Recent advancements in technology have revolutionized the world of assistive and medical tools, and prosthetic limbs are no exception. We've come a long way from the rigid, purely cosmetic prosthetics ...

Prosthetic hands have long struggled to replicate the dexterity and functionality of natural hands, often limiting users to a single grasp function at a time. This limitation has made everyday tasks, ...

Upper-limb amputees often struggle with everyday tasks due to their limited dexterity. The existing prosthetic hands often lack the fine motor skills and natural movement required for truly ...

Robotic prosthetic ankles that are controlled by nerve impulses allow amputees to move more 'naturally,' improving their stability, according to a new study. Robotic prosthetic ankles that are ...

Editor’s note: Innovation Thursday – a deep dive into a newly emerging technology or companies – is a regular feature at WRAL TechWire. RALEIGH – Robotic prosthetic ankles that are controlled by nerve ...

Scientists have developed a robotic prosthetic hand that offers precision fingertip control. The ultra-light system offers shape-adaptive gripping through simple motion commands. Using an innovative ...

Not that long ago, the concept of the bionic human seemed far-fetched, but wearable robotic suits, brain-controlled extra limbs and mind-operated wheelchairs are now under active development. They ...

A newly developed Robotic Prosthetic Leg by North Carolina State University and the University of North Carolina improves amputees' movement to the point that it returns the subject to instinctively ...

Robotic prosthetic ankles that are controlled by nerve impulses allow amputees to move more "naturally," improving their stability, according to a new study from North Carolina State University and ...

This story on neuro-prosthetics is part of an extended series on Regenerative Medicine. For other stories on this topic see williamhaseltine.com and search for Regenerative Medicine. My definition of ...

Demonstration of the robotic prosthetic ankle. Electromyographic sensors (on calf at left) capture electrical activity generated by muscles when they are flexed. This signal tells the prosthesis which ...