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New Method to Extend Ovarian Healthspan, Delaying Menopause

by Colleen Fleiss on Sep 18 2024 10:30 AM
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New treatment shows promise by extending ovarian function, potentially advancing fertility research and offering new insights into aging and reproductive health.

New Method to Extend Ovarian Healthspan, Delaying Menopause
Imagine your ovaries as a factory producing essential hormones. As you age, this factory’s productivity declines, eventually leading to menopause. Researchers have uncovered a new method to prolong the ’healthspan’ of this factory, preventing key age-related changes and preserving ovarian function. “Healthspan” refers to the length of time a person remains healthy and free from serious illness or chronic diseases (1 Trusted Source
Systemic low-dose anti-fibrotic treatment attenuates ovarian aging in the mouse

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Ovarian Function Needs to Keep Pace with Longer Lifespans

“The average age of menopause has stayed constant over the years, but women are living decades longer than that because of health and medical advances,” said corresponding author Francesca Duncan, associate professor of obstetrics and gynecology (reproductive science in medicine) at Northwestern University Feinberg School of Medicine. “We’ve changed the landscape of how we live, and our ovarian function needs to catch up so that we have an organ that functions proportionately to maintain women’s healthspans longer.”

The findings will be published in the journal GeroScience.

For this study, researchers used Pirfenidone, which is commonly used to treat idiopathic pulmonary fibrosis. But other ongoing studies are underway to identify optimal drug targets for ovarian fibrosis and to conduct clinical trials in women.

“This drug is not one that can be used in a clinical setting for this purpose because it has significant side effects, like liver toxicity, although we didn’t see that in mice,” Duncan said. “However, we demonstrated proof-of-concept: we can modulate ovarian fibrosis and improve outcomes. We are now actively working to find a safe and effective drug to do this in humans.”

In a previous study, Duncan’s lab was the first to find that as ovaries age, they become excessively inflamed, fibrotic and stiff — similar to scarring in other tissues. Because cancer cells prefer collagen-rich, stiff environments, aged ovaries provide suitable conditions for cancer cells to proliferate, Duncan said.

In the new study, mice treated with medication to reduce ovarian scarring experienced higher follicle numbers, improved ovulation and maintained normal hormone levels.

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“Right now, our solutions for the age-related decline in fertility, such as freezing one’s eggs, are a Band-Aid,” Duncan said. “You’re still going to be transferring those embryos into an older woman, which has its own risks.”

‘Pushing the fertile window is not the ultimate goal of the study.’

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Lengthening a woman’s fertility window is only one part of the equation, Duncan said.

“We’re likely going to push the fertile window, but that is not the ultimate goal of the study,” Duncan said. “Not everyone is concerned about having children.”

This study focuses on ways to improve the ovarian environment, so it can continue producing critical hormones much later in a woman’s life. Decreased estrogen and progesterone levels accelerate bone loss, which increases the risk of osteoporosis. Low hormones also can lead to an increased risk of cardiovascular disease; can cause thinning of the vaginal walls, leading to discomfort during sex or urinary issues; and can lead to decreased cognitive function and mood.

“If you fix the ovarian environment, you solve all the problems because you have follicles and eggs that can contribute to fertility and hormone production,” Duncan said. “It’s fixing the root of the issue.”

The study is titled, “Systemic low‐dose anti‐fibrotic treatment attenuates ovarian aging in the mouse.” Funding for the study was provided by the Global Consortium for Reproductive Longevity and Equality.

Reference:
  1. Systemic low-dose anti-fibrotic treatment attenuates ovarian aging in the mouse - (https://link.springer.com/article/10.1007/s11357-024-01322-w)

Source-Eurekalert


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