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Human Ovarian Reserve from Conception to the Menopause

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  • W Hamish B Wallace
  • Thomas W Kelsey

Abstract

The human ovary contains a fixed number of non-growing follicles (NGFs) established before birth that decline with increasing age culminating in the menopause at 50–51 years. The objective of this study is to model the age-related population of NGFs in the human ovary from conception to menopause. Data were taken from eight separate quantitative histological studies (n = 325) in which NGF populations at known ages from seven weeks post conception to 51 years (median 32 years) were calculated. The data set was fitted to 20 peak function models, with the results ranked by obtained correlation coefficient. The highest ranked model was chosen. Our model matches the log-adjusted NGF population from conception to menopause to a five-parameter asymmetric double Gaussian cumulative (ADC) curve ( = 0.81). When restricted to ages up to 25 years, the ADC curve has = 0.95. We estimate that for 95% of women by the age of 30 years only 12% of their maximum pre-birth NGF population is present and by the age of 40 years only 3% remains. Furthermore, we found that the rate of NGF recruitment towards maturation for most women increases from birth until approximately age 14 years then decreases towards the menopause. To our knowledge, this is the first model of ovarian reserve from conception to menopause. This model allows us to estimate the number of NGFs present in the ovary at any given age, suggests that 81% of the variance in NGF populations is due to age alone, and shows for the first time, to our knowledge, that the rate of NGF recruitment increases from birth to age 14 years then declines with age until menopause. An increased understanding of the dynamics of human ovarian reserve will provide a more scientific basis for fertility counselling for both healthy women and those who have survived gonadotoxic cancer treatments.

Suggested Citation

  • W Hamish B Wallace & Thomas W Kelsey, 2010. "Human Ovarian Reserve from Conception to the Menopause," PLOS ONE, Public Library of Science, vol. 5(1), pages 1-9, January.
    • Handle: RePEc:plo:pone00:0008772
    DOI: 10.1371/journal.pone.0008772
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    References listed on IDEAS

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    1. Joshua Johnson & Jacqueline Canning & Tomoko Kaneko & James K. Pru & Jonathan L. Tilly, 2004. "Germline stem cells and follicular renewal in the postnatal mammalian ovary," Nature, Nature, vol. 428(6979), pages 145-150, March.
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    Cited by:

    1. Naomi Gershoni & Corinne Low, 2021. "Older Yet Fairer: How Extended Reproductive Time Horizons Reshaped Marriage Patterns in Israel," American Economic Journal: Applied Economics, American Economic Association, vol. 13(1), pages 198-234, January.
    2. Thomas W Kelsey & Eleanor Ginbey & Moti M Chowdhury & Louise E Bath & Richard A Anderson & W Hamish B Wallace, 2016. "A Validated Normative Model for Human Uterine Volume from Birth to Age 40 Years," PLOS ONE, Public Library of Science, vol. 11(6), pages 1-14, June.
    3. Thomas W Kelsey & Lucy Q Li & Rod T Mitchell & Ashley Whelan & Richard A Anderson & W Hamish B Wallace, 2014. "A Validated Age-Related Normative Model for Male Total Testosterone Shows Increasing Variance but No Decline after Age 40 Years," PLOS ONE, Public Library of Science, vol. 9(10), pages 1-11, October.
    4. Miguel Angel Brieño-Enríquez & Mariela Faykoo-Martinez & Meagan Goben & Jennifer K. Grenier & Ashley McGrath & Alexandra M. Prado & Jacob Sinopoli & Kate Wagner & Patrick T. Walsh & Samia H. Lopa & Di, 2023. "Postnatal oogenesis leads to an exceptionally large ovarian reserve in naked mole-rats," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    5. Gershoni, Naomi & Low, Corinne, 2021. "The power of time: The impact of free IVF on Women’s human capital investments," European Economic Review, Elsevier, vol. 133(C).
    6. Sommer, Kamila, 2016. "Fertility choice in a life cycle model with idiosyncratic uninsurable earnings risk," Journal of Monetary Economics, Elsevier, vol. 83(C), pages 27-38.

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