An international study led by Paolo Fiorina from Boston Children's Hospital and in collaboration with researchers from the ...

By comparing young and aged mouse intestinal tissues, the researchers uncovered critical insights into the interplay between these signaling pathways in supporting stem cell maintenance over time.

The (a) intestine, (b) esophagus and (c) stomach are shown. Quiescent stem cells (d) through asymmetric division probably give rise to more rapidly dividing active stem cells, which then produce ...

we delve into the intricate mechanisms employed by intestinal cells to secure the vital nutrients and metabolic resources essential for preserving intestinal stem cell fate and function. And, how ...

We spatiotemporally pattern these cues using photoinduced degradation, viscoelasticity, and bond formation to study how intestinal stem cell colonies respond to alterations in geometric confinement, ...

An international study led by Paolo Fiorina from Boston Children's Hospital and in collaboration with researchers from University of Milan highlights ...

An international study led by Paolo Fiorina from Boston Children's Hospital and in collaboration with researchers from University of Milan highlights the beneficial effect of inhibiting the death ...

Compared to the offspring of control mice, pups from Am-exposed mothers exhibited increased neurogenesis, or the formation of new neurons from neural stem cells, as well as a higher number of ...

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

Due to the development of research methods since the early 21st century, it has been possible to demonstrate the existence of stem cells in nearly all organs. The development has led to the discovery ...