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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.
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.
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.
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.
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Blood cancers are among the most challenging, but advances in treatments, such as targeted therapies, advanced transplantation techniques, and increasingly customized approaches, are offering a new ray of hope for patients. Among these innovations, Chimeric Antigen Receptor T-cell therapy, commonly known as CAR-T cell therapy, represents one of the most important breakthroughs in modern cancer care in recent times.
Unlike conventional treatments that directly target cancer cells, CAR-T cell therapy harnesses the patient's immune system to identify and attack cancer. It is a powerful example of how medicine is moving towards personalized treatment strategies that are designed around an individual's disease biology.
To understand CAR-T therapy, it is important to understand the role of T-cells. These are specialized immune cells responsible for recognizing and eliminating abnormal cells in the body. In some blood cancers, cancer cells develop mechanisms that allow them to evade immune surveillance. CAR-T therapy addresses this challenge by genetically modifying a patient's T-cells in a laboratory to recognize specific proteins present on cancer cells.
The process begins with the collection of T-cells from the patient's blood through leukapheresis. These cells are then engineered to express specialized receptors, called chimeric antigen receptors (CARs), which enable them to recognize cancer cells more effectively. Once modified and multiplied, the cells are infused back into the patient's bloodstream, where they seek out and destroy cancer cells.
Currently, CAR-T cell therapy has shown encouraging results in several blood cancers, including certain forms of acute lymphoblastic leukemia, diffuse large B-cell lymphoma (DLBCL), mantle cell lymphoma, follicular lymphoma, and multiple myeloma. For some patients whose disease has relapsed after multiple lines of treatment or failed to respond to conventional therapies, CAR-T therapy has offered a valuable new treatment option.
One of the most promising aspects of CAR-T therapy is its potential for durable responses. In selected patients, the engineered immune cells can continue to remain active within the body, providing ongoing surveillance against cancer recurrence. While every patient may not experience the same outcome, the ability to achieve long-lasting remission in heavily pre-treated cancers has generated significant optimism within the oncology community.
All that being said, CAR-T therapy is a highly specialized treatment that requires careful patient selection and close monitoring. Some patients may also experience side effects such as cytokine release syndrome (CRS), neurological complications, or temporary suppression of normal blood cell production. Fortunately, advances in supportive care and growing clinical experience have substantially improved the management of these complications.
Researchers across the world are working on next-generation CAR-T platforms designed to improve effectiveness, reduce toxicity and expand treatment eligibility. Investigational approaches include "off-the-shelf" CAR-T products derived from healthy donors, dual-target CAR-T cells capable of recognizing multiple cancer markers, and therapies aimed at overcoming treatment resistance.
Scientists have also been exploring the potential of CAR-T therapy in other blood cancers and even selected solid tumors. While significant challenges remain, ongoing research continues to push the boundaries of what immune-based therapies can achieve. As research advances and access continues to improve, CAR-T cell therapy is expected to play a very important role in the future of blood cancer care. For patients, families, and clinicians alike, it represents a powerful reminder that innovation continues to redefine what is possible in the fight against cancer.
(By Dr. Dinesh Bhurani, Director – Hemato-Oncology & Bone Marrow Transplant, Rajiv Gandhi Cancer Institute & Research Centre (RGCIRC))
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Keeping your cholesterol levels in a healthy range is one of the best things you can do for your heart. High cholesterol is a major risk factor for heart disease, but the good news is that what you eat can make a significant difference. While some people may need medication, research shows that certain foods can naturally help lower LDL cholesterol and support overall cardiovascular health.
One of the easiest places to start is with oats. Oats are packed with a soluble fiber called beta-glucan, which helps reduce the amount of cholesterol absorbed into your bloodstream. A review published in Nutrients found that regularly eating oat beta-glucan can lead to meaningful reductions in LDL cholesterol, especially when combined with an overall heart-healthy diet.
Legumes such as beans, lentils, and chickpeas are another powerful addition to your plate. They're rich in fiber and plant-based protein, making them an excellent alternative to processed meats and other foods high in saturated fat. Research has consistently linked regular legume consumption with lower LDL cholesterol levels and better heart health.
Nuts also deserve a place in a cholesterol-friendly diet. Almonds, walnuts, and other tree nuts provide healthy unsaturated fats, fiber, and antioxidants. According to studies published in the American Journal of Clinical Nutrition, moderate nut consumption can help improve cholesterol levels and support cardiovascular health.
