AI-powered women’s health companion nexus launches in UK

Femtech World explores the latest research developments in the world of women’s health.

Phase 2 trial of non-hormonal endometriosis treatment completed

Hope Medicine has completed a global Phase 2 study evaluating the safety and efficacy of non-hormonal endometriosis treatment – HMI-115.

HMI-115 is a monoclonal antibody that blocks the prolactin receptor, and is a potential first-in-class treatment for endometriosis.

This study included 108 female patients with surgically diagnosed endometriosis in the US, Poland and China.

According to the company, the treatment demonstrated statistically significant improvement of endometriosis associated pain.

HMI-115 was well-tolerated with no treatment-related serious adverse events.

Specifically, at the end of the study treatment, the least-square-mean dysmenorrhea pain score was reduced by 42 per cent in the 240 mg q2w group, compared to that of the baseline.

The least-square-mean non-menstrual pelvic pain score was reduced by 52 per cent.

These reductions are statistically significant. No typical peri-menopausal symptoms were reported.

There were no significant changes in menstrual patterns, bone mineral density and sex hormone levels including estradiol, LH, FSH and progesterone.

Lan Zhu, director of gynecology at Peking Union Medical College Hospital and leading investigator of the study, said: “HMI-115 relieved endometriosis pain in women without disturbing their sex hormones.

“It can potentially shift the treatment paradigm.

“We will be able to treat women without menopausal side effects or even infertility.”

Nathan Chen, CEO of Hope Medicine says that the company is now communicating with key regulatory agencies, including FDA and NMPA, to finalise the Phase 3 protocol and to initiate global Phase 3 studies.

Hormone replacement therapy may help restore immunity in menopausal women

Hormone replacement therapy (HRT) may help reverse changes in the immune system caused by menopause, potentially booting immune health, a new study has found.

The research reveals new evidence that menopause significantly alters women’s immune system, increasing their vulnerability to infections.

The study is the first detailed analysis of how ageing and sex differences influence monocytes, a key group of immune cells that act as the body’s first responders to infection.

Analysing blood samples, the team found that after menopause, women develop more inflammatory types of white blood cells called monocytes, which are less effective at clearing bacteria.

These changes were linked to lower levels of complement C3, an immune protein that helps monocytes engulf and destroy harmful microbes.

In contrast, men of the same age did not show these changes, suggesting menopause has a uniquely disruptive effect on female immunity.

To test whether hormone therapy could influence this decline, the researchers studied peri-and post-menopausal women taking HRT.

They found that these women had healthier immune profiles, with fewer inflammatory monocytes and stronger infection-fighting ability as compared to age-matched controls.

Levels of complement C3 in their blood were also higher in those taking HRT, bringing them close to the immune status of younger women.

HRT is already prescribed to manage symptoms, but this study suggests it may also help maintain immune health and reduce infection risk in later life.

The researchers caution, however, that more work is needed to confirm whether HRT reduces real-world infection rates, and to understand how different formulations or delivery methods affect the immune system.

The authors caution that while the findings are promising, the study does not mean HRT should automatically be prescribed for immune health.

More research is needed to confirm whether women taking HRT have lower infection rates in real-world settings, and to investigate how different types and route of HRT administration may affect the immune system.

New imaging technique helps us understand how eggs mature and ovaries age

The ticking of the biological clock is especially loud in the ovaries — the organs that store and release a woman’s eggs.

From age 25 to 40, a woman’s chance of conceiving each month decreases drastically.

For decades, scientists have pointed to declining egg quality as the main culprit.

But new research from UC San Francisco and Chan Zuckerberg Biohub San Francisco shows that the story is bigger than the eggs: The surrounding cells and tissues of the ovary play a crucial role in how eggs mature and how quickly fertility wanes.

Understanding these changes may hold the key not only to extending fertility, but also to improving health.

The risks of many age-related diseases rise after menopause or ovary removal, and slowing ovarian aging could help reduce these risks.

The team set out to profile what normal ageing looks like in the ovaries of mice and humans.

