Many studies showed that depression is correlated with osteoporosis, while others showed that low cholesterol level is also related to depression. However, these relationships still remain controversial. Since the bone mineral density (BMD) is related to depression and depression is related to hypocholesterolemia, there might exist a correlation between BMD and plasma cholesterol levels. To prove this, we enrolled 5000 individuals, 2170 males, and 2830 females, who had health check-ups at a private clinic between 1998 and 1999. They were divided into three groups. Group 1 was composed of male subjects; Group 2, female subjects; and Group 3, females aged over 50 to exclude pre-menopausal females. Each subject had a routine physical examination, fasting blood drawing, BMD measured by dual energy x-ray absorptiometry (DEXA) over the wrist, and was given a questionnaire to answer. Between Groups 1 and 2, the females were significantly younger, had higher body mass index (BMI), total cholesterol (TC), high density lipoprotein cholesterol (HDLC), low density lipoprotein cholesterol (LDLC), and platelet, but lower BMD, fasting plasma glucose (FPG), triglycerides (TG), hemoglobin (Hgb), and white blood cell (WBC) count. As for Groups 1 and 3, all the aforementioned findings still remained the same except that the systolic blood pressure (SBP) was higher and diastolic blood pressure (DBP) was lower in Group 3. Our results showed that BMD is negatively related to age in males. In females, it is negatively correlated with age, FPG, PPG, SBP, DBP, TC, LDLC, TG, and Hgb, but positively related to BMI and platelet. However, for females in Group 3, BMD is only negatively related to age, FPG, SBP, and TG but positively related to BMI. Stepwise multiple regression analysis showed that the BMD is negatively related to age but positively related to BMI in both males and females. In Group 3, BMD is negatively related to age and FPG but positively related BMI. In conclusion, no correlation exists between BMD and cholesterol. This implies that the depression is not significantly related to cholesterol and/or BMD. This might be due to various confounding factors, which could affect their relationships. The negative correlation between BMD and FPG is only observed in females older than 50 years. Further studies are needed to clarify these relationships.
SUMMARYThyrotoxic periodic paralysis (TPP) is a fairly common manifestation of hyperthyroidism in Asian populations, with an incidence of about 1.9% in thyrotoxic patients, but it is rarely diagnosed among Caucasians and blacks in the Western world. The diagnosis often can be made on the basis of the clinical manifestations alone. Sometimes, periodic paralysis precedes hyperthyroidism or occurs in silent hyperthyroidism. As a result, physicians may easily overlook it even when life-threatening hypokalemia is present. The pathophysiology of this disorder is still not well understood. Correction of the thyrotoxic state is the definitive treatment. Potassium supplementation, propranolol, and spironolactone may be helpful both in the acute state and in preventing attacks.
Our understanding of the effect of androgens on insulin action and glucose metabolism is incomplete. Several different models and methods have been used to study androgen effects, with some studies indicating that higher testosterone levels are associated with increased insulin resistance. In polycystic ovary syndrome, where high testosterone levels are frequently found, affected patients have a higher risk of diabetes. In contrast, increased insulin resistance was found in both hypergonadotropic and hypogonadotropic men with hypoandrogenism, patients with Klinefelter's syndrome and men with idiopathic gonadotropin deficiency. Insulin resistance is considered to be one of the cornerstones in the state that ultimately leads to clinically established type 2 diabetes mellitus. In addition, men with type 2 diabetes have relative hypogonadism. Therefore, supplementation with testosterone might play a role in improving both insulin resistance and hypogonadism. The study population consisted of 11 male patients with type 2 diabetes. Their mean age was 57.7 +/- 3.41 years, the body mass index (BMI) was 24.4 +/- 1.02 kg/m2, and the waist-to-hip ratio (W/H) was 0.91 +/- 0.05. The patients were all treated with oral hypoglycemic agents. The men received androgen injections every 3 weeks intramuscularly for 12 weeks. The injections were testosterone depot 100 mg/3 weeks. Insulin sensitivity, glucose effectiveness and area under acute insulin response were calculated from "minimal model" algorithms. There were no significant differences in the value of BMI, W/H ratios, plasma lipid concentrations, testosterone, homeostasis model assessment (HOMA) of insulin sensitivity, and beta-cell function, before and after supplementation of testosterone. Furthermore, the insulin sensitivity (SI) (1.04 +/- 0.25, 1.11 +/- 0.36 x 10(-5) min(-1/)pM; p = 0.43), glucose effectiveness (EG) (0.018 +/- 0.003, 0.017 +/- 0.002 min(-1); p = 0.29), and acute insulin response (AIR) after a glucose load (45.7 +/- 24.3, 50.1 +/- 32.5 pM; p = 0.45) did not change significantly after supplmentation with testosterone. In our study, there was no improvement of SI, EG, and AIR after 3 months of Testosterone Depot treatment in type 2 diabetes, but we believe that duration and dosage of the androgen therapy might play an important role in improving insulin sensitivity. The mechanisms by which testosterone causes insulin resistance is unknown, and larger studies on androgen treatment in type 2 diabetic patients are necessary.
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