While EEG records the electrical activity along the scalp, EROS uses infrared light passed through optical fibers to measure changes in optical properties in the active areas of the cerebral cortex. Because of the hard skull between the EEG sensors and the brain, it can be difficult to find exactly WHERE signals are produced. EROS, which examines how light is scattered, can noninvasively pinpoint activity within the brain.
"EROS is based on near-infrared light," explained Fabiani and Gratton via email. "It exploits the fact that when neurons are active, they swell a little, becoming slightly more transparent to light: this allows us to determine when a particular part of the cortex is processing information, as well as where the activity occurs."
This allowed the researchers to not only measure activity in the brain, but also allowed them to map where the alpha oscillations were originating. Their discovery: the alpha waves are produced in the cuneus, located in the part of the brain that processes visual information.
The alpha can inhibit what is processed visually, making it hard for you to see something unexpected.
By focusing your attention and concentrating more fully on what you are experiencing, however, the executive function of the brain can come into play and provide "top-down" controlputting a brake on the alpha waves, thus allowing you to see things that you might have missed in a more relaxed state.
"We found that the same brain regions known to control our attention are involved in suppressing the alpha waves and improving our ability to detect hard-to-see targets," said Diane Beck, a member of the Beckman's Cognitive Neuroscience Group, and one of the study's authors.
"Knowing where the waves originate means we can target that area specifically with electrical stimulation" said Mathewson. "Or we can also give people moment-
|Contact: Maeve Reilly|
Beckman Institute for Advanced Science and Technology