Once the team made MuMuTAs work, they used five of them to actuate multi-jointed fingers in a robotic hand.

The hand is made of a 3D-printed plastic base, with tendons of human muscle tissue which move the fingers. Until now, biohybrid devices have typically been on a much smaller scale (about 1 ...

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

A team of engineers has recently created a breakthrough prosthetic hand that can deftly handle everyday objects.

Learn about the groundbreaking bionic hand that provides sensory feedback, and outperforms traditional prosthetics in accuracy.

Poland-based Clone Robotics designed the Protoclone with a polymer skeleton that replicates 206 human bones. The company built the robot with the hopes that it will one day be able to operate human ...

Combining lab-grown muscle tissue with a series of flexible ... Perhaps most fascinating of all, the team found that, just like a human hand, the biohybrid model got "tired" after being used ...

This new bionic hand is a big step forward. It translates touch signals into nerve-like messages, helping the brain ...

Pioneering prosthetic hand carefully conforms and adjusts its grasp to avoid damaging or mishandling whatever it holds ...

The hand is made of a 3D-printed plastic base, with tendons of human muscle tissue which move the fingers. Until now, biohybrid devices have typically been on a much smaller scale (about 1 ...