Researchers in Japan have taken a major step forward in biohybrid robotics by developing a hand powered by lab-grown muscle tissue. A collaborative effort between the University of Tokyo and Waseda ...

Cell sheets are guided to form anchored, scaffold-free constructs for in vitro modeling by providing pillars that act as anchors for otherwise anchorless cell sheets. Credit: Advanced Functional ...

University of Delaware’s Mona Batish is a molecular biologist. She studies circular RNAs formed as a result of so-called molecular mistakes that occur when a strand of RNA — the ribonucleic acid that ...

A new study reveals that vesicles packed with healthy mitochondria can supercharge tissue repair and combat chronic disease, paving the way for next-generation regenerative treatments. Study: ...

When a house is hit by a hurricane, you must first remove the damaged parts before reconstruction can begin. The same applies to our muscles after injuries – and now researchers from Aarhus University ...

A biohybrid hand which can move objects and do a scissor gesture has been built by a team at the University of Tokyo and Waseda University in Japan. The researchers used thin strings of lab-grown ...

A groundbreaking development has come from researchers at the University of Tokyo and Waseda University in Japan. They've created a biohybrid hand, a fusion of lab-grown muscle tissue and mechanical ...

From the moment we hit our early thirties, our bodies begin a subtle transformation that intensifies as we enter our senior years. This natural process, medically termed sarcopenia, involves the ...