Human cells reprogrammed with Yamanaka factors rejuvenate 30 years
A new method of reprogramming human cells with Yamanaka factors achieves extremely better results than previous ones.
A new method of reprogramming human cells with Yamanaka factors achieves extremely better results than previous ones.
Grow furniture instead of building it? That's what they're trying to find out at MIT, growing wood in the laboratory as meat is done today, and without trees being felled.
Aging and lifespan, the goals of much scientific research. The most recent identifies a gene therapy that could also work in humans
Breast milk has many nutrients and some mysteries. Biomilq and other companies work to reproduce it in the laboratory: here's how.
DMT, dimethyltryptamine, a drug used in shamanic rituals, is able to promote the formation of new brain cells by improving (in studies on mice) memory and cognitive ability.
Glutamine appears to play a formidable role in muscle regeneration. Not only in case of damage, but also due to degeneration and aging. A study appears to have found a key to unlocking its power.
The 2020 Nobel Prize for Chemistry goes to the women scientists who made the most important discovery of the last decade: CRISPR can change our future.
Groundbreaking results from a University of California, Berkeley study open up the possibility of diluting plasma and its harmful proteins to reverse aging
In laboratory tests, the team restored motor function in mice affected by multiple sclerosis.
A team from the University of East London has identified anti-aging proteins called Gaf1 that are particularly related to longevity.
They possess factors that man also has, but they use them in surprising ways. Here are the animals that know how to live forever, or stay young for a long time.
Resetting the cellular age of cells from a supercentenarian is a significant step toward understanding the mechanisms of extreme longevity and disease resistance.
Hard times for scientific popularization with coronavirus. Yet the future still exists, and continues to advance: this good news reminds us.
A new method makes human organ tissues completely transparent: an important step towards reducing the wait for transplants.
Research created to understand the phenomenon of gray hair has led to a new paradigm on stem cells. It could give us the cure for aging.
An expert neurosurgeon develops a medical hypothesis on head transplantation, and expects it to be feasible within the next ten years.
Rapamycin continues to amaze: after having slowed down the aging of mice and other species, in the first study on human tissues it also shows that it counteracts skin aging. And it's just the beginning.
Results from in vivo tests directly on humans, data on cancer patients and more: gene editing faces its future
The long-lived wave will overwhelm medicine, industry and commerce. Delaying or stopping aging and death will be the most complex undertaking in human history.
Increase telomere length and longevity in mice for the first time, and without any genetic alterations or side effects
The importance of creating a human liver from a skin sample? Huge: it will be possible to create mini-organs to test treatments on humans without risk.