But the performance of the technology—how easily and accurately a BCI user’s thoughts move a cursor, for example—is limited ...

A biohybrid hand which can move objects and do a scissor gesture has been built by a team at the University of Tokyo and ...

Combining lab-grown muscle tissue with a series of flexible mechanical joints has led to the development of an artificial ...

Myris Therapeutics™ emerged from stealth today to announce its strategic focus. Myris, formerly known as BioHybrid Solutions, ...

The Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) and NTT Research, Inc., a division of NTT, announced the publication of research showing an application of ...

Researchers have developed a biohybrid hand, known as MuMuTAs, using bundles of lab-grown muscle tissue. This innovative ...

When stimulated electrically, the muscles contract, pulling fine wires that bend the fingers. However, much like human muscles, fatigue sets in after about 10 minutes of use, with an hour required for ...

Japanese researchers have developed the first biohybrid hand capable of performing complex gestures using human muscle tissue ...

Here’s hoping you choose rock, because a new remarkable biohybrid has just perfected the scissors sign thanks to multiple muscle tissue actuators (MuMuTAs) that are bringing us closer to larger ...

The complex combination of movements required for this simple scissor gesture is a big step up from the capabilities of previous biohybrid robots. A biohybrid hand which can move objects and do a ...

Applying a machine learning approach, the researchers created mini biohybrid rays made of cardiomyocytes (heart muscle cells) and rubber with a wingspan of about 10 mm that are approximately two ...

Application of machine-learning direct optimization (ML-DO) demonstrates superior design approach and improved swimming speeds and efficiency of biohybrid rays Scientists target future cases of ...