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Age and female fertility

From Wikipedia, the free encyclopedia

Female fertility is affected by age and is a major fertility factor for women. A woman's fertility is in generally good quality from the late teens to early thirties, although it declines gradually over time.[1] Around 35, fertility is noted to decline at a more rapid rate.[1] At age 45, a woman starting to try to conceive will have no live birth in 50–80 percent of cases.[2] Menopause, or the cessation of menstrual periods, generally occurs in the 40s and 50s and marks the cessation of fertility, although age-related infertility can occur before then.[3] The relationship between age and female fertility is sometimes referred to as a woman's "biological clock."[4]

Quantification of effect

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Cumulative percentage and average age for women reaching subfertility, sterility, irregular menstruation and menopause[5]

In adolescence

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The average age of a girl's first period (menarche) is 12 to 13 (12.5 years in the United States,[6] 12.72 in Canada,[7] 12.9 in the UK[8]) but, in postmenarchal girls, about 80% of the cycles are anovulatory in the first year after menarche, which declines to 50% in the third year, and to 10% by the sixth.[9] Little is known about fertility in young adolescents, as early teenage pregnancies are uncommon in most societies.[10]

In adulthood

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A woman's fertility peaks between her late teens to late-20s after which it starts to decline.[1] However, the exact estimates of the chances of a woman to conceive after a certain age are not clear, and are subject to debate.[11]

According to the National Institute for Health and Care Excellence (NICE) over 80 out of every 100 women aged under 40 who have regular unprotected sexual intercourse will get pregnant within 1 year of trying. In the second year the percentage rises to over 90%.[12]

A 2004 study by Henri Leridon, PhD, an epidemiologist with the French Institute of Health and Medical Research, of women trying to get pregnant, without using fertility drugs or in vitro fertilization, had the following results on rates of conception by age:

  • At age 30
    • 75% will have a conception ending in a live birth within one year
    • 91% will have a conception ending in a live birth within four years
  • At age 35
    • 66% will have a conception ending in a live birth within one year
    • 84% will have a conception ending in a live birth within four years
  • At age 40
    • 44% will have a conception ending in a live birth within one year
    • 64% will have a conception ending in a live birth within four years[13]

According to a study done on a sample of 782 healthy European couples ages 19–39, fertility starts declining after age 27 and drops at a somewhat greater rate after age 35. Statistical analysis showed that the women in the 27–29 age group had significantly less chance on average of becoming pregnant than did the 19- to 26-year-olds. Pregnancy rates did not change notably between the 27–29 age group and the 30–34 age group, but dropped significantly for the 35–39 age group.[14]

The age of the male partner had a significant impact on female fertility among the women who had reached their mid-30s, but not among the younger women. However, experts said the new study was too small and there were too many variables which were too difficult to sort out, for a clear conclusion to be drawn. Some experts suggested that the main change in fertility in the older women was the fact that it took them longer to conceive, not necessarily that they were significantly more unlikely to eventually succeed. David Dunson, a biostatistician at the U.S. National Institute of Environmental Health Sciences, said that: "Although we noted a decline in female fertility in the late 20s, what we found was a decrease in the probability of becoming pregnant per menstrual cycle, not in the probability of eventually achieving a pregnancy."[14]

A French study found no difference between the fertility rate of women under 25 and those ages 26–30, after which fertility started to decrease. Estimating the "fertility of a woman" is quite difficult because of the male factor (quality of sperm). This French study looked at 2,193 women who were using artificial insemination because their husbands were azoospermic. The cumulative success rates after 12 cycles of insemination were 73% for women under age 25, 74% in women ages 26–30, 61% for ages 31–35, and 54% in the over 35 age group.[15]

In Hungary, a study by the Központi Statisztikai Hivatal (Central Statistics Office) estimated that 7–12% of Hungarian women younger than 30 were infertile; 13–22% of women age 35 were infertile; and 24–46% of women age 40 were infertile.[16]

The below is a table containing estimates of the percentage of women who, if starting to conceive at a certain age, will fail to obtain a live birth.[2] Note that while for the young ages researchers tend to agree, for older ages there is discrepancy.

