Kurt “CyberGuy" Knutsson talks about how lab-grown muscles power a biohybrid hand for scalable prosthetics and research.

A robotic hand powered by lab-grown muscle tissue can now perform delicate gestures—like the classic scissor move in rock-paper-scissors—thanks to a breakthrough from researchers at the University of ...

While the soft mechanics and tunable cell interactions facilitated by hydrogels have attracted significant interest in the development of functional hydrogel-based tissue engineering scaffolds, ...

Xolography is a novel light printing technique that has been explored for dental products and in-space manufacturing. At ...

A research team at the University of Illinois says it's developed a bioprinted cardiac tissue that can be remotely stimulated ...

Combining lab-grown muscle tissue with a series of flexible mechanical joints has led to the development of an artificial hand that can grip and make gestures. The breakthrough shows the way ...

In response to these challenges, the integration of bio-functional materials within cardiac tissue engineering has emerged as a groundbreaking approach with significant potential for cardiac tissue ...

Empa researchers are working on producing artificial muscles that can keep up with the real thing. They have now developed a ...

Indian American researcher is recognized for discovery and development of regenerative and rehabilitative solutions ...

Researchers have been studying zebrafish, small fish that can regrow parts of their body, including the heart and brain.

The researchers used thin strings of lab-grown muscle tissue bundled into sushilike rolls to give the fingers enough strength to contract. These multiple muscle tissue actuators (MuMuTAs), created ...