That's exactly what researchers and surgeons at the University of Utah's John A. Moran Eye Center and the John and Marcia ...

Developed by Johns Hopkins University researchers, the bionic hand identified and manipulated 15 everyday objects, including ...

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

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

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

The system's hybrid design is a first for robotic hands, which have typically been too rigid or too soft to replicate a human's touch when handling objects of varying textures and materials. The ...

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

Researchers at Johns Hopkins University have come up with a better prosthetic hand that uses a hybrid design to carefully grip various objects with just the right amount of pressure.

A recent breakthrough in robotics could help amputees regain some of their lost capabilities. The new prosthetic hand design combines layers of sensors with a hybrid robotic structure and machine ...

Researchers unveiled a new soft prosthetic hand that combines the natural coordination patterns of our fingers with the decoding of motoneuron activity in the spinal column.

Johns Hopkins University engineers have developed a pioneering prosthetic hand that can grip plush toys, water bottles, and other everyday objects like a human, carefully conforming and adjusting its ...

That's why a hybrid robot, designed like the human hand, is so valuable -- it combines soft and rigid structures, just like our skin, tissue, and bones." Other authors include Wen-Yu Cheng of ...