantify insulin action. First demonstrated in obese and/or type 2 diabetic patients, the diminution of insulin sensitivity may in fact concern a much larger population. The concept of insulin sensitivity gained a considerable importance when Reaven, in 1988, emphasized the role of insulin resistance in different human diseases. The metabolic syndrome or syndrome X is characterized by the association of various cardiovascular risk factors (among which impaired glucose tolerance, arterial hypertension and dyslipidaemias), all closely linked to insulin resistance which is indeed the core of the syndrome. Even if insulin action signalling appears to be rather complex and the mechanisms leading to insulin resistance still largely unknown, it is essential to develop pharmacological or non pharmacological strategies to improve insulin sensitivity for treating insulin-resistant individuals. Such an approach should allow not only to provide a better blood glucose control in patients with type 2 diabetes, but also to improve the cardiovascular prognosis of numerous patients, with or without diabetes mellitus, who have the metabolic syndrome.
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PMID:[The insulin sensitivity concept]. 1145 10

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

Animal models for insulin resistance and type 2 diabetes are required for the study of the mechanism of these phenomena and for a better understanding of diabetes complications in human populations. Type 2 diabetes is a syndrome that affects 5-10% of the adult population. Hyperinsulinaemia, hypertriglyceridaemia, decreased high-density lipoprotein (HDL) cholesterol levels, obesity and hypertension, all form a cluster of risk factors that increase the risk of coronary artery disease, and are known as insulin resistance syndrome or syndrome X. The gerbil, Psammomys obesus is characterized by primary insulin resistance and is a well-defined model for dietary induced type 2 diabetes. Weanling Psammomys and Albino rats were held individually for several weeks on high energy (HE) and low energy (LE) diets in order to determine the development of metabolic changes leading to diabetes. Feeding Psammomys on HE diet resulted in hyperglycaemia (303 +/- 40 mg/dl), hyperinsulinaemia (194 +/- 31 microU/ml) and a moderate elevation in body weight, obesity and plasma triglycerides. Albino rats on HE diet demonstrated an elevation in plasma insulin (30 +/- 4 microU/ml), hypertriglyceridaemia (170 +/- 11 mg/dl), an elevation in body weight and obesity, but maintained normoglycaemia (98 +/- 6 mg/dl). Psammomys represent a model that is similar to human populations, with primary insulin resistance expressed in young age, which leads to a high percentage of adult type 2 diabetes. Examples for such populations are the Pima Indians, Australian Aborigines and many other Third World populations. The results indicate that the metabolism of Psammomys is well adapted towards life in a low energy environment, where Psammomys takes advantage of its capacity for a constant accumulation of adipose tissue that will serve for maintenance and breeding in periods of scarcity. This metabolism known as 'thrifty metabolism', is compromised at a high nutrient intake.
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PMID:Psammomys obesus and the albino rat--two different models of nutritional insulin resistance, representing two different types of human populations. 1166 19


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