Click it and Unblock the Notifications
Latest Updates
-
Purported Video of Muslim Mob Lynching & Hanging Hindu Youth In Bangladesh Shocks Internet -
A Hotel on Wheels: Bihar Rolls Out Its First Luxury Caravan Buses -
Bharti Singh-Haarsh Limbachiyaa Welcome Second Child, Gender: Couple Welcome Their Second Baby, Duo Overjoyed - Report | Bharti Singh Gives Birth To Second Baby Boy | Gender Of Bharti Singh Haarsh Limbachiyaa Second Baby -
Bharti Singh Welcomes Second Son: Joyous News for the Comedian and Her Family -
Gold & Silver Rates Today in India: 22K, 24K, 18K & MCX Prices Fall After Continuous Rally; Check Latest Gold Rates in Chennai, Mumbai, Bangalore, Hyderabad, Ahmedabad & Other Cities on 19 December -
Nick Jonas Dancing to Dhurandhar’s “Shararat” Song Goes Viral -
From Consciousness To Cosmos: Understanding Reality Through The Vedic Lens -
The Sunscreen Confusion: Expert Explains How to Choose What Actually Works in Indian Weather -
On Goa Liberation Day 2025, A Look At How Freedom Shaped Goa Into A Celebrity-Favourite Retreat -
Daily Horoscope, Dec 19, 2025: Libra to Pisces; Astrological Prediction for all Zodiac Signs
Covid-19 Severity Among Elderly May Be Due To Genetic Reasons, Study Reveals
Genetically predetermined limits on the immune system may be the key to why COVID-19 has such a devastating effect on the elderly, according to a modelling study.
Researchers at the University of Washington (UW) in the US noted that the immune system's ability to combat COVID-19, like any infection, largely depends on the replication of the immune cells effective at destroying the SARS-CoV-2 virus that causes the disease.
The study, published recently in The Lancet eBioMedicine journal, suggests that the body's ability to produce these cloned immune cells, which cannot be infinitely created, falls off significantly in old age.
"When DNA split in cell division, the end cap -- called a telomere -- gets a little shorter with each division," said professor James Anderson, a modeller of biological systems at UW.
"After a series of replications of a cell, it gets too short and stops further division. Not all cells or all animals have this limit, but immune cells in humans have this cell life," Anderson said in a statement.
The average person's immune system coasts along pretty good despite this limit until about 50 years old, the researchers said.
That is when enough core immune cells, called T cells, have shortened telomeres and cannot quickly clone themselves through cellular division in big enough numbers to attack and clear the COVID-19 virus, which has the trait of sharply reducing immune cell numbers, they said.
According to Anderson, telomere lengths are inherited from parents.
There are some differences in these lengths between people at every age as well as how old a person becomes before these lengths are mostly used up.
"Depending on your parents and very little on how you live, your longevity or, as our paper claims, your response to COVID-19 is a function of who you were when you were born," he said.
To build their model, the researchers used publicly available data on COVID-19 mortality from the Center for Disease Control and US Census Bureau and studies on telomeres, many of which were published by the co-authors over the past two decades.
Assembling telomere length information about a person or specific demographic could help doctors know who was less susceptible, the researchers said.
The doctors could allocate resources, such as booster shots, according to which populations and individuals may be more susceptible to COVID-19, they added.
Disclaimer: The information provided in this article is for general informational and educational purposes only and is not intended as a substitute for professional medical advice, diagnosis, or treatment. Always seek the advice of your physician or a qualified healthcare provider with any questions you may have regarding a medical condition.
Continue with Google