Summary
Oocyte depletion and ovarian aging results in profound alterations at the biological level. The reduction in numbers of follicles leads to reduction of circulating inhibin and increased serum FSH, characteristic marker of ovarian failure. The remaining follicles are overstimulated and premature ovulation may ensue. This, leads to luteal deficiency and reduction in progesterone production and relative hyperestrogenemia. The above changes characterize the premenopausal period. In a second phase, anovulatory cycles interchange with premature and occasionally normal ovulatory cycles. This phase is characterized by increased FSH and LH and decreased progesterone/estradiol ratio resulting in irregular bleeding, endometrial hyperplasia, polyps, fibromas, mamary distrophies, disturbance of mood, appetite and thermoregulation. Lastly, the sensitivity of ovarian follicles to FSH and LH is lost with a decline of E2. below 20pg/ml produced almost exclusively from peripheral conversion from circulating androgens. The beneficial effects of E2 are lost resulting in atrophy of the sensitive tissues, decreased calcium absorption, increased bone resorption, accelerated bone loss and osteoporosis, rise in serum triglycerides, increased VLDL and LDL lipoproteins, increased LDL/HDL cholesterol, a profile which favors atherosclerosis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Reyes, F.I., Winter, J.S.D., Faiman, C. Pituitaryovarian relationships proceeding the menopause. Am J Obstet Gynecol 1977, 129, 557.
Jaffe, R. The menopause and perimenopausal period. In: Reproductive Endocrinology. Eds: S.S.C. Yen, R. Jaffe, W.B. Saunders 1986, 406.
Ying, S.Y. Inhibins, Activins and Follistatins: Gonadal proteins modulating the secretion of folliclestimulating hormone. Endocr Rev 1988, 9, 267.
Yen, S.S.C., Tsai, C., Nafftolin, F., Vandenberg, G., Ajabar, L. Pulsatile patterns of gonadotropin release in subjects with and without ovarian function. J Clin Endocrinol Metab 1972, 34, 671.
Grodin, J.M., Siiteri, P., MacDonald, P.C. Source of estrogen production in post menopausal women. J Clin Endocrinol Metab 1973, 36, 207.
Molnar, G.W., Body temperatures during menopausal hot flushes. J Appl Physiol 1975, 38, 499.
Sturdee, D.W., Reece, B.L. Thermography of menopausal hot flushes; Maturitas 1979, 1, 201.
Tataryn, I.V., Meldrum, D.R., Frumar, A.M., Judd, H.L. LH, FSH and skin temperature during the menopausal hot flush. J Clin Endcrinol Metab 1979, 49, 152.
Fuxe, K., Hockfelt, T., Nilsson, O. Castration, sex tuberoinfundibulal dopamine neurons, Neuroendocrinology 1969, 5, 107.
Axelrod, J., Relationship between catecholamines and other hormones. Rec Prog Horm Res 1975, 31, 1.
Yen, S.S.C. The biology of menopause, J Reprod Med 1977, 18, 287.
Mornex, R., Physiolopathologie de la menopause, Rev Franc Gynec Obstet 1985, 80, 187.
Snajderman, M., Oliver, M.F. Spontaneous premature menopause, ischaemic heart disease and serum lipids. Lancet 1983, 2, 690.
Gordan, T., Kaunel, W.B., Hjortland, Mc., McNamara, P.M. Menopause and coronary heart disease: The Framingham study. Ann Intern Med 1978, 89, 157.
Riggs, B.L., Melton, L.J. Involutional osteoporosis, N Engl J Med 1986, 314, 1676.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Vagenakis, A.G. Endocrine aspects of menopause. Clin Rheumatol 8 (Suppl 2), 48–51 (1989). https://doi.org/10.1007/BF02207233
Issue Date:
DOI: https://doi.org/10.1007/BF02207233