Age of woman when she starts to try to conceive Percentage who will have no live birth
according to Vincent (1950) according to Henry (1953), England according to Henry (1953), Norway according to Pittenger (1973) according to Leridon (1977) according to Trussell-Wilson (1985) according to Menken-Larsen (1986)
20 4% 3.5% 3.5% 2.2% 3% - 4%
25 6% 6% 5% 3.3% 6% 6% 7%
30 10% 11% 8% 6.5% 10% 11% 12%
35 17% 19% 13% 16% 17% 16% 22%
40 37% 33% 24% 40% 29% 24% 46%
45 75% 58% 50% 79% 50% 58% -

Ovarian reserve

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"Percentage of ovarian reserve related to increasing age.[17] The curve describes the percentage of ovarian reserve remaining at ages from birth to 55 years, based on the ADC model. 100% is taken to be the maximum ovarian reserve, occurring at 18–22 weeks post-conception. The percentages apply to all women whose ovarian reserve declines in line with a particular model where late and early menopause are associated with high and low peak NGF populations, respectively. It is estimated 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. At birth, women have all their follicles for folliculogenesis, and they steadily decline until menopause."[17]

In terms of ovarian reserve, a typical woman has 12% of her reserve at age 30 and has only 3% at age 40.[18] 81% of variation in ovarian reserve is due to age alone,[18] making age the most important factor in female infertility.

The most common methods of checking the status of the ovarian reserve is to perform a blood test on day 3 of the menstrual cycle to measure serum Follicle-Stimulating Hormone (FSH) level, alternatively a blood test to measure the serum Anti-Müllerian Hormone (AMH) level can give similar information. Transvaginal ultrasound can also be used to "count the number of follicles" and this procedure is called Antral Follicle Count.

The American College of Obstetricians and Gynecologists recommends ovarian reserve testing should be performed for women older than 35 years who have not conceived after 6 months of attempting pregnancy and women at higher risk of diminished ovarian reserve, such as those with a history of cancer treated with gonadotoxic therapy, pelvic irradiation, or both; those with medical conditions who were treated with gonadotoxic therapies; or those who had ovarian surgery for endometriomas.[19]

It is important to recognize that a poor result from ovarian reserve testing does not signify an absolute inability to conceive and should not be the sole criterion considered to limit or deny access to infertility treatment.[19]

Historical data

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A study of a population of French women from 1670 and 1789 shows that those who married at age 20–24 had 7.0 children on average and 3.7% remained childless. Women who married at age 25–29 years had a mean of 5.7 children and 5.0% remained childless. Women who married at 30–34 years had a mean of 4.0 children and 8.2% remained childless.[20] The average age at last birth in natural fertility populations that have been studied is around 40.[21]

In 1957, a study was done on a large population (American Hutterites) that never used birth control. The investigators measured the relationship between the age of the female partner and fertility. (Infertility rates today are believed to be higher in the general population than for the population in this study from the 1950s.)

This 1957 study found that:[22]

  • By age 30, 7% of couples were infertile
  • By age 35, 11% of couples were infertile
  • By age 40, 33% of couples were infertile
  • At age 45, 87% of couples were infertile

Impact

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Family planning

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The inverse correlation between age and female fertility in later reproductive life is argued to motivate family planning well before having reached 35 years of age.[23] Mapping of a woman's ovarian reserve, follicular dynamics and associated biomarkers can give an individual prognosis about future chances of pregnancy, facilitating an informed choice of when to have children.[24] Notably, a higher level of anti-Müllerian hormone when tested in women in the general population has been found to have a positive correlation with natural fertility in women aged 30–44 aiming to conceive spontaneously, even after adjusting for age.[25] Thus, AMH measurement is helpful to determine which women may need to conceive at an earlier age, and which women can potentially wait.[26]

Reproductive medicine

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It is recommended that women have an infertility evaluation if they are over the age of 40, or if they are over the age of 35 and have not achieved pregnancy after trying for 6 months.[27] In many cases, infertility can be treated with many reproductive technologies, but their success declines with age. The issues of age can be discussed with a qualified fertility specialist such as a reproductive endocrinologist.

In Vitro Fertilization (IVF) is an assisted reproductive technology used to treat infertility and to help families have offspring. While many women in advanced age may opt for IVF treatment in order to have children, patients with higher maternal age (>40 years old) were found to have worse IVF outcomes and a higher miscarriage rate compared to 20–30 year olds.[28] Most IVF centers will attempt IVF using the patient's own eggs until about age 43–45,[22] and clinically reproductive endocrinologists tend to pursue IVF more aggressively in women over 35.[15]

