Neuroprosthesis gives rats the ability to ‘touch’ infrared light

Researchers have given rats the ability to “touch” infrared light, normally invisible to them, by fitting them with an infrared detector wired to microscopic electrodes implanted in the part of the mammalian brain that processes tactile information. The achievement represents the first time a brain-machine interface has augmented a sense in adult animals, said Duke University neurobiologist Miguel Nicolelis, who led the research team.

The experiment also demonstrated for the first time that a novel sensory input could be processed by a cortical region specialized in another sense without “hijacking” the function of this brain area said Nicolelis. This discovery suggests, for example, that a person whose visual cortex was damaged could regain sight through a neuroprosthesis implanted in another cortical region, he said.

Although the initial experiments tested only whether rats could detect infrared light, there seems no reason that these animals in the future could not be given full-fledged infrared vision, said Nicolelis. For that matter, cortical neuroprostheses could be developed to give animals or humans the ability to see in any region of the electromagnetic spectrum, or even magnetic fields. “We could create devices sensitive to any physical energy,” he said. “It could be magnetic fields, radio waves, or ultrasound. We chose infrared initially because it didn’t interfere with our electrophysiological recordings.”

Nicolelis and colleagues Eric Thomson and Rafael Carra published their findings February 12, 2013 in the online journal Nature Communications. Their research was sponsored by the National Institute of Mental Health.