Polycystic ovary syndrome (PCOS) is associated with hyperinsulinemia, insulin resistance (IR), increased risk of glucose intolerance, and type 2 diabetes. Family studies have indicated a genetic susceptibility to PCOS. The aims of this study were 1) to assess glucose tolerance status, gonadotropins, and androgens in first degree relatives of patients with PCOS; and 2) to assess IR in normal glucose tolerant (NGT) family members. One hundred two family members of 52 patients with PCOS [Mothers(PCOS) (n = 34; mean age, 46.5 yr; mean body mass index (BMI), 28.8 kg/m(2)), Fathers(PCOS) (n = 24; mean age, 50.4 yr; mean BMI, 27.5 kg/m(2)), Sisters(PCOS) (n = 19; mean age, 25.1 yr; mean BMI, 22.9 kg/m(2)), and Brothers(PCOS) (n = 25; mean age, 23.7 yr; mean BMI, 22.5 kg/m(2))] and 82 unrelated healthy control subjects without a family history of diabetes or PCOS (4 age- and weight-matched subgroups, i.e. Control(MothersPCOS), Control(FathersPCOS), Control(SistersPCOS), and Control(BrothersPCOS)) were studied. Glucose and insulin (at baseline and during a 75-g, 2-h oral glucose tolerance test) were measured. IR was assessed by fasting insulin (FI), fasting glucose to insulin ratio (FGI), homeostatic model assessment (HOMA IR), and area under the curve for insulin during the oral glucose tolerance test (AUC(insulin)) in NGT Mothers(PCOS), Fathers(PCOS), Sisters(PCOS), Brothers(PCOS), and matched control subgroups. Including the prestudy-diagnosed 3 mothers and 2 fathers with diabetes, diabetes and impaired glucose tolerance (IGT) were noted in 16% and 30% of Mothers(PCOS) and 27% and 31% of Fathers(PCOS), respectively. There was no diabetes in Sisters(PCOS) and Brothers(PCOS). IGT was found in 5% of Sisters(PCOS). Impaired fasting glucose was found in 3% of Mothers(PCOS) and 4% of Brothers(PCOS). The analysis of NGT family members showed that Mothers(PCOS) had higher FI (P < 0.05), HOMA IR (P < 0.05), and AUC(insulin) (P < 0.01) and lower FGI (P < 0.05) than Control(MothersPCOS), whereas all IR parameters were comparable between Fathers(PCOS) and their matched control subgroup. Sisters(PCOS) had higher FI (P < 0.05), HOMA IR (P < 0.01), and AUC(insulin) (P < 0.05) and lower FGI (P < 0.01), and Brothers(PCOS) had higher AUC(insulin) (P < 0.01) than their matched control subgroups, respectively. Mothers(PCOS) had higher testosterone levels than Control(MothersPCOS) (P < 0.01 and P < 0.05 for pre- and postmenopausal women, respectively). Sisters(PCOS) had higher LH (P < 0.01), testosterone (P < 0.001), androstenedione (P < 0.01), and dehydroepiandrosterone sulfate (P < 0.05) levels than Control(SistersPCOS). There was no difference in gonadotropin and androgen levels in Fathers(PCOS) compared with Control(FathersPCOS) or in Brothers(PCOS) compared with Control(BrothersPCOS). Our results suggest that 1) first degree relatives of patients with PCOS may be at high risk for diabetes and glucose intolerance; 2) NGT female family members have insulin resistance; and 3) mothers and sisters of PCOS patients have higher androgen leve...
This is a review article designed to address the effects of soy isoflavones on bone metabolism in postmenopausal women and their place in the prevention and treatment of postmenopausal osteoporosis. Soy isoflavones are natural products that could be used as an alternative to menopausal hormone therapy because they are structurally and functionally related to 17beta-estradiol. In vitro and animal studies have shown that they act in multiple ways to exert their bone-supporting effects. They act on both osteoblasts and osteoclasts through genomic and nongenomic pathways. Epidemiological studies and clinical trials suggest that soy isoflavones have beneficial effects on bone mineral density, bone turnover markers, and bone mechanical strength in postmenopausal women. However, there are conflicting results related to differences in study design, estrogen status of the body, metabolism of isoflavones among individuals, and other dietary factors. The long-term safety of soy isoflavone supplements remains to be demonstrated.
The polycystic ovary syndrome (PCOS) is associated with an increased risk of cardiovascular disease (CVD). Insulin resistance (IR), hyperandrogenism, and dyslipidemia are well-known cardiovascular risk factors in PCOS. Impaired fibrinolysis could also contribute to the development of CVD in PCOS. Global fibrinolytic capacity (GFC) is a recently developed method, which is reflected by the amount of generated D-dimer when the fibrinolysis of a freeze-dried fibrin clot is stopped by introducing aprotinin. GFC is sensitive to all the factors involved in the process of fibrinolysis. We evaluated whether women with PCOS have any alterations in the GFC and other essential hemostatic parameters. Fifty-nine nonobese, normal glucose-tolerant women with PCOS (age, 22.9 +/- 4.4 yr; body mass index, 23.0 +/- 2.4 kg/m(2) ) and 23 age- and body mass index-matched healthy controls participated. We measured GFC and triglycerides; total cholesterol; HDL-cholesterol (HDL-C); lipoprotein-a; prothrombin time; partial thromboplastin time; thrombin time; antithrombin III; factors II, V, VII, and X; fibrinogen; plasminogen; antiplasmin; and D-dimer. Serum glucose and insulin (at baseline and during a 75-g 2-h oral glucose tolerance test) were also measured, and IR was assessed by homeostatic model assessment. GFC was significantly lower in the PCOS group, compared with the control group (2.49 +/- 1.6 vs. 5.95 +/- 2.43 microg/ml, P < 0.001). All the other coagulation and fibrinolysis parameters were comparable between the two groups. The PCOS group had lower HDL-C and higher IR values. GFC was correlated with testosterone and free testosterone negatively and with HDL-C positively. There was no correlation between GFC and any of the IR parameters. Our results suggest that women with PCOS have impaired fibrinolysis, as reflected by the decreased GFC. This impairment is not related to the IR and may increase the risk of CVD in PCOS.
Our findings suggest that remnant thyroid tissue in patients with low-risk, well-differentiated thyroid cancer after total thyroidectomy can be ablated with 800 MBq of I-131. The success rate is not different from that obtained with 3700 MBq I-131.
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