November 25, 2001 -- Bethesda, Md. The American Journal of Physiology: Endocrinology and Metabolism, one of the 14 peer-reviewed journals published by the American Physiological Society (APS), spotlights recent research findings designed to improve and understand human well-being and health. A study in the December edition examines how different doses of testosterone affect body composition, muscle size, strength, and sexual functions.
Testosterone regulates many physiological processes, including muscle protein metabolism, some aspects of sexual and cognitive functions, secondary sex characteristics, erythropoiesis, plasma lipids, and bone metabolism. However, testosterone dose dependency of various hormonal dependent functions has not been well understood in the scientific community. Previous studies reveal that administration of replacement doses of testosterone to hypogonadal men and of supraphysiological doses to eugonadal men increases fat-free mass, muscle size, and strength. Conversely, suppression of endogenous testosterone concentrations is associated with loss of fat-free mass and a decrease in fractional muscle protein synthesis.
What is not known is whether testosterone effects on the muscle are dose dependent, or the nature of the testosterone dose-response relationships. Animal studies suggest that different androgen-dependent processes have different androgen dose-response relationships. Sexual function in male mammals is maintained at serum testosterone concentrations that are at the lower end of the male range. However, it is not known whether the low normal testosterone levels that normalize sexual function are sufficient to maintain muscle mass and strength, or whether the higher testosterone concentrations required to maintain muscle mass and strength might adversely affect plasma lipids, hem
Contact: Donna Krupa
American Physiological Society