Robotics

Robot mimics vertebrate motion

Based on X-ray videos, EPFL scientists have invented a new robot that mimics the way salamanders walk and swim with unprecedented detail: a tool for understanding the evolution of vertebrate locomotion.

Engineering

Exoskeleton keeps up with flow on the streets of New York

ReWalk Robotics, is a medical device company which has created ReWalk, an exoskeleton. The company team is focused on exoskeletons that can allow wheelchair-bound people to stand up and walk—not just in the rehab rooms ...

Robotics

Harnessing AI and robotics to treat spinal cord injuries

A study published in Advanced Healthcare Materials, details one team's ground-breaking stabilization of the enzyme Chondroitinase ABC, (ChABC) offering new hope for patients coping with spinal cord injuries.

Robotics

A promising step in returning bipedal mobility

Engineers at Caltech have launched a new research initiative aimed at restoring natural and stable locomotion to individuals with walking deficiencies that result from spinal cord injuries and strokes.

Robotics

Robotic trousers could help disabled people walk again

Could the answer to mobility problems one day be as easy as pulling on a pair of trousers? A research team led by Bristol University's Professor Jonathan Rossiter has recently unveiled a prototype pair of robotic trousers ...

page 2 from 2

Spinal cord

The spinal cord is a long, thin, tubular bundle of nervous tissue and support cells that extends from the brain. The brain and spinal cord together make up the central nervous system. Enclosed within, and protected by, the bony vertebral column, the spinal cord functions primarily in the transmission of neural signals between the brain and the rest of the body, but also contains neural circuits that can independently control numerous reflexes and central pattern generators.

This text uses material from Wikipedia, licensed under CC BY-SA