An innovative
collaboration between neuroscientists and developmental psychologists that
investigated how infants' brains process other people's action provides the
first evidence that directly links neural responses from the motor system to
overt social behavior in infants.
The research will be
published April 12 in Psychological Science, the peer-reviewed
journal of the Association for Psychological Science.
The study involved
thirty-six 7-month-old infants,
who were each tested while wearing a cap that used electroencephalography (EEG)
to measure brain activity. During the experiment, each infant observed an actor
reach for one of two toys. Immediately after, the baby was allowed to select
one of the same toys. This procedure was repeated 12 times.
Babies' brain activity
predicted how they would respond to the actor's behavior. When the infants
recruited their motor system while
observing the actor grasp one of the toys, they subsequently imitated the
actor. When they didn't imitate the actor, there was no detectable engagement
of the motor system in their brain activity as they watched the actor.
"Our research
provides initial evidence that motor system recruitment is contingently linked
to infants' social interactive behavior," said lead author Courtney
Filippi, a doctoral candidate in developmental psychology at the University of
Chicago. "It provides initial evidence that recruiting the motor system
during action encoding predicts infants' subsequent social interactive
behavior."
Untested possibility
The researchers used EEG
to measure a component of brain activity—desynchronization of activity in the
mu frequency band—that has been linked to motor cortex activity in adults. Like
adults, infants show this response when acting themselves and when watching
others' actions, suggesting that the motor system may play a role in the perception
of others' actions. Until the current study, however, this possibility had not
been tested in infants.
"This research
tells us that, by the middle of their first year of life, babies are beginning
to be able to understand that people act intentionally—that they choose one toy
over another because they want that toy," said Helen Tager-Flusberg,
professor of psychological and brain sciences at Boston University, who is
familiar with but was not involved in the research. "This understanding on
the part of a baby involves not just seeing the other person's action, but also
involves the baby's own motor system, which is recruited when he or she chooses
the same toy."
Fundamentally, the
researchers identified the neural processes that contribute to intelligent social
behavior in infants. And it's the first evidence that motor system activation
in infants predicts the imitation of others' actions, as well as an apparent
understanding of others' goals.
"This is big news,
that babies understand what they are observing, that there is a direct
connection between observing others, understanding what others are doing, and
learning how to act," said co-author Amanda Woodward, the William S. Gray
Professor of Psychology at UChicago.
The researcher's
methodology also broke new ground. "This is the first attempt to combine
the assessment of infants' behavior—in this case, imitating the actions of
another person—with measuring brain activity in infants," Tager-Flusberg
said.
Proof of concept
"Probably the
hardest place to study the relation between brain activity and behavior is with
infants, due to limitations in the methods that can be used, and the fact that
infants are infants," Woodward noted. "Our methodology represents a
breakthrough and a proof of concept."
"We've worked hard
over the years to develop the methods that allow us to record brain activity from
infants while they are engaged in the social world," said co-author Nathan
Fox, Distinguished University Professor at the University of Maryland, College
Park. "The current research reflects our ability to synchronize brain and
behavior in infants during the first year of life."
Although this research
will not translate directly into new medical treatments or therapies, it could
contribute to medical advances down the road by helping to illuminate how the
human brain functions and develops, Woodward added.
"One reason to
engage in basic science is to better understand the development of the brain
and mind. Here we looked at the development of social cognition, social behavior,
and the motor system,
all of which are critical for human development and are often disrupted in
developmental disabilities, including autism."
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