In the last few years, polycystic ovary syndrome (PCOS) has deserved major attention because it is linked to the same cluster of events that promote the metabolic syndrome. This review will point out the relationships between fat excess, insulin resistance and the metabolic syndrome. Adipocytes are actually considered as endocrine cells that synthesize and release molecules (adipokines) that play an endocrine/paracrine role, such as adiponectin, atrial natriuretic peptide, leptin, resistin, tumour necrosis factor alpha (TNFalpha). Metabolic syndrome is a chronic low-grade inflammatory condition in which adipokines play a major role. Isolated adipocytes from women with PCOS express higher mRNA concentrations of some adipokines involved in cardiovascular risk and insulin resistance. However, environmental factors and lifestyle play a major role in determining the appearance of the phenotypes of PCOS. In morbid obese women with PCOS, bariatric surgery decreases bodyweight and fat excess and reverses hyperandrogenism and sterility. In lean or overweight women with PCOS, changes in lifestyle in combination with drugs reducing visceral fat and insulin resistance reverse the symptoms and signs of PCOS. Promising treatments for PCOS seem to be insulin sensitizers such as metformin and glitazones.
Background. Type 2 diabetes (T2D) might occur within metabolic syndrome (MbS). One of the complications of T2D is an impaired (imp) cardiovascular autonomic function (CAF). Aims. In subjects with T2D and age ≤ 55 years, the prevalence of impCAF and its relationship with BMI, waist, HbA1c values, MbS, hypertension, and family history of T2D and/or hypertension were analysed. Methods. 180 subjects consecutively undergoing a day hospital for T2D were studied. The IDF criteria were used to diagnose MbS. To detect impCAF, 5 tests for the evaluation of CAF were performed with Cardionomic (Meteda, Italy). Univariate and multivariate analyses were performed. Results. The prevalence of impCAF and MbS were 33.9% and 67.8%, respectively. Among diabetics with impCAF, 86.9% had MbS. ImpCAF was significantly associated with MbS, overweight, and HbA1c > 7%. Both logistic (P = 0.0009) and Poisson (P = 0.0113) models showed a positive association between impCAF and MbS. The degree of ImpCAF showed a positive linear correlation with BMI and HbA1c values. Conclusions. The study demonstrates that glycaemic control and overweight influence CAF and that T2D + MbS is more strongly associated with impCAF than isolated T2D. We suggest that MbS not only increases the cardiovascular risk of relatively young subjects with T2D but is also associated with impCAF.
The autonomic nervous system (ANS) plays a key role in the control of a number of vital functions including cardiovascular, endocrine/neurovascular, gastrointestinal, genitourinary, pupil and thermoregulatory functions. Its abnormalities have been associated with early mortality, sudden death, silent myocardial infarction, gastrointestinal diseases.The manifestation of the ANS dysfunction in several human diseases is underestimated. Evidences exist on the important role of ANS dysfunctions in different clinically relevant conditions, including diabetes mellitus, chronic functional constipation, scleroderma, thalassemia major.Beside the classical evaluation in patients with diabetes mellitus, little is known about the effects of metabolic factors on ANS dysfunction. The metabolic syndrome (MetS) includes a cluster of frequent abnormalities (impaired fasting glycaemia, dyslipidemia, arterial hypertension and increased visceral adiposity) predisposing to the atherosclerotic changes and increased cardiovascular mortality. Early signs of autonomic dysfunction are often found in subjects with MetS even in the absence of diabetes. Epidemiological studies demonstrated that diabetics display a cardiovascular risk which is twice that of sex-and age-matched non-diabetic population. Manifestations of such a high cardiovascular risk of subjects with DM are the frequent silent myocardial infarctions (MI)s of diabetics which are often due to impaired cardiovascular autonomic function. Only recently major attention has been given to the interactions between impaired glucose tolerance (IGT) and cardiovascular autonomic dysfunctions. When increased waist circumference (one of the features of the MetS) and IGT are both present, cardiovascular autonomic dysfunction also occurs. Some adipokines (e.g. adiponectin) seem to play a role in cardiovascular risk and autonomic dysfunction. This review will therefore focus on some subtle aspects linking ANS dysfunction and MetS.
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