We all must have come across the phase: this is why women live longer than men. These are all over the social media, where men are performing more often than not, some experiments, without gears, just for fun, "in the name of science". The caption reads: this is why women live longer. However, is there really a science to it, other than the fact that women choose to do things more safely?

In the United States, women have a life expectancy of about 80, whereas men have 75. Women outlive men and this holds true regardless of the country women live, the money they make, and other factors. In fact, it is true for most other mammals too.

Dr Dena Dubal, a professor of neurology at the University of California, San Francisco told the New York Times, "It is a very robust phenomenon all over the world, totally conserved in sickness, during famines, during epidemics, even during the times of starvation."

But what are the reasons? These reasons are often more complicated and less established. It is important to note that only because women are outliving men does not mean they are living a better life. In fact, women tend to have shorter health spans, which means the number of healthy years in a person's life is less in women than men, confirmed Bérénice Benayoun, an associate professor at the U.S.C. Leonard Davis School of Gerontology.

As per a 2021 study titled, Sex differences in frailty: Comparisons between humans and preclinical models, found that women are more physically grail than men in old age. They are also more vulnerable, especially after menopause and are at more risk of developing cardiovascular issues and Alzheimer's disease because of age.

The key is in figuring out what makes one sex more resilient or vulnerable.

Genetics

For things which do not find easy explanations, scientists look for their answers in genes. Many research, including a 2020 study titled, The sex with the reduced sex chromosome dies earlier: a comparison across the tree of life, suggests that the XX set of female sex chromosomes may impact longevity. However, there has not been any clarity on how it affects longevity.

Another 2018 study titled, Female XX sex chromosomes increase survival and extend lifespan in aging mice, which was conducted by Dr Dubal's lab, looked at genetically manipulated mice with different combinations of sex chromosomes and reproductive organs. It was found that those with two X chromosomes and ovaries lived longest, followed by mice with two X chromosomes and testes. Mice with XY chromosomes had shorter life spans.

"There was something about the second X chromosome that was protecting the mice from dying earlier in life, even if they had testes. What if there was something on that second X chromosome that was in some ways a sprinkle of the fountain of youth," says Dr Dubal. While scientists have not yet looked at this factor in humans, Dr Dubal suggests that humans have the same hormones and sex chromosomes, and similar reproductive system that could corroborate the similar findings in people.

Hormones

Plenty research has shown that estrogen is responsible for longevity also effect on the immune system. The data also shows that before menopause, the female immune system tends to do better. In fact Dr Benayoun said that males tend to do much worse in response to infection.

Another 2017 study titled, Ages at Menarche and Menopause and Reproductive Lifespan As Predictors of Exceptional Longevity in Women: The Women's Health Initiative, found that women who experienced menopause later in life over the age 50 lived longer than those who experienced it earlier.

Lifestyle and Behavior

There are also disparity in behavioral patterns between men and women. This includes smoking, drinking heavily, which can contribute significantly to mortality. Women also have more "health promoting behavior", believe experts. Women are also more likely to socialize than men and thus it protects them from detrimental effects of social isolation and loneliness. In fact, a 2023 analysis published in Jama Network, titled, Widening Gender Gap in Life Expectancy in the US, 2010-2021, found that women are less likely to die by drug overdose or suicide.

What began as a typical sports injury for a teenage volleyball player turned into a life-altering medical discovery. McKinnon Galloway, now 33, learned she had a rare genetic condition called neurofibromatosis type 2 (NF2) after a fall during a volleyball match led doctors to perform a routine brain scan.

Galloway was just 16 and playing as a setter on her school volleyball team when she dove for the ball and hit her head on the ground. Concerned about a concussion, doctors ordered an MRI scan. Instead of a simple injury, the scan revealed two tumors in her brain.

Doctors soon confirmed she had neurofibromatosis type 2, a rare genetic disorder that causes tumors to grow on nerves throughout the body.

NF2 occurs when a gene responsible for regulating nerve growth does not function properly. Without this signal telling nerve cells to stop growing, tumors can form along nerves and press on surrounding structures or disrupt nerve function.

Tumors multiplied quickly

When doctors first detected the tumors, they described them as slow growing. But within six months, follow-up scans showed the tumors had doubled in size.

