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.

Your DNA, or more specifically your genes, have fascinating interactions with your diet. These interactions are often bidirectional and form the basis of personalized nutrition through genomic biohacks.

This has impressive applications in solving some of the most stubborn health related challenges, including undesirable weight gain and obesity.

Here are the five ways by which your DNA could positively shape your diet:

Nutrigenomics

Nutrigenomics is the mechanism by which your diet affects your genes, and not the other way round. The process has massive implications for your health, and especially over how you can use specific dietary components to protect yourself against serious killer diseases like cancers and issues like faster aging.

Deficiency in key nutrients like Vitamin B9 or folate, Vitamin B12, choline & methionine can cause genomic instability and increased cancer risk.

In contrast, specific foods like curcumin, resveratrol, green tea, broccoli, Brussels sprouts etc can help with genomic stability and help fight inflammation, oxidative stress and cancers.

Nutrigenetics

These are the processes by which your genes affect your diet or consumed food and hence central to our theme here. At times, nutrigenetics is referred to by the wider umbrella term nutrigenomics.

Your gene variants determine how you process specific nutrients, which explains why the same diet works differently for different people. Genetic tests like Eplimo can easily find this out.

For instance, presence of certain variants of the SGK1 gene make those individuals more prone to high blood pressure from salt intake.

Similarly, variants in the FTO gene are strongly linked to obesity risk. Other very common examples are variants in the CYP1A2 gene that determine how fast you metabolize caffeine and mutations in the LCT gene that determines whether you are at risk of lactose intolerance.

Hunger & Satiety Hormones

Ghrelin, the hunger hormone, is produced mainly in the stomach and stimulates appetite, increases food intake as well as promotes fat storage.

The production of ghrelin hormone is governed by the GHRL gene, and a common variant in this gene called RS696217 is associated with unnecessary hunger and higher obesity risk.

Similarly, leptin is a hormone produced by the body’s fat tissues and regulates satiety or the feeling of fullness with regard to food.

Production of leptin is governed by the LEP gene, while its utilization is controlled by the LEPR (leptin receptor) gene. Variants in either, especially LEP, can cause severe, early-onset obesity.

Metabolic Pace

Genes play a significant role in determining your metabolic pace. Studies show that genes account for up to 60 percent of the variations seen in the Resting Metabolic Rate between individuals.

RMR is basically a measure of how much calories are burnt while you are sitting or doing light activities.

It is different from Basal Metabolic Rate (BMR) that requires fasting and bed rest. Hundreds of genetic variants work together to set your RMR.

These include variants in the UCP1 gene governing thermogenesis or heat production, the MC4R gene that influences how the body burns nutrients for energy, and genes governing mitochondrial efficiency.

Building more muscles is a proven way to counter the negative impact of such variants and boost RMR.

Gut Microbiome

Does your gut microbiome impact your genes more, or does your genes impact your gut microbes more? Definitely, it is the former, which is also a better known mechanism due to that greater impact.

But that doesn’t mean that the reverse impact, from your DNA to your microbiome which accounts for around 10 percent of its composition, is insignificant in any way.

For instance, your specific gene variants determine which bacteria thrive by influencing immune responses, metabolism, and food preferences.

Specific genes, such as the LCT gene, directly correlate with the abundance of beneficial bacteria like Bifidobacterium. Genetics also influence how you digest food and your dietary preferences, which in turn feeds specific bacterial species.

Other genetic factors too have been identified as having strong links to microbial diversity, which is a great marker for not only gut health, but overall health, performance and longevity.

The impact of social media on adolescents’ well-being is significant, said the World Happiness Report 2026 today, warning that the scale of harm is significant enough to affect entire populations.

The annual report, published by the Wellbeing Research Centre at the University of Oxford, points to overwhelming evidence of both direct and indirect harm.

Direct harms include exposing them to videos of graphic pornography and real-life violence, facilitating cyberbullying and deepfakes, promoting dangerous “challenges”, connecting them with sexual predators, and facilitating the purchase of illegal drugs.

The indirect harms involve rising levels of depression, anxiety, and reduced life satisfaction.

“The harms and risks to individual users are so diverse and vast in scope that they justify the view that social media is causing harm at a population level,” the report said.

The harmful "experiences are so common that they should also count as ordinary use,” it added.

Notably, the report called the major social media platforms such as Facebook, Instagram, Snapchat, TikTok, and X, "dangerous consumer products that harm adolescents at a massive scale”.

“The evidence of harm – both direct and indirect – is so strong and comes from so many sources in so many countries that we believe policymakers around the world now have enough evidence to justify action to protect children and adolescents,” the report said.

