Sex steroids and bone mass. A study of changes about the time of menopause.

To examine the relationships between bone loss and sex steroids, 84 peri- and postmenopausal women were studied at 4-mo intervals for 3 yr. At each visit, measurements were made of bone mass at the midshaft and distal radius, of steroids, of gonadotropins, and of bone gla protein (BGP). Bone loss was approximately 1% per yr among late perimenopausal and postmenopausal groups, whereas the early perimenopausal group lost no bone. Mean serum estrogen and BGP concentrations predicted rates of bone loss. BGP was negatively correlated with the rate of bone loss (r = -0.45) and with mean estrogen concentrations (r = -0.40). Multivariate regressions showed estrogen concentrations to be strong independent predictors of the slope of bone mass over time. When BGP concentrations were added to the models, the significance of estrogen was reduced, suggesting that a portion of the estrogen effect was mediated through effects on rates of bone remodelling.

[1]  J. M. Aitken,et al.  The effect of long-term mestranol administration on calcium and phosphorus homeostasis in oophorectomized women. , 1971, Clinical science.

[2]  J. Berger,et al.  Empirical Bayes Estimation of Rates in Longitudinal Studies , 1983 .

[3]  C. Longcope,et al.  Androgen and estrogen dynamics in women with vertebral crush fractures. , 1984, Maturitas.

[4]  C. Longcope,et al.  Conversion of blood androgens to estrogens in normal adult men and women. , 1969, The Journal of clinical investigation.

[5]  C. Longcope Methods and results of aromatization studies in vivo. , 1982, Cancer research.

[6]  C. Longcope,et al.  Aromatization of androgens by muscle and adipose tissue in vivo. , 1978, The Journal of clinical endocrinology and metabolism.

[7]  M. Whitehead,et al.  CALCITONIN AND THE CALCIUM-REGULATING HORMONES IN POSTMENOPAUSAL WOMEN: EFFECT OF OESTROGENS , 1981, The Lancet.

[8]  R. Heaney A unified concept of osteoporosis. , 1965, The American journal of medicine.

[9]  K.,et al.  Differential changes in bone mineral density of the appendicular and axial skeleton with aging: relationship to spinal osteoporosis. , 1981, The Journal of clinical investigation.

[10]  G. Taylor,et al.  Early effects of ethinyloestradiol and norethisterone treatment in post-menopausal women on bone resorption and calcium regulating hormones. , 1985, Clinical science.

[11]  C. Longcope,et al.  Steroid dynamics under steady-state conditions. , 1969, Recent progress in hormone research.

[12]  B. J. Davidson,et al.  Influence of age and sex on plasma calcitonin in human beings. , 1980, The New England journal of medicine.

[13]  C. Longcope,et al.  The effects of synthetic estrogens on the metabolic clearance and production rates of estrone and estradiol. , 1974, Steroids.

[14]  A. Horsman,et al.  Non-linear bone loss in oophorectomized women. , 1977, The British journal of radiology.

[15]  B. J. Davidson,et al.  Endogenous Cortisol and Sex Steroids in Patients With Osteoporotic Spinal Fractures , 1983, Obstetrics and gynecology.

[16]  J. Tait,et al.  Steroid Prehormones , 2015, Perspectives in biology and medicine.

[17]  P. Geusens,et al.  Contributions of aging and estrogen deficiency to postmenopausal bone loss. , 1985, The New England journal of medicine.

[18]  C. Longcope,et al.  Effect of adrenocorticotropin on production rates and metabolic clearance rates of testosterone and estradiol. , 1978, The Journal of clinical endocrinology and metabolism.

[19]  D. Marshall,et al.  Plasma androstenedione and oestrone levels in normal and osteoporotic postmenopausal women. , 1977, British medical journal.