Enhancing Fertility: How Softening the Ovaries Can Improve Reproductive Health

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Light micrograph illustrating a cross-section of a follicle containing an immature egg. The immature egg (orange) is enveloped by a fluid-filled cavity (light pink) and granulosa cells (dark pink), which supply nutrients and hormones.

Steve Gschmeisner/Science Photo Library

Recent studies indicate that by softening ovarian tissue, it may be possible to enhance fertility rates. A novel drug aimed at reducing organ hardness more than doubled conception rates and increased litter sizes five-fold in older, subfertile rats. While human trials are necessary, these findings spark optimism that similar interventions could aid older women in conception.

Female fertility significantly declines in the mid-30s. However, in regions like England and Wales, many delay childbirth, often until later in life. The quantity and quality of a woman’s immature eggs decrease with age, supported by evidence that ovarian stiffness increases over time, affecting egg development and quality negatively.

In a study led by Wang Shixuan, researchers at Huazhong University of Science and Technology analyzed protein levels in the ovaries of women aged 18 to 28, 35 to 42, and 47 to 52, all with a history of gynecological cancer that did not impact the ovaries after removal.

The findings revealed an increase in a protein called interleukin-11 in aging ovaries. This protein activates fibroblasts, connective tissue cells that produce collagen, contributing to ovarian stiffness. Learn more about the causes of ovarian stiffness.

The research team also genetically modified mice to resist interleukin-11, resulting in reduced ovarian stiffness and increased ovulation compared to unmodified mice.

Subsequently, the researchers tested an experimental drug to inhibit interleukin-11 production by silencing its gene, administering it to 36-week-old mice, analogous to humans in their late 30s or early 40s, twice weekly for a month.

Results demonstrated a 36% decrease in ovarian firmness compared to untreated controls. Conception rates increased from 25% to 50%, and average litter sizes grew from three to five calves. Similarly, in aged rats, conception rates improved from 20% to 50%, with litter sizes increasing fivefold from one to five.

Francesca Duncan from Northwestern University in Illinois remarks that this intervention may yield comparable results in premenopausal women, noting that interleukin-11 levels also rise with age in human ovaries. However, she cautions that findings are based on women with a cancer history, leaving questions about its effect on individuals without such health concerns.

Additional studies are needed, as indicated by Barbara Vanderheiden of the University of Ottawa, who suggests potential broader benefits for women’s health. “Preserving fertility and extending ovarian function could mitigate menopause effects like osteoporosis and heightened heart disease risks,” she notes.

The goal is to deliver the drug directly to the ovaries ahead of human trials. So far, no adverse effects have been observed in mice and rats. Yet, Duncan warns of risks since interleukin-11 is present in various human tissues. “Considering the pivotal role of ovarian egg cells in future generations, drug safety protocols targeting the ovaries must be exceptionally stringent,” she states.

Questions remain about the duration required for the drug to enhance reproductive outcomes. “While reducing ovarian stiffness could be feasible,” Vanderheiden states, “short-term treatments show limited data on their long-term positive or negative impacts.”

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Source: www.newscientist.com

The Most Unusual Reproductive Strategy in the Animal Kingdom

Female small brown bats engage in mating during the fall season, yet do not achieve fertilization or pregnancy until the spring, resulting in a half-year gap where sperm is stored within the female’s reproductive system.

This phenomenon, known as sperm storage, occurs when female animals keep sperm alive in their reproductive tracts for extended periods, allowing for fertilization at a more opportune moment.

Various species, including insects, fish, birds, and mammals, utilize this strategy. For instance, female dogs can store sperm for about a week, while female chickens can retain sperm for nearly a year up to a month. Interestingly, female western rattlesnakes exhibit the remarkable ability to store sperm for up to six years.

Sperm are retained within specialized structures of the reproductive tract. In insects, for example, sperm are often found in the seminal vesicles. Conversely, birds and reptiles utilize sperm storage tubules, which are grooves located at the ends of their reproductive systems.

Even in humans, sperm storage occurs, with viable sperm able to survive for up to five days in a cervical pocket known as a cervical crypt.

The surrounding environment plays a critical role in keeping stored sperm viable. Epithelial cells that line these storage structures provide antioxidant-rich proteins that neutralize free radicals and prolong the lifespan of sperm.

Additionally, the local immune system effectively targets invading microorganisms while allowing the stored sperm to remain unharmed, which helps them remain viable until fertilization is required.

Small brown bats usually give birth to one pup – Credit: Getty

This strategy is prevalent across numerous species, indicating its evolutionary significance. For instance, if a little brown bat were to give birth in the harsh winter, it would face dire consequences due to food scarcity and cold temperatures.

By mating in the fall and entering hibernation, the female optimizes the timing of her pregnancy to ensure the best conditions for nurturing her young.

In humans, the evolution of sperm storage appears to enhance fertilization probabilities. Even intercourse occurring days before ovulation can lead to pregnancy, as the sperm remain primed for fertilization.

Moreover, in certain species, sperm storage may allow females to influence the sex ratio of their offspring.










For example, the queen bee of Western honey bees mates with multiple males and stores sperm, never mating again. Consequently, unfertilized eggs form males while fertilized eggs produce females.

In a more complex strategy, female yellow dung flies can “choose” which sperm to utilize from storage. When environmental conditions are harsh, they may opt for sperm from males with genes better suited for survival in challenging climates.

This adaptive behavior increases the likelihood of offspring survival, though the exact mechanisms behind sperm selection remain a mystery.


This article answers the question posed by Angela Jaiswal via email: “How do female animals store sperm long-term?”

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Source: www.sciencefocus.com

Global expansion: Meta and Google facing accusations of limiting access to reproductive health information

A recent report accuses Meta and Google of obstructing information about abortion and reproductive health in Africa, Latin America, and Asia.

MSI Reproductive Choices and the Center to Combat Digital Hate claim that while these platforms restrict advertising for local abortion providers, they don’t limit public access to reproductive health care, leading to the spread of damaging misinformation.

Mehta has agreed to review the findings of the report.

MSI, operating in 37 countries, has had ads containing sexual health information rejected or removed by the platforms.

MSI Ghana and Vietnam reported that their ads promoting reproductive health content were removed or flagged as violating community guidelines.

Whitney Chinogwenya, Global Marketing Manager at MSI, expressed concerns about the censorship of reproductive health content on social media platforms like Facebook, which many women rely on for information.

MSI Mexico faced removal of a Facebook post promoting legal abortion services despite the recent decriminalization of abortion in some states.

The report highlighted Meta’s inaction against anti-abortion misinformation and misleading content about abortion procedures.

The report also revealed fake MSI pages on Facebook that exploit the organization’s reputation for various malicious purposes.

MSI clinics in Ghana were targeted by disinformation campaigns on messaging platforms.

MSI Ghana Advocacy stresses the importance of fact-checking systems on digital platforms to promote accurate reproductive health information.

The report, compiled from interviews and evidence from MSI teams in several countries, aims to raise awareness among digital platforms about their responsibilities.

Meta and Google responded to the report’s allegations, with Meta emphasizing its policies against false information and Google denying any inconsistent enforcement on its platforms.

Both companies stated their commitment to ensuring accurate and compliant advertising on their platforms.

Source: www.theguardian.com