Researchers just discovered super stem cells capable of resetting themselves back to a stronger, younger version.

This is known as regenerative medicine. In this study, researchers have created a new culture medium for embryonic stem cells (ESCs) from mice. Simply put, they replaced a type of sugar in the ...

Understanding how cells differentiate during early embryonic development is crucial for advancing regenerative medicine and developmental biology. Pluripotent stem cells (PSCs) have been invaluable ...

Using embryonic stem cells (ESCs) from mice, the team replaced glucose with galactose in culture media. By changing their nutrient source, the ESCs are reprogrammed into an earlier stage of ...

Researchers from the University of Copenhagen have successfully created stem cells that are better at developing into other cell types, like a younger, fitter version of themselves – by changing their ...

Two small clinical trials tested the safety of injecting stem cells into the brains of Parkinson's patients and found no adverse effects ...

The findings were published in the journal Nature. "The study showed that developing specific nerve cells from human embryonic stem cells in the lab, then injecting them in the brain of people ...

investigate the use of cells derived from human induced pluripotent stem cells and human embryonic stem cells, respectively. However, further research is needed to test the effectiveness and ...

The treatment involved creating nerve cells (neurons) derived from embryonic stem cells and transplanting them into the brains of 12 Parkinson's patients. The injected cells produce a chemical ...

They also developed a feeder-free culture system ... and could advance stem cell research and regenerative medicine. Understanding how cells differentiate during early embryonic development ...