The Witcher 4 sees Red Dead Redemption 2's horse anatomy and submits "realistic muscles moving and stretching" under the skin of Ciri's horse Kelpie News By Anna Koselke published 3 June 2025 ...

The biohybrid hand operates using “MuMuTAs” (multiple muscle tissue actuators), which are bundles of thin, lab-grown muscle fibers rolled into cylindrical shapes, reminiscent of sushi rolls.

A “biohybrid” robotic hand built using real human muscle cells A real bit of cyborg hardware highlights the technology's current limitations.

Researchers have developed a 3D printing method for soft actuators, paving the way for artificial muscles in robotics, prosthetics, and VR tech.

Researchers print functional artificial muscles with 3D printer Artificial muscles can replace servomotors, for example, or be used in medicine. However, production is not easy.

The artificial muscles are designed to simulate the gripping of objects through resistance. However, there are far more potential applications for soft actuators.

Empa researchers are working on artificial muscles that can keep up with the real thing. They have now developed a method of producing the soft and elastic, yet powerful structures using 3D ...

Video 'CyberGuy': 2025 Terminator lab-grown muscle brings biohybrid robot hand to life Kurt Knutsson talks about how lab-grown muscles power a biohybrid hand for scalable prosthetics and research.

Scientists in Japan have developed a robotic hand eerily reminiscent of The Terminator. The innovation marks a major step toward realistic prosthetics, moving us closer to sci-fi-style robotic ...

Scientists in Japan have developed a robotic hand eerily reminiscent of The Terminator. The innovation marks a major step toward realistic prosthetics, moving us closer to sci-fi-style robotic limbs.

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 ...

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-centimeter ...