In line with this, countries such as Australia and Indonesia recently introduced legislative restrictions on social media use among young people. In India, states including Karnataka and Andhra Pradesh have announced bans, while Bihar is considering similar measures.

The report pointed out that social media is causing direct harms to millions of people globally. This includes:

• Addiction and problematic use
• Sleep deprivation
• Sextortion
• Sexual harassment

Impact on Youth Well-being

Research cited in the report shows a clear link between heavy social media use and lower life satisfaction among adolescents. Youth and teens who spent more time on social platforms reported poorer mental well-being compared to those who used less.

Overall, internet use was linked with negative effects, particularly among girls and in countries such as the UK and Ireland. Yet, among those who used the internet for communication, learning, news consumption, and content creation, higher life satisfaction was reported.

The report noted that negative emotions are becoming more common across all regions. Worry increased among young people, while the frequency of anger declined across both younger and older populations.

Despite these trends, positive emotions still occur about twice as often as negative ones globally.

Global Happiness Rankings

Finland has been ranked the world’s happiest country for the ninth consecutive year, followed by Iceland, Denmark, and Costa Rica. Other countries in the top 10 include Sweden, Norway, the Netherlands, Israel, Luxembourg, and Switzerland.

In contrast, when measuring changes in happiness among people under 25, countries in the NANZ region -- the United States, Canada, Australia, and New Zealand -- rank much lower, placing between 122 and 133 out of 136 countries.

Hormonal changes during menopause can significantly increase Alzheimer's disease (AD) risk in women, according to Dr Lisa Mosconi, a neuroscientist and women’s brain health specialist.

In a new The Journal of Clinical Investigation review, the renowned AD expert noted that menopause can change brain biology and metabolism and may contribute to amyloid plaques and tau tangles, which are key biological markers of AD.

Alzheimer disease is the most common cause of dementia, affecting over 55 million individuals worldwide, with projections exceeding 150 million by 2050 . Out of the reported cases, nearly two-third are made up of women, with the majority being postmenopausal women

Estrogen protects the brain by lowering inflammation, increasing neuronal survivals supporting non-amyloidogenic processing, and reducing amyloid-beta-related neurotoxicity, all of which are factors contributing to the development of AD.

However, when estrogen levels drop during menopause and follicle-stimulating hormone (FSH) and luteinizing hormone (LH) rise, the brain becomes more likely to develop AD-related damage.

Previous research has also shown that early menopause, especially before age 45, is linked with increased risk of dementia and the removing the ovaries before natural menopause could increase long-term dementia risk, with the greatest excess risk seen at younger ages, especially before 45.

READ MORE: Simple Blood Test Can Predict Dementia Risk in Women 25 Years Before Symptoms

What Is Alzheimer’s Disease?

Alzheimer's disease is one of the most common forms of dementia and mostly affects adults over the age of 65.

About 8.8 million Indians aged 60 and above are estimated to be living with Alzheimer's disease. Over seven million people in the US 65 and older live with the condition and over 100,00 die from it annually.

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

Amyloid protein molecules stick together in brain cells, forming clumps called plaques. At the same time, tau proteins twist together in fiber-like strands called tangles. The plaques and tangles block the brain's neurons from sending electrical and chemical signals back and forth.

Over time, this disruption causes permanent damage in the brain that leads to Alzheimer's disease and dementia, causing patients to lose their ability to speak, care for themselves or even respond to the world around them.

While there is no clear cause of Alzheimer's disease, experts believe it can develop due to genetic mutations and lifestyle choices, such as physical inactivity, unhealthy diet and social isolation.

Early symptoms of Alzheimer's disease include forgetting recent events or conversations. Over time, Alzheimer's disease leads to serious memory loss and affects a person's ability to do everyday tasks.

There is no cure for this progressive brain disorder and in advanced stages, loss of brain function can cause dehydration, poor nutrition or infection. These complications can result in death.

Can You Detect Alzheimer's Early On?

The US Food and Drug Administration has approved the use of a blood test which can help diagnose Alzheimer’s disease in adults aged 55 and above.

The blood test, known as Lumipulse, can detect amyloid plaques associated with Alzheimer’s disease and has proven to be a “less invasive option” that “reduces reliance on PET scans and increases diagnosis accessibility.”

FDA Commissioner Martin A. Makary said of the landmark decision, "Alzheimer’s disease impacts too many people, more than breast cancer and prostate cancer combined.

"Knowing that 10 percent of people aged 65 and older have Alzheimer's, and that by 2050 that number is expected to double, I am hopeful that new medical products such as this one will help patients."

It remains unclear when this test will be available for commercial use across the world.