Over the years, the condition progressed. Today Galloway lives with 13 tumors located in different parts of her body. Six are in her spine, three are in her hand, two are in her neck, and two remain in her brain.

To manage the disease, she has undergone several treatments including chemotherapy drugs, radiation therapy, and experimental medical trials. She was prescribed Avastin, a medication originally used to treat breast cancer, in an attempt to slow tumor growth.

At age 21 she also joined a phase-one clinical trial in which researchers tested increasing doses of an experimental drug to evaluate its safety. The trial was eventually stopped for her after she developed adverse reactions.

Hearing loss and multiple surgeries

The most difficult consequences of NF2 have been related to hearing loss caused by tumors affecting auditory nerves. Galloway has undergone four brain surgeries in attempts to remove or control the growth of these tumors.

After the first operations she lost hearing in her right ear. Over the next decade her hearing gradually declined in the left ear as well.

In early 2022, during a family vacation, she woke up unable to hear anything. Initially she believed the television in the room had been muted, but quickly realized she had lost her hearing entirely.

Steroid treatment temporarily restored about 20 percent of hearing in one ear. However, another brain surgery later that year resulted in complete deafness.

The operation, which lasted nearly 10 hours, was intended to remove a tumor threatening her life. Complications during surgery left her hospitalized for weeks and forced her to adapt to a completely silent world.

Finding a new purpose

In the months that followed, Galloway struggled with isolation because she had not yet learned effective ways to communicate without hearing. Over time, assistive technology and digital communication tools helped her reconnect with people around her.

She has since become a content creator and public speaker, using social media to raise awareness about NF2 and educate others about technology that supports deaf individuals.

Her advocacy work also includes supporting research efforts and raising funds for organizations dedicated to neurofibromatosis research.

Despite years of treatments, surgeries and uncertainty, Galloway recently received encouraging news. Her latest medical scan showed stable tumor growth for the first time in four years.

Today she continues to share her experience in hopes of helping other families facing the rare disorder.

“Being diagnosed at 16 meant I still had a childhood,” she said. “Many children with this condition spend those years in hospitals, and they deserve more than that.”

While research shows women need more sleep than men due to brain function, hormones, and multitasking, females around the globe are struggling to get enough sleep, according to experts.

A 2016 study by the Sleep Research Centre at the UK’s Loughborough University found that women needed 20 minutes more sleep because of multitasking and performing more complex brain tasks during the day.

But, the American Academy of Sleep Medicine (AASM), revealed that an estimated 30 percent of women fail to get sufficient sleep.

Hormones, mood disorders, and caregiving responsibilities, coupled with professional pressures and stress, are the major reasons driving up insomnia and other sleep issues among women.

“Women around the world face a higher burden of sleep difficulties because their sleep cycles are tightly interlinked with hormonal shifts that occur throughout life,” Dr. Janhvi Siroya Shah, Sleep Specialist from the University of Bern, Switzerland, told HealthandMe.

Gender Gap In Sleep: Why Women Sleep Less

The gender gap in sleep is real, as revealed by the recent ResMed Global Sleep Survey 2026, which showed that 56 percent of women get a good night's sleep only four days or fewer per week, compared to 50 percent of men.

Women were also 48 percent more likely to report problems falling asleep than men (42 percent). More than 50 percent of women felt waking up not feeling rested for 1-2 nights per week or more, compared to 46 percent of men.

The study flagged stress or anxiety as the biggest barrier to consistent, quality sleep (39 per cent), followed by work-related responsibilities (37 per cent) and household duties (31 per cent) among women.

Speaking to HealthandMe, Dr. Kirti Kadian, from the Department of Pulmonary Critical Care & Sleep Medicine at AIIMS Bhopal, said: “Women experience disproportionate sleep challenges globally, largely because their bodies undergo repeated physiological transitions that influence how sleep is regulated.”

The experts cited the main reasons as

• fluctuations during menstruation,
• pregnancy,
• postpartum recovery
• menopause.

All these factors can alter mood regulation, increase nighttime alertness, and disrupt the architecture of sleep itself.

