Growing tissues can crack, break, and dissociate to form structures that can later withstand immense forces.

Two of the researchers were also the first to create ovarian organoids from mouse embryonic stem cells, in 2021.

A team led by University of Osaka researchers has developed a technique to generate testes from mouse embryonic stem cells ...

In essence, their success proves that brain organoids are capable of goal-directed learning, similar to the kind of trial-and ...

A Japanese team of researchers has developed miniaturized testicular tissues known as testicular organoids from mouse embryonic stem cells in an experimental vessel, marking a world first. The ...

Understanding how a healthy brain works can provide insight into how it fails, too. Scientists hope that studying organoids derived from humans with neurodevelopmental disorders — particularly ...

New treatments for male infertility could widen therapeutic options and possibly shift the treatment burden from women.

Researchers at the MRC Laboratory of Medical Sciences (LMS) and Imperial College London have shown for the first time that, before they can start developing into egg and sperm cells, the embryonic ...

Researchers in the Division of Nutritional Sciences have identified a molecular mechanism that constrains skeletal muscle regeneration and myofiber ...

Review Suggests Gut Microbiome Influences Response to GLP-1 Drugs What if the reason some people lose more weight—or see better blood sugar control—on ...

A Vlaams Institute of Biotechnology–Ghent University Center for Inflammation Research team has identified a previously unknown cellular barrier within the choroid plexus which clarifies how the ...

A new study suggests that the Agouti gene in the brains of male African striped mice can act as a molecular "switch," making ...