They found that the time of day influenced inflammatory response levels in stem cells, which signal to neutrophils — the ...

A new process, named STAMP, from MIT which uses 3D printing could help researchers to properly align fibers in artificial ...

Leveraging the power of AI and machine learning technologies, researchers at Weill Cornell Medicine developed a more ...

Leveraging the power of AI and machine learning technologies, researchers at Weill Cornell Medicine developed a more ...

The mammalian immune system is an evolutionary wonder. It's capable of recognizing and destroying cancer cells, and it can ...

For millions of people, losing muscle isn't just about weakness; it's about losing independence. Whether caused by Duchenne muscular dystrophy, aging or other degenerative conditions, muscle loss can ...

Cells constantly shift and transform, triggering the complex choreography that shapes living organisms. Whether dividing into new cells or sculpting an embryo, these tiny movements rely on chemical ...

For millions of people, losing muscle isn't just about weakness; it's about losing independence. Whether caused by Duchenne muscular dystrophy, aging ...

The bioenergetic requirements of muscle stem cells (satellite cells) during homeostasis and regeneration remain ill-defined. Here, genetics combined with multi-omics analyses reveal an essential role ...

A team of MIT researchers recently created the first synthetic muscle actuator that can flex in multiple directions. This study opens the door for more capable soft robots and other advanced medical ...

A team has discovered a possible therapeutic approach to repair injured muscles either from aging or degenerative muscle disorders.