Dr Kadian said that hormonal fluctuations across the life course -- especially during the menopausal transition -- can affect circadian rhythm, airway stability, pain sensitivity, and the nervous system’s response to stress.

“When these biological changes coincide with external stressors, such as multitasking, emotional labor or caregiving demands, women become far more vulnerable to insomnia and unrefreshing sleep,” Shah said.

The prevalence of sleep disorders increases from about 16–42 percent in pre-menopause to around 39–47 percent in peri-menopause and up to 35–69 percent in post-menopause, indicating that sleep disturbances become more common as women progress through different reproductive stages.

“Declining levels of estrogen and progesterone can disrupt the body’s sleep regulation and trigger symptoms like hot flashes and night sweats, while reduced melatonin may make it harder to fall and stay asleep,” Dr. Kadian explained.

In addition, certain medical conditions that are more common in women, such as thyroid disorders, anemia, and autoimmune diseases, can also negatively affect sleep and overall health.

How Poor Sleep Affects Women

Poor sleep also significantly affects both physical and mental health, increasing the risk of

• metabolic disorders,
• cardiovascular disease,
• weakened immunity,
• persistent fatigue,
• reduced concentration,
• irritability,
• anxiety,
• depression.

How Women can Improve their Sleep

The Harvard Medical School suggested that to get a better sleep cycle women should:

• Create a sleep sanctuary by removing the television, computer, smartphone or tablet, from the bedroom.
• Cut down or limit afternoon naps to 20 to 30 minutes
• Avoid caffeine after noon
• Get regular exercise, but not within three hours of bedtime.

While early-stage research raised hopes of oral semaglutide (GLP-1 pill) slowing down the progression of Alzheimer’s disease, results of a new large-scale clinical trial have rendered it ineffective.

Evoke and Evoke+ -- the randomized, double-blind, placebo-controlled phase 3 trials conducted across 566 sites in 40 countries -- showed that semaglutide led to no significant difference after two years.

The findings, published in the Lancet journal, however, revealed that the popular weight loss drug can lead to significant reductions in several biological markers of Alzheimer’s disease.

Yet, it did not help slow the progression of the neurodegenerative disease, said an international team of researchers, including those from the University of California-San Diego.

"Oral semaglutide was not efficacious in slowing clinical progression in participants with early Alzheimer's disease," they said in the paper.

"Safety and tolerability of semaglutide in early Alzheimer's disease is consistent with studies in other indications," the team added.

The EVOKE and EVOKE+ trials

The studies are the first major phase 3 trials to investigate this possibility in people with early Alzheimer’s disease.

The researchers conducted the trial on about 3,800 patients aged 55-85 years. The patients received either up to 14 mg of oral semaglutide daily or a placebo pill.

After two years, no significant difference was seen in slowing down the cognitive disease's progression in patients taking semaglutide and patients taking the placebo.

"The results of the large evoke(+) trials do not support the efficacy of 14 mg/day of semaglutide given for up to 156 weeks in participants with biomarker-confirmed Alzheimer's disease in the MCI or mild dementia stage," the researchers said.

While “GLP-1 [drugs] have given us so many wonderful results," the trial results are "disappointing,” and “a setback for the field”, endocrinologist Daniel Drucker was quoted as saying to the Scientific American.

Drucker says there are many potential explanations why oral semaglutide didn’t work as hoped. The fatty-acid structure surrounding semaglutide might have prevented it from being able to penetrate certain brain regions, such as the hippocampus, which controls memory and cognitive function.

What Is Alzheimer’s Disease

Alzheimer's disease is a progressive neurodegenerative disease characterised by gradual cognitive and functional decline.

It is one of the most common forms of dementia and mostly affects adults over the age of 65.

Over seven million people in the US, 65 and older, live with the condition, and over 100,00 die from it annually.

The disease is believed to be caused by the development of toxic amyloid and beta proteins in the brain, which can accumulate and damage cells responsible for memory.

Early symptoms of Alzheimer's disease include forgetting recent events or conversations. Other signs include:

• losing or misplacing things
• getting lost when walking or driving
• being confused, even in familiar places
• losing track of time
• difficulties solving problems or making decisions
• difficulties performing familiar tasks
• misjudging distances to objects visually.