First, they developed a new three-dimensional imaging technique that allowed them to visualise eggs in the ovaries without having to slice the organs into thin layers, as had been done before.

In mice that were the equivalent of 30 to 40 human years, they observed a dramatic drop in both immature resting eggs that are waiting in reserve and in growing eggs that are beginning to mature for ovulation.

And just like women in their 30s, the mice did not conceive easily with in vitro fertilisation (IVF).

When the scientists extended their 3-D imaging to human ovaries, they uncovered an unexpected finding: Eggs are not evenly scattered throughout the ovary.

Instead, they cluster in “pockets” surrounded by egg-free zones. With age, the density of eggs within these pockets declines.

“This was a surprise, we assumed eggs would be distributed more evenly based on what we see in the developing ovary,” said Laird, who is a Biohub investigator and a member of the Eli and Edythe Broad Center for Regeneration Medicine at UCSF.

“These pockets suggest that even within one ovary, the environment around an egg may influence how long it lasts and how well it matures.”

Next, the researchers teamed up with Neff’s group at the Biohub to study what genes were active in ovary cells as they aged.

Ovarian tissue from humans is hard to come by, and eggs are large and incredibly fragile.

So, instead of using standard miniature devices that separate and tag cells to sequence their active genes, the group painstakingly isolated individual eggs by hand to separate them from other cells.

After studying nearly 100,000 mouse and human cells, they identified 11 major cell types found in the ovaries, including one surprise: Glia, a type of support cell typically associated with nerves and most extensively studied in the brain, were in the ovaries.

At the same time, the study revealed that sympathetic nerves, the same nerves involved in the “fight or flight” response, form dense networks in ovaries that become even more dense with age.

When the researchers ablated these nerves in mice, the animals had more eggs in reserve but fewer that matured, suggesting the nerves help decide when eggs start growing. Together, the observations on glia and sympathetic nerves suggest a new role for the nervous system in ovarian health.

Other support cells called fibroblasts also changed with age, triggering inflammation and scarring in the ovaries of women in their 50s, years earlier than such scarring appears in organs like the lungs or liver.

“This all points to a brand-new line of inquiry about how nerves, blood vessels, and other cell types communicate with eggs,” Laird said.

“It tells us that ovarian ageing is not just about the egg cells but about their whole ecosystem.”

The new roadmap of healthy ovaries over time offers a starting place to ask how ovarian aging changes in different situations.

The team is already launching studies probing whether some drugs could change the timing or speed of ovarian aging, she said.

Ultimately, they hope to uncover ways to slow or delay ovarian aging, to impact both fertility and other diseases, like cardiovascular disease, which are common in women after menopause.

“The fountain of youth may actually be the ovary,” said Eliza Gaylord PhD, a postdoctoral fellow at UCSF who is co-first author of the study.

“Delaying ovarian ageing could promote healthier aging overall.”

Hormonal birth control can influence emotions and memory

A new study shows that hormonal contraceptives appear to shape how women experience emotions in the moment and how they remember emotional events later.

Researchers compared women using hormonal contraceptives with women who were naturally cycling.

Participants viewed positive, negative and neutral images while applying different emotion regulation strategies, such as distancing, reinterpretation or immersion, and later completed a memory test.

Women on hormonal contraceptives showed stronger emotional reactions compared to naturally cycling women.

When they used strategies like distancing or reinterpretation, they remembered fewer details of negative events, though their general memory remained intact.

In other words, they could recall the overall event but not all of the specifics. That gap may actually be helpful, allowing women to move on instead of replaying unpleasant details.

Strategies like immersion boosted memory for positive images in both groups, making happy moments stick more clearly.

The findings add weight to a question many women have had but few studies have answered: How does birth control affect not just the body but the mind?

Emotion regulation and memory are tied to mental health outcomes such as depression, and this research suggests hormonal contraceptives may influence those processes in subtle but meaningful ways.

The researchers plan to expand the work by studying naturally cycling women across different menstrual phases and by comparing types of hormonal contraceptives, such as pills versus IUDs.

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