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Abstract BACKGROUNDWomen are increasingly choosing to delay childbirth, and those with low ovarian reserves indicative of primary ovarian insufficiency are at risk for sub- and infertility and also the early onset of menopause. Experimental strategies that promise to extend the duration of ovarian function in women are currently being developed. One strategy is to slow the rate of loss of existing primordial follicles (PFs), and a second is to increase, or ‘boost’, the number of autologous PFs in the human ovary. In both cases, the duration of ovarian function would be expected to be lengthened, and menopause would be delayed. This might be accompanied by an extended production of mature oocytes of sufficient quality to extend the fertile lifespan. OBJECTIVE AND RATIONALEIn this work, we consider how slowing physiological ovarian aging might improve the health and well-being of patients, and summarize the current state-of-the-art of approaches being developed. We then use mathematical modeling to determine how interventions are likely to influence the duration of ovarian function quantitatively. Finally, we consider efficacy benchmarks that should be achieved so that individuals will benefit, and propose criteria that could be used to monitor ongoing efficacy in different patients as these strategies are being validated. SEARCH METHODSCurrent methods to estimate the size of the ovarian reserve and its relationship to the timing of the menopausal transition and menopause were compiled, and publications establishing methods designed to slow loss of the ovarian reserve or to deliver additional ovarian PFs to patients were identified. OUTCOMESWe review our current understanding of the consequences of reproductive aging in women, and compare different approaches that may extend ovarian function in women at risk for POI. We also provide modeling of primordial reserve decay in the presence of therapies that slow PF loss or boost PF numbers. An interactive online tool is provided that estimates how different interventions would impact the duration of ovarian function across the natural population. Modeling output shows that treatments that slow PF loss would need to be applied as early as possible and for many years to achieve significant delay of menopause. In contrast, treatments that add additional PFs should occur as late as possible relative to the onset of menopause. Combined approaches slowing ovarian reserve loss while also boosting numbers of (new) PFs would likely offer some additional benefits in delaying menopause. WIDER IMPLICATIONSExtending ovarian function, and perhaps the fertile lifespan, is on the horizon for at least some patients. Modeling ovarian aging with and without such interventions complements and helps guide the clinical approaches that will achieve this goal. REGISTRATION NUMBERNot applicable.
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This content will become publicly available on June 3, 2026
Prolonging youth or prolonging perimenopause? Beware the Monkey’s Paw
Objective:To discuss the potential for adverse consequences that could arise from the quest to prolong the functional life span of the human ovary. Methods:A series of arguments are presented that: (a) question the dogma that monthly ovulatory menstrual cycles are critical for women’s health; (b) review adverse consequences of decades of menstrual cyclicity; (c) review the evidence for a longevity benefit of ovarian steroid hormone treatment after the age at natural menopause has been achieved; and (d) utilize a mathematical model of ovarian follicle loss over time to raise the possibility that current strategies directed at delaying menopause might well backfire and in fact cause a woman to have a prolonged menopause transition. Results:Regular, monthly menstrual cycles have not been the reality for women for most of history. Rather, when not pregnant, lactational amenorrhea and nutritionally based hypothalamic amenorrhea were the norm for reproductive-aged women. Moreover, monthly menstrual cycles cause substantial morbidity for women during their reproductive years. Providing steroid hormones after menopause has failed to demonstrate an increase in the female life span. Restoring ovarian follicles either surgically or medically has a high probability of causing women to spend more years of life in the menopause transition. Conclusions:Strategies to prevent or delay menopause would benefit from careful consideration of unintended consequences as they are implemented. Directing treatment trials to those with the greatest chance for benefit should be undertaken before adopting this type of treatment for a broader population.
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- PAR ID:
- 10630077
- Publisher / Repository:
- The Menopause Society
- Date Published:
- Journal Name:
- Menopause
- ISSN:
- 1530-0374
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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