Music Fires Up Emotions in the Brain

Music Fires Up Emotions in the Brain

By RICK NAUERT PHD Senior News Editor

Reviewed by John M. Grohol, Psy.D. on December 21, 2010

In a new study using brain imaging, researchers have identified how key aspects of musical performance cause emotion-related brain activity.

Edward Large, Ph.D., the study’s principal investigator, and Heather Chapin, Ph.D., the lead author, believe that their study pinpoints how musical performances charge up the brain’s emotional centers, and said that their technique will lead to new ways of studying responses to music and other emotional stimuli.

The researchers first recorded an expert musician’s performance of Frédéric Chopin’s Étude in E-Major, Op. 10, No. 3 on a computerized piano (the “expressive” performance), then they synthesized a version of the same piece using a computer, without the human performance nuances (the “mechanical” performance).

Both versions had the same musical elements — melody, harmony, rhythm, average tempo and loudness — and both were recorded on the same piano.

But only the expressive performance included dynamic changes in tempo and loudness, the performance variations that pianists use to evoke emotional responses. In the listening study, Large and Chapin used participants with an affinity for music.

They combined behavioral analysis with fMRI neuroimaging, a specialized MRI scan which measures change in blood flow related to neural activity in the brain, as participants listened to both performances. The listening study was conducted in three parts.

First, participants reported their emotional responses in real-time using specialized computer software. Immediately after providing their emotion ratings, they were placed in the fMRI and instructed to lie motionless in the scanner with their eyes closed and asked to listen to both versions of the music without reporting their emotional response. Immediately following the fMRI, they performed the emotion rating assignment again.

“We deliberately implemented these three steps in our study to ensure the consistency of the emotions our participants reported in the behavioral study with the results of the fMRI,” said Large.

The fMRI served as a critical tool to examine which areas of the brain “lit up” in response to the music. The analysis of brain activity compared responses to the expressive performance with responses to the mechanical performance, and responses of experienced listeners with those of inexperienced listeners. It also compared the tempo changes of the performance to the brain activations of listeners in real-time.

The results from this study have confirmed the hypothesis that the human touch of an expressive performance by a skilled pianist evokes emotion and reward-related neural activity. Furthermore, musically experienced listeners were found to have increased activity in the emotion and reward centers of the brain.

“Our experienced listeners were not professional musicians, but did have experiences performing music, such as singing in a choir or playing in a band,” said Large.

“The fMRI data suggests that experienced listeners get a greater charge out of the music, although we can’t say from this data whether the increased neural activation is due to their experience or whether these individuals seek out musical experiences because they derive greater pleasure from music.”

Perhaps most interestingly, the results also revealed neural activity that followed performance nuances in real-time.

These activations occurred in the motor networks of the brain that are thought to be responsible for following the beat of the music and in the brain’s mirror neuron system. The human mirror neuron system appears to play a fundamental role in both understanding and imitating action. This system is “fired up” when someone observes an action they can do being performed by someone else.

“It had previously been theorized that the mirror neuron system provides a mechanism through which listeners feel the performer’s emotion, making musical communication a form of empathy,” said Large. “Our results tend to support that hypothesis.”

The study is published in the journal PLoS One.

Source: Florida Atlantic University

For more on the effects of music to our brain here is an article on Our Brain Enjoys More When Music is Played Live by a Musician rather than a Computer

And here is on on Changing perceptive emotions in music

 

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