Oocyte cryopreservation (egg freezing) is a procedure done to preserve eggs (oocytes) to have the eggs thawed, fertilized, and transferred to the uterus via an IVF procedure. This gives women the ability to delay pregnancy and avoid many of the infertility problems that arise from germ cell deterioration. Studies have shown that the risk of acquiring congenital abnormalities is not increased in the infants born from frozen and thawed eggs,[29] and IVF from thawed eggs have the same successful implantation rate compared to IVF performed with fresh eggs.[30] While chromosomal abnormalities are avoided with egg freezing, pregnancy at older age increases the risk of gestational diabetes, preeclampsia, preterm labor, and cesarean section regardless of conception method.[31]

A review in 2012 came to the result that therapeutic interventions to halt or reverse the process of reproductive ageing in women is limited, despite recent reports of the potential existence of stem cells which may be used to restore the ovarian reserve.[24]

Complications

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Women who become pregnant after age 35 are at increased risk for complications that affect the mother and fetus.

When it comes to the mother, several research studies have shown that pregnant women over 35 years of age are at increased risk for hypertension during pregnancy, eclampsia (hypertension during pregnancy with seizures), and gestational diabetes.[1][32] Further, women who become pregnant after age 35 are also at risk for delivery complications. These include stillbirth, miscarriage, and complications leading to delivery via caesarean section.[1][33][34][32]

Fetal complications for pregnant women after age 35 are also high. One well-known risk is the increased risk of having a baby with Down syndrome. According to the Academy of Obstetrics and Gynecology, research has shown that risk for Down syndrome increases proportionally to increasing maternal age.[1]

Probability of conceiving a child with Down syndrome according to maternal age by NDSS:[35]

  • At age 20, 1 in 2000
  • At age 24, 1 in 1300
  • At age 25, 1 in 1200
  • At age 29, 1 in 950
  • At age 30, 1 in 900
  • At age 34, 1 in 450
  • At age 35, 1 in 350
  • At age 39, 1 in 150
  • At age 40, 1 in 100
  • At age 44, 1 in 40
  • At age 45, 1 in 30
  • At age 49, 1 in 10

In addition to Down syndrome, pregnant women over 35 are also at increased risk for other birth defects. A study conducted by Gill et al. found an association of advanced maternal age >40 and birth defects such as cardiac issues, esophageal atresia, hypospadias, and craniosynostosis.[36] Lastly, studies have reported that pregnant women over 35 also have increased risk for premature birth and babies with low birth weight.[1][33]

Ovarian aging

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Substantial evidence indicates that the capability to repair DNA double strand breaks by a repair pathway involving BRCA1 (Breast cancer type 1 susceptibility) protein and ATM (ataxia–telangiectasia mutated) serine/threonine kinase weakens with age in oocytes of numerous species including humans.[37] The specific DNA repair pathway affected by age is the homologous recombination DNA repair pathway. In general, women with BRCA1 mutations have lower ovarian reserves and experience earlier menopause.[37]

