Wellness Industry Articles Music and Brain Development news on music and brain development.htm Musicians' Brains 'Fine-Tuned' To Identify Emotion 04 Mar 2009
Looking for a mate who in everyday conversation can pick up even
your most subtle emotional cues? Find a musician, Northwestern
University researchers suggest.
In a study in the latest issue of
European Journal of Neuroscience ,
an interdisciplinary Northwestern research team for the first time
provides biological evidence that musical training enhances an
individual's ability to recognize emotion in sound.
"Quickly and accurately identifying emotion in sound is a skill that
translates across all arenas, whether in the predator-infested jungle
or in the classroom, boardroom or bedroom," says Dana Strait, primary
author of the study.
A doctoral student in the Henry and Leigh Bienen School of Music,
Strait does research in the Auditory Neuroscience Laboratory directed
by neuroscientist Nina Kraus. The laboratory has done pioneering work
on the neurobiology underlying speech and music perception and
learning-associated brain plasticity.
Kraus, Northwestern's Hugh Knowles Professor of Communication Sciences
and Neurobiology; Richard Ashley, associate professor of music
cognition; and Auditory Neuroscience Laboratory manager Erika Skoe
co-authored the study titled "Musical Experience and Neural Efficiency:
Effects of Training on Subcortical Processing of Vocal Expressions in
Emotion."
The study, funded by the National Science Foundation, found that the
more years of musical experience musicians possessed and the earlier
the age they began their music studies also increased their nervous
systems' abilities to process emotion in sound.
"Scientists already know that emotion is carried less by the linguistic
meaning of a word than by the way in which the sound is communicated,"
says Strait. A child's cry of "Mommy!" -- or even his or her wordless
utterance -- can mean very different things depending on the acoustic
properties of the sound.
The Northwestern researchers measured brainstem processing of three
acoustic correlates (pitch, timing and timbre) in musicians and
non-musicians to a scientifically validated emotion sound. The
musicians, who learn to use all their senses to practice and perform a
musical piece, were found to have "finely tuned" auditory systems.
This fine-tuning appears to lend broad perceptual advantages to
musicians. "Previous research has indicated that musicians demonstrate
greater sensitivity to the nuances of emotion in speech," says Ashley,
who explores the link between emotion perception and musical
experience. One of his recent studies indicated that musicians might
even be able to sense emotion in sounds after hearing them for only 50
milliseconds.
The 30 right-handed men and women with and without music training in the
European Journal of Neuroscience
study were between the ages of 19 and 35. Subjects with music training
were grouped using two criteria -- years of musical experience and
onset age of training (before or after age 7).
Study participants were asked to watch a subtitled nature film to keep
them entertained while they were hearing, through earphones, a
250-millisecond fragment of a distressed baby's cry. Sensitivity to the
sound, and in particular to the more complicated part of the sound that
contributes most to its emotional content, was measured through scalp
electrodes.
The results were not exactly what the researchers expected. They found
that musicians' brainstems lock onto the complex part of the sound
known to carry more emotional elements but de-emphasize the simpler
(less emotion conveying) part of the sound. This was not the case in
non-musicians.
In essence, musicians more economically and more quickly focus their
neural resources on the important -- in this case emotional -- aspect
of sound. "That their brains respond more quickly and accurately than
the brains of non-musicians is something we'd expect to translate into
the perception of emotion in other settings," Strait says.
The authors of the study also note that the acoustic elements that
musicians process more efficiently are the very same ones that children
with language disorders, such as dyslexia and autism, have problems
encoding. "It would not be a leap to suggest that children with
language processing disorders may benefit from musical experience,"
says Kraus.
Strait, a pianist and oboe player who formerly worked as a therapist
with autistic children, goes a step further. Noting that impaired
emotional perception is a hallmark of autism and Asberger's syndromes,
she suggests that musical training might promote emotion processing in
these populations.
To learn more about the link between music, the brain and language
processing, visit Northwestern's Auditory Neuroscience Laboratory at
http://www.brainvolts.northwestern.edu .
Source: Wendy Leopold
Northwestern University
Article URL: http://www.medicalnewstoday.com/articles/141087.php
Main News Category : Neurology / Neuroscience
Also Appears In : Psychology / Psychiatry, Biology / Biochemistry, Hearing / Deafness,
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