After age of 40, testosterone (T) production in men gradually decreases at a rate of 1.6% per year for total and to 2-3% per year for bioavailable T. This reduction in T production in men parallels the age-associated loss of muscle mass that leads to sarcopenia and impairment of function and the age-associated loss of bone mass that leads to osteopenia and fracture risk.
Hypogonadism is a condition associated with multiple symptom complex including fatigue, depressed mood, osteoporosis, gain of fat mass, loss of libido and reduced muscle strength, all of which deeply affect patient quality of life. The prevalence of hypogonadism among obese men was estimated to be as much as 40% and could as much as 50% if they are also diabetic, with levels of androgens decreasing proportionately to the degree of obesity.
In obese men, the age-related decline in T is exacerbated by the suppression of the hypothalamic-pituitary-gonadal axis by hyperestrogenemia. The high expression of aromatase enzyme in the adipose tissue enhances the conversion of androgens into estrogens which in turn exerts a negative feedback on hypothalamus and pituitary, inhibiting the production of gonadotropin-releasing hormone (GnRH), luteinizing hormone (LH) and follicle stimulating hormone (FSH) and, as a consequence, of T by the testis resulting in hypogonadotropic hypogonadism (HH). Considering the high aromatase expression in the adipose tissue, the administration of T among obese men with HHG could increase the conversion of the substrate T to estradiol (E2) and fuels the negative feedback on hypothalamus and pituitary, producing a greater suppression of GnRH and gonadotropins. Thus, men with obesity induced HHG may benefit from other treatment strategies that target the pathophysiology of the disease.
Although weight loss intervention improves hormonal and metabolic abnormalities related to obesity, the increase in T levels induced by weight loss are often lost due to weight regain, which is very frequent among patients undergoing massive weight loss. One possible approach is the use of aromatase inhibitors (AI) to stop the conversion of T to E2 thereby interrupting the vicious cycle of E2 inhibition of the hypothalamic-pituitary-gonadal axis and restoring T production to normal levels. Since weight loss remains the standard of care for obese patients, the investigators propose the following OBJECTIVES:
To evaluate the effect of an AI plus WL (AI+WL) compared to WL alone on the changes in hormonal profile in severely obese men with HHG.
To evaluate the effect of an AI+WL compared to WL alone on the changes in muscle strength and muscle mass, and symptoms of hypogonadism in severely obese men with HHG.
To evaluate the effect of an AI+WL compared to WL alone on the changes in body composition and metabolic risk factors in severely obese men with HHG.
To evaluate the effect of an AI+WL compared to WL alone on the changes in bone mineral density (BMD), bone markers, and bone quality in severely obese men with HHG.
As secondary aim, the investigators will elucidate the mechanism for the anticipated positive effects of AI+WL on obesity-associated HHG.
This is a randomized double-blind placebo-controlled study comparing the effect of weight loss + anastrozole to weight loss + placebo for 12 months on the hormonal profile and symptoms associated with hypogonadism in severely obese men with a body mass index (BMI) of more or equal to 35 kg/m2.
Source: View full study details on ClinicalTrials.gov
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