See also

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References

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  1. ^ a b c d e f g "Having a Baby After Age 35: How Aging Affects Fertility and Pregnancy". www.acog.org. Archived from the original on 2024-06-24. Retrieved 2020-10-29.
  2. ^ a b Leridon, Henri (2005). "The biological obstacles to late childbearing and the limits of ART" (PDF). Ined-Inserm, Paris. Archived from the original (PDF) on 2016-04-19. Retrieved 2012-08-26.
  3. ^ "Menopause: MedlinePlus Medical Encyclopedia". MedlinePlus. Retrieved 2024-07-16.
  4. ^ Pasqualotto, Fabio Firmbach; Borges Júnior, Edson; Pasqualotto, Eleonora Bedin (May 2008), "The male biological clock is ticking: a review of the literature", Sao Paulo Medical Journal, 126 (3): 197–201, doi:10.1590/S1516-31802008000300012, ISSN 1516-3180, PMID 18711662
  5. ^ te Velde, E. R. (2002). "The variability of female reproductive ageing and also on how the body is built". Human Reproduction Update. 8 (2): 141–154. doi:10.1093/humupd/8.2.141. ISSN 1355-4786. PMID 12099629.
  6. ^ Anderson SE, Dallal GE, Must A (April 2003). "Relative weight and race influence average age at menarche: results from two nationally representative surveys of US girls studied 25 years apart". Pediatrics. 111 (4 Pt 1): 844–50. doi:10.1542/peds.111.4.844. PMID 12671122.
  7. ^ Al-Sahab B, Ardern CI, Hamadeh MJ, Tamim H (2010). "Age at menarche in Canada: results from the National Longitudinal Survey of Children & Youth". BMC Public Health. 10: 736. doi:10.1186/1471-2458-10-736. PMC 3001737. PMID 21110899.
  8. ^ Hamilton-Fairley, Diana (2004). "Obstetrics and Gynaecology: Lecture Notes (2nd ed.)" (PDF). Blackwell Publishing. Archived from the original (PDF) on 2018-10-09. Retrieved 2012-08-26.
  9. ^ Apter D (February 1980). "Serum steroids and pituitary hormones in female puberty: a partly longitudinal study". Clinical Endocrinology. 12 (2): 107–20. doi:10.1111/j.1365-2265.1980.tb02125.x. PMID 6249519. S2CID 19913395.
  10. ^ Fertility among young adolescents aged 10 to 14 years (PDF), New York: Department of Economic and Social Affairs, Population Division, United Nations, 2020, archived (PDF) from the original on 2024-06-05, retrieved 2024-01-22, Data on fertility among girls under age 15 are deficient, as noted before, in part because childbirth at these ages is uncommon in most societies. In addition, childbearing at these ages, which often occurs within marriage, is likely to be underreported or concealed to avoid shame and stigmatization.
  11. ^ Barnes, Hannah (2013-09-18). "The 300-year-old fertility statistics still in use today". BBC News. Archived from the original on 2017-12-24. Retrieved 2017-09-04.
  12. ^ "Fertility problems: assessment and treatment – Guidance and guidelines – NICE". www.nice.org.uk. 20 February 2013. Archived from the original on 3 July 2017. Retrieved 27 July 2017.
  13. ^ [1] Archived 2012-10-25 at the Wayback Machine[2] Leridon, H. (2004). "Can assisted reproduction technology compensate for the natural decline in fertility with age? A model assessment". Human Reproduction. 19 (7): 1548–1553. doi:10.1093/humrep/deh304. PMID 15205397.
  14. ^ a b Hall, Carl T. (2002-04-30). "Study speeds up biological clocks / Fertility rates dip after women hit 27". The San Francisco Chronicle. Archived from the original on 2012-06-17. Retrieved 2007-11-21.
  15. ^ a b Fox M (May 2000). "Age And Infertility: The Biological Clock: Fact Or Fiction?". Jacksonville Medicine. 51 (5). Archived from the original on 2002-08-19. Retrieved 2012-07-29.
  16. ^ Balázs, Kapitány (February 2010). "A kései gyermekvállalás kockázatai" (PDF). KorFa on-line. Archived from the original (PDF) on 2012-03-13. Retrieved 2012-08-26.
  17. ^ a b Wallace, W. Hamish B.; Thomas W. Kelsey (2010-01-27). Vitzthum, Virginia J. (ed.). "Human Ovarian Reserve from Conception to the Menopause". PLOS ONE. 5 (1): e8772. arXiv:1106.1382. Bibcode:2010PLoSO...5.8772W. doi:10.1371/journal.pone.0008772. PMC 2811725. PMID 20111701.
  18. ^ a b Wallace WH, Kelsey TW (2010). "Human Ovarian Reserve from Conception to the Menopause". PLOS ONE. 5 (1): e8772. arXiv:1106.1382. Bibcode:2010PLoSO...5.8772W. doi:10.1371/journal.pone.0008772. PMC 2811725. PMID 20111701.
  19. ^ a b Committee on Gynecologic Practice (January 2015). "Committee Opinion No. 618: Ovarian Reserve Testing". Obstetrics and Gynecology. 125 (1): 268–273. doi:10.1097/01.AOG.0000459864.68372.ec. PMID 25560143. S2CID 7906030.