Fatty fish like salmon, sardines, and mackerel are well known for their heart-protective benefits. These fish are rich in omega-3 fatty acids, which can help lower triglycerides and support healthy blood vessels. The American Heart Association recommends eating fatty fish at least twice a week as part of a balanced diet.
Fruits and vegetables remain some of the most important foods for maintaining healthy cholesterol levels. Apples, berries, oranges, leafy greens, and broccoli provide fiber, vitamins, antioxidants, and plant compounds that help protect the heart. Numerous studies have shown that diets rich in fruits and vegetables are associated with a lower risk of cardiovascular disease.
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Avocados are another heart-smart choice. They contain monounsaturated fats and fiber, both of which can help improve cholesterol levels when used in place of foods high in saturated fat. A clinical study published in the Journal of the American Heart Association found that people who ate one avocado daily experienced greater reductions in LDL cholesterol than those following similar diets without avocado.
The bottom line is that controlling cholesterol doesn't require a drastic diet overhaul. Small, consistent changes—such as eating more whole grains, legumes, nuts, fruits, vegetables, fatty fish, and healthy fats—can have a lasting impact on heart health. Combined with regular exercise and other healthy lifestyle habits, these foods can help keep your cholesterol in check and support long-term well-being.

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Sleep is one of the most important factors for overall health and well-being, influencing both physical and mental health. Yet, how much sleep a person actually needs remains a common topic of debate.
Dr Sudhir Kumar, a neurologist at Apollo Hospitals, addressed several misconceptions and shared evidence-based insights about sleep that everyone should know.
In a detailed post on social media platform X, Dr Sudhir said that most adults need 7–9 hours of sleep per night.
While some may function well with slightly less or more sleep, he noted that "regularly sleeping less than six hours or more than 9–10 hours is associated with adverse health outcomes."
While sleep duration is important, sleep consistency is equally important.
"Going to bed and waking up at roughly the same time every day helps regulate your circadian rhythm," he said.
Irregular sleep schedules, on the other hand, are associated with poorer metabolic health, mood disturbances, and daytime sleepiness.
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Dr Sudhir said that most modern adults follow a monophasic pattern, with one main sleep period at night.
However, "a biphasic pattern (night sleep plus a short afternoon nap) can also be healthy if total sleep duration is adequate and the nap does not interfere with nighttime sleep."
Not necessarily, said Dr Sudhir, popularly known as Hyderabaddoc on X, adding that many healthy adults do perfectly well without naps.
However, naps may be particularly useful for:
• Shift workers
• People with sleep debt
• Older adults with increased daytime sleepiness
• Those performing safety-critical tasks requiring sustained alertness
Further, he said that a 10–30-minute nap, also known as a power nap, is usually best, and may help:
• Improve alertness
• Improve concentration
• Reduce fatigue
• Enhance performance
However, naps lasting more than an hour may cause "sleep inertia" (grogginess) and disrupt nighttime sleep in some individuals.
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"Night shift work is not biologically normal," Dr Sudhir said.
Humans are programmed to be awake during the day and asleep at night. Long-term night shift work has been associated with increased risks of:
• Obesity
• Type 2 diabetes
• Cardiovascular disease
• Mood disorders
• Workplace accidents
Dr Sudhir also addressed the common belief that people can make up for lost sleep during weekends.
While "partial recovery is possible," he said weekend catch-up sleep does not fully reverse the effects of chronic sleep deprivation.
Large shifts in sleep timing during weekends, often referred to as "social jet lag," can disrupt circadian rhythms.
He advised keeping wake-up and bedtime within about one to two hours of the weekday schedule.
He also warned against relying on multiple alarms every morning, which according to him "suggests insufficient sleep, poor sleep quality, and circadian misalignment."
Dr Sudhir said regularly sleeping more than 9–10 hours may be associated with higher risks of cardiovascular disease, depression, frailty, and mortality.
At the same time, the neurologist noted that "even one night of inadequate sleep can impair performance".
Short-term sleep deprivation can lead to:
• Reduced attention
• Slower reaction time
• Poor decision-making
• Mood changes
• Increased accident risk
Chronic insufficient sleep is associated with:
• Hypertension
• Type 2 diabetes
• Obesity
• Cardiovascular disease
• Depression and anxiety
• Cognitive decline
• Reduced quality of life
"Sleep is a fundamental biological requirement, just like nutrition and exercise," Dr Sudhir said.
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