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Biological and social interactions in the determination of late fertility

Published online by Cambridge University Press:  27 September 2011

R. H. Gray
Affiliation:
Special Programme of Research in Human Reproduction, World Health Organization, Geneva

Extract

The biological and social factors which may interact to determine the level and pattern of fertility during the last decades of the reproductive life are complex, and because of the paucity of data, the mechanisms regulating fertility at late ages must in part remain speculative. This review focuses on two major questions. First, why is there a decline of fertility prior to the menopause? Second, why does reproduction cease at the menopause and what factors influence the age at which this occurs?

Type
II. Fertility rates in middle age
Copyright
Copyright © Cambridge University Press 1979

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References

Alberman, E., & Creasy, M.R., (1975) Factors affecting chromosome abnormalities in human conceptions. In: Chromosome Variations in Human Evolution, p. 88. Edited by Boyes, A. J.. Taylor & Francis, London.Google Scholar
Anderson, B.A., (1975) Male age and fertility; results from Ireland prior to 1911. Popul. Ind. 41, 561.Google Scholar
Barclay, G.W., Coale, A.J., Stoto, M.A., & Trussel, T.J., (1976) A re-assessment of the demography of traditional rural China. Popul. Ind. 42, 606.Google Scholar
Barrett, J.C., & Marshall, J., (1969) The risk of conception on different days of the menstrual cycle. Popul. Stud. 23, 455.Google Scholar
Belavady, B., (1969) Nutrition in pregnancy and lactation. Ind. J. med. Res. 57, 63.Google Scholar
Bishop, M.W.H., (1970) Ageing and reproduction in the male. J. Reprod. Fert. Suppl. 12, 65.Google Scholar
Caldwell, J.C., & Caldwell, P., (1977) The role of sexual abstinence in determining fertility: a study of the Yoruba in Nigeria. Popul. Stud. 31, 193.Google Scholar
Cartwright, A., (1976) How Many Children? Routledge & Kegan Paul, London.Google Scholar
Chase, H.C., (1962) The Relationship of Certain Biological and Socio-economic Factors to Fetal, Infant and Early Childhood Mortality. New York State Department of Health.Google Scholar
Chen, L.C., Ahmed, S., Gesche, M., & Mosley, W.H., (1974) A prospective study of birth interval dynamics in rural Bangladesh. Popul. Stud. 28, 277.Google Scholar
Chiazze, L., Brayer, F.T., Macisco, J.J., Parker, M.P., & Duffy, B.J., (1968) The length and variability of the human menstrual cycle. J. Am. med. Ass. 20, 377.Google Scholar
Coale, A.J., & Trussel, T.J., (1974) Model fertility schedules: variations in the age structure of childbearing in human populations. Popul. Ind. 40, 185.Google Scholar
Creasy, M.R., Crolla, J.A., & Alberman, E.D., (1976) A cytogenetic study of human spontaneous abortion using banding techniques. Hum. Genet. 31, 177.Google Scholar
Doll, R., (1971) The age distribution of cancer: implications for models of carcinogenesis. J.R. statist. Soc. 134, 133.Google Scholar
Doring, G.K., (1969) The incidence of anovular cycles in women. J. Reprod. Fert. Suppl. 11, 77.Google Scholar
French, F.E., & Bierman, J.M., (1962) Probabilities of foetal mortality. Publ. Hlth Rep. 77, 835.Google Scholar
Frere, G., (1971) Mean age at menopause and menarche in South Africa. S. Afr. J. med. Sci. 11, 21.Google Scholar
Frisch, R.E., (1978) Population, food intake and fertility. Science, N.Y. 199, 22.Google Scholar
Fromer, D.J., (1964) Changing age of menopause. Br. med. J. 2, 349.Google Scholar
Gray, R.H., (1976) The menopause: epidemiological and demographic considerations. In: The Menopause, p. 25. Edited by Beard, R. J.. MTP, Lancaster.Google Scholar
Henry, L., (1961) Some data on natural fertility. Eugen. Q. 8, 81.Google Scholar
Hoff, C.J., (1968) Reproduction and Viability in a Highland Peruvian Population in High Altitude Adaptation in a Peruvian Community. Occasional Papers in Anthropology No. 1. Department of Anthropology, Pennsylvania State University.Google Scholar
Hoffman, D., & Soergel, T., (1972) Studies on the age of menarche and the age of menopause. Geburtsch. Frauenheilk. 32, 969.Google Scholar
Hook, E.B., (1976) Estimates of maternal age-specific risks of a Downs-syndrome birth in women aged 34–41. Lancet, ii, 33.Google Scholar
Huseby, R.A., & Ball, Z.B., (1945) A study into the genesis of histological changes produced by caloric restriction in portions of the endocrine and reproductive systems of strain A female mice. Anat. Rec. 92, 135.Google Scholar
