Around the globe, heart disease remains one of the top causes of death. Once patients begin to suffer from serious heart ...

The human brain can do many amazing things, but self-repair is not one of its repertoire of abilities. Once neurons die—from trauma, stroke, or disease—they rarely grow back.

Researchers at Science Tokyo have created a lab-grown liver organoid that mimics regeneration and scarring, offering a new ...

Regulatory mechanisms governing stem cell quiescence in glandular organs remain ill-defined. Here, multi-omics profiling ...

Mayo Clinic researchers have developed a pioneering method to mend damaged hearts without open-heart surgery, an advance that ...

By electrically stimulating macrophages, scientists at Trinity College Dublin have found a way to calm inflammation and ...

Teeth naturally wear down over time, but scientists have found that they could signal certain cells to regrow bones, opening ...

Totipotent Cells: Often regarded as the "holy grail" of stem cell biology, these cells can develop into any type of cell in the body, offering vast possibilities for tissue regeneration.

The lab-made 3D liver model serves as a human relevant platform for analyzing the progressive stages of the liver disease, ...

While humans can regularly replace certain cells, like those in our blood and gut, we cannot naturally regrow most other parts of the body. For example, when the tiny sensory hair cells in our inner ...