fMRI Shows Wave of Brain Activity Tied to Anticipation

In the February 25, 2009, issue of the Journal of Neuroscience, investigators from Georgetown University Medical Center (Washington DC, USA) reported that this neural telepathy involves strong activity in areas of the brain responsible for preparing the body to move. The findings were made by using functional magnetic resonance imaging (fMRI) scanning in a group of student volunteers who brought with them favorite music CDs. The scientists examined brain images during the silence between songs, and found it full of activity. Other students who listened to music they had never heard in sequence before did not have that same neural bustle.

"This now explains how it is that, even before an anticipated song is actually heard, a person can start to tap fingers, dance, or sing to the music they imagine is coming next,” stated Josef Rauschecker, Ph.D., director of the Program in Cognitive and Computational Sciences (PICCS), Georgetown University Medical Center.

While it makes sense that song sequences can be memorized and thus anticipated by a listener, no one before has ever validated the brain activity that is underway in the silence between songs, according to Dr. Rauschecker. "The brain is all about anticipation and prediction, yet no one has shown what that looks like in terms of neural action,” remarked Dr. Rauschecker. He added that this same process, known as cued associative learning, likely happens whenever a human is expecting any particular action to occur, be it in sports, music, or language.

"It is how a skier is mentally prepared to go down a familiar course during the Olympics, or how a piano player knows to move fingers along the keyboard to hit the next correct key,” Dr. Rauschecker stated. This sounds simple, but it is not, he reported. "It is not trivial to store a temporal sequence in the brain, because the brain doesn't have any moving parts like a tape recorder or CD player. The whole brain needs to be involved because it has to be ready to execute that sequence.”

In the students who knew the order of songs on their CD, the researchers discovered that during the anticipatory silence between the songs excitatory signals passed from the prefrontal cortex to the nearby premotor cortex. The prefrontal cortex is the brain's "executive” center, which plans and controls complex cognitive behaviors. The premotor cortex and its associated systems, which include the basal ganglia and the cerebellum, is involved in preparing the body to act--perhaps to move or to sing.

"These structures are involved in both thinking and acting, and it appears that music patterns are being stored and learned here,” Dr. Rauschecker commented. "We hadn't anticipated that. We didn't know the premotor areas would be involved.”

All animals have some ability to cognitively predict motor activity, Dr. Rauschecker reported. "That's why a bird can sing. But humans are the most associative of animals, which is why we have such a large prefrontal cortex. We have a lot of sequences that we need to store in order to predict what we should do.”

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