Researchers have developed a neural interface for a prosthetic robotic arm that works in real-world situations, scientists report this week in the journal Nature. To use the technique, thin, hairlike electrodes are inserted into neuronal pathways in the motor cortex to pick up brain signals. Software in the interface was able to decode the motor signals in the brains of two monkeys, and use those signals to direct the movement of a human-like robotic arm.
The monkeys were able to use the arm to perform tasks such as feeding themselves -- and, the researchers say, the monkeys appear to regard the robotic device as part of their own bodies. We'll talk about the research, and what it might mean for people.
Produced by Annette Heist, Senior Producer