  20. ^ Leridon, Henri (1 July 2004). "Can assisted reproduction technology compensate for the natural decline in fertility with age? A model assessment". Human Reproduction. 19 (7): 1548–1553. doi:10.1093/humrep/deh304. PMID 15205397. Archived from the original on 19 January 2024. Retrieved 16 April 2018 – via humrep.oxfordjournals.org.
  21. ^ Fertility, Biology, and Behavior: An Analysis of the Proximate Determinants (Studies in Population), by John Bongaarts, Robert E. Potter. pp 42 – 43. "The average of these estimates is 40 years, which, as expected, is slightly below the mean age at onset of sterility. The data in Table 2.4 indicate that the mean age at last birth is remarkably invariant. With few exceptions the means fall in the 39–41 year range."
  22. ^ a b Age and Female Infertility, Fertility Tests of Egg Supply Archived 2017-08-27 at the Wayback Machine citing Tietze, Christopher (1957). "Reproductive span and rate of reproduction among Hutterite women". Obstetrical & Gynecological Survey. 12 (5). LWW: 727–728. doi:10.1097/00006254-195710000-00039.
  23. ^ Infertility, Economics, and Common Sense Archived 2016-03-03 at the Wayback Machine. By Paul E. Visneski. The Journal of Lancaster General Hospital.
  24. ^ a b Nelson, S. M.; Telfer, E. E.; Anderson, R. A. (2012). "The ageing ovary and uterus: New biological insights". Human Reproduction Update. 19 (1): 67–83. doi:10.1093/humupd/dms043. PMC 3508627. PMID 23103636.
  25. ^ Broer, S. L.; Broekmans, F. J. M.; Laven, J. S. E.; Fauser, B. C. J. M. (2014). "Anti-Mullerian hormone: ovarian reserve testing and its potential clinical implications". Human Reproduction Update. 20 (5): 688–701. doi:10.1093/humupd/dmu020. ISSN 1355-4786. PMID 24821925.
  26. ^ Broer, S. L.; Broekmans, F. J. M.; Laven, J. S. E.; Fauser, B. C. J. M. (2014). "Anti-Mullerian hormone: ovarian reserve testing and its potential clinical implications". Human Reproduction Update. 20 (5): 688–701. doi:10.1093/humupd/dmu020. ISSN 1355-4786. PMID 24821925.
    In turn citing:
  27. ^ "Evaluating Infertility". www.acog.org. Archived from the original on 2024-06-24. Retrieved 2021-09-20.
  28. ^ Yan, JunHao; Wu, KeLiang; Tang, Rong; Ding, LingLing; Chen, Zi-Jiang (2012-08-01). "Effect of maternal age on the outcomes of in vitro fertilization and embryo transfer (IVF-ET)". Science China Life Sciences. 55 (8): 694–698. doi:10.1007/s11427-012-4357-0. ISSN 1869-1889. PMID 22932885.
  29. ^ Noyes, N; Porcu, E; Borini, A (January 2009). "Over 900 oocyte cryopreservation babies born with no apparent increase in congenital anomalies". Reproductive BioMedicine Online. 18 (6): 769–776. doi:10.1016/s1472-6483(10)60025-9. ISSN 1472-6483. PMID 19490780.
  30. ^ Argyle, Catrin E.; Harper, Joyce C.; Davies, Melanie C. (2016-03-22). "Oocyte cryopreservation: where are we now?". Human Reproduction Update. 22 (4): 440–449. doi:10.1093/humupd/dmw007. ISSN 1355-4786. PMID 27006004.
  31. ^ Petropanagos, Angel; Cattapan, Alana; Baylis, Françoise; Leader, Arthur (2015-06-16). "Social egg freezing: risk, benefits and other considerations". CMAJ. 187 (9): 666–669. doi:10.1503/cmaj.141605. ISSN 0820-3946. PMC 4467930. PMID 25869870. Archived from the original on 2024-01-30. Retrieved 2021-09-13.
  32. ^ a b Staff, MayoClinic (July 30, 2020). "Pregnancy after 35: Healthy moms, healthy babies". Mayo Clinic. Archived from the original on 2015-04-11. Retrieved September 12, 2021.
  33. ^ a b Cavazos-Rehg, Patricia (June 2015). "Maternal age and risk of labor and delivery complications". Maternal and Child Health Journal. 19 (6): 1202–11. doi:10.1007/s10995-014-1624-7. PMC 4418963. PMID 25366100.
  34. ^ Sauer, Mark (May 2015). "Reproduction at an advanced maternal age and maternal health". Fertility and Sterility. 103 (5): 1136–43. doi:10.1016/j.fertnstert.2015.03.004. PMID 25934599.
  35. ^ "What is Down Syndrome? | National Down Syndrome Society". Archived from the original on 2021-01-16. Retrieved 2022-05-31.
  36. ^ Gill, Simerpal (July 2012). "Association between Maternal Age and Birth Defects of Unknown Etiology - United States, 1997–2007". Birth Defects Research Part A: Clinical and Molecular Teratology. 94 (12): 1010–18. doi:10.1002/bdra.23049. PMC 4532312. PMID 22821755.
  37. ^ a b Turan V, Oktay K (January 2020). "BRCA-related ATM-mediated DNA double-strand break repair and ovarian aging". Hum Reprod Update. 26 (1): 43–57. doi:10.1093/humupd/dmz043. PMC 6935693. PMID 31822904.
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