Jain, A.K., Hsu, T.C., Freedman, R., & Chang, M.C., (1970) Demographic aspects of lactation and post-partum amenorrhoea. Demography, 7, 255.Google Scholar
James, W.H., (1970) The incidence of spontaneous abortion. Popul. Stud. 24, 241.Google Scholar
Jones, E.C., (1970) The ageing ovary and its influence on reproductive capacity. J. Reprod. Fert. Suppl. 12, 17.Google Scholar
Jones, E.C., (1975) The post-reproductive phase in mammals. In: Estrogens in the Postmenopause, p. 1. Frontiers in Hormone Research, Vol. 3. Edited by Van Keep, P. A. & Lauritzen, C.. Karger, Basel.Google Scholar
Kinsey, A.C., Pomeroy, M.B., & Martin, C.E., (1953) Sexual Behaviour in the Human Male. Saunders, Philadelphia.Google Scholar
Knodel, J., (1978) Natural fertility in pre-industrial Germany. Popul. Stud. 32, 481.Google Scholar
Lazar, P., Gueguen, S., Boue, J., & Boue, A., (1973) Epidemiologie des avortements spontanes precoces: à propos de 1,409 avortements caryotypes. In: Chromosomal Errors in Relation to Reproductive Failure, p. 317. Edited by Boué, A. & Thibault, I.. Proceedings of the Symposia sponsored by INSERM, DJRST and OMS. Centre International de l'Enfants, Paris.Google Scholar
Leridon, H., (1975) Biostatistics of human reproduction. In: Measuring the Effects of Family Planning Programmes on Fertility, p. 93. Edited by Chandrasekaran, B. & Hermalin, A. I.. Ordina Editions, Belgium.Google Scholar
MacMahon, B., & Worcester, J., (1966) Age at Menopause: United States 1960–1961. Vital Health Statistics, Series II, 19. US Department of Health, Education and Welfare, Washington, DC.Google Scholar
Masters, W.H., & Johnson, V.E., (1966) Human Sexual Response. Churchill, London.Google Scholar
McKinlay, S.M., & McKinlay, J.B., (1973) Selected studies of the menopause. J. biosoc. Sci. 5, 533.Google Scholar
McKusick, V.A., (1964) Human Genetics. Prentice-Hall, New Jersey.Google Scholar
Mikamo, K., (1968) Intra-follicular over-ripeness and teratogenic development. Cytogenetics, 7, 212.Google Scholar
Nag, M., (1972) Sex, culture and human fertility: India and the United States. Curr. Anthropol. 13, 231.Google Scholar
Naylor, A.F., (1974) Sequential aspects of spontaneous abortions: maternal age, parity and pregnancy compensation artifact. Soc. Biol. 21, 195.Google Scholar
Nortman, D., (1974) Parental age as a factor in pregnancy outcome and child development. Rep. Popul. Fam. Plann. 16, 37.Google Scholar
Pittenger, D.B., (1973) An exponential model of female sterility. Demography, 10, 113.Google Scholar
Potter, R.G., (1963) Birth intervals: structure and change. Popul. Stud. 17, 155.Google Scholar
Reyes, F.I., Winter, J.S.D., & Faiman, C., (1977) Pituitary–ovarian relationships preceding the menopause. A cross-sectional study of FSH, LH, prolactin, estradiol and progesterone levels. Am. J. Obstet. Gynec. 129, 557.Google Scholar
Scragg, R.F.R., (1973) Menopause and reproductive life-span in rural New Guinea. In: Annual Symposium of the Papua in New Guinea Medical Society, p. 126. Public Health Department, Port Moresby, Papua New Guinea.Google Scholar
Shapiro, S., Levine, H.S., & Abramowicz, Z., (1970) Factors associated with early and late foetal loss. In: Advances in Planned Parenthood, Vol. VI, p. 45. Proceedings of the VIIIth American Association of Planned Parenthood Physicians Meeting. Excerpta Medica, Amsterdam.Google Scholar
Sommerville, I.F., Kitchin, Y., & Mansfield, M.D., (1976) Endocrine changes at the menopause. In: The Menopause, p. 41. Edited by Beard, R. J.. MTP, Lancaster.Google Scholar
Talbert, G.B., (1968) Effect of maternal age on reproductive capacity. Am. J. Obstet. Gynec. 102, 451.Google Scholar
Thompson, B., Hart, S.A., & Durno, D., (1973) Menopausal age and symptomatology in a general practice. J. biosoc. Sci. 5, 71.Google Scholar
Tietze, C., (1957) Reproductive span and rate of reproduction among Hutterite women. Fert. Steril. 8, 89.Google Scholar
Treloar, A.E., Boynton, R.E., Behn, B.J., & Brown, B.W., (1967) Variation of the human menstrual cycle through reproductive life. Int. J. Fert. 12, 77.Google Scholar
Vollman, R.F., (1977) The Menstrual Cycle. Saunders, Philadelphia.Google Scholar
Wright, E.V., (1976) Chromosomes and human fetal development. In: The Biology of Human Fetal Growth, p. 237. Edited by Roberts, D. F. and Thomson, A. M.. Taylor & Francis. London.Google Scholar
Wyon, J.B., Finner, S.L., & Gordon, J.E., (1966) Differential age at menopause in rural Punjab, India. Popul. Ind. 32, 328.Google Scholar