CHANGE YOUR WALKING STYLE , CHANGE YOUR MOOD
Our mood can affect
how we walk -- slump-shouldered if we're sad, bouncing along if we're happy.
Now researchers have shown it works the other way too -- making people imitate
a happy or sad way of walking actually affects their mood.
Subjects who were
prompted to walk in a more depressed style, with less arm movement and their
shoulders rolled forward, experienced worse moods than those who were induced
to walk in a happier style, according to the study published in theJournal
of Behavior Therapy and Experimental Psychiatry.
CIFAR Senior Fellow
Nikolaus Troje (Queen's University), a co-author on the paper, has shown in
past research that depressed people move very differently than happy people.
"It is not
surprising that our mood, the way we feel, affects how we walk, but we want to
see whether the way we move also affects how we feel," Troje says.
He and his colleagues
showed subjects a list of positive and negative words, such as
"pretty," "afraid" and "anxious" and then asked
them to walk on a treadmill while they measured their gait and posture. A
screen showed the subjects a gauge that moved left or right depending on
whether their walking style was more depressed or happier. But the subjects
didn't know what the gauge was measuring. Researchers told some subjects to try
and move the gauge left, while others were told to move it right.
"They would learn
very quickly to walk the way we wanted them to walk," Troje says.
Afterward, the
subjects had to write down as many words as they could remember from the
earlier list of positive and negative words. Those who had been walking in a
depressed style remembered many more negative words. The difference in recall
suggests that the depressed walking style actually created a more depressed
mood.
The study builds on
our understanding of how mood can affect memory. Clinically depressed patients
are known to remember negative events, particularly those about themselves,
much more than positive life events, Troje says. And remembering the bad makes
them feel even worse.
"If you can break
that self-perpetuating cycle, you might have a strong therapeutic tool to work
with depressive patients."
The study also
contributes to the questions asked in CIFAR's Neural Computation & Adaptive
Perception program, which aims to unlock the mystery of how our brains convert
sensory stimuli into information and to recreate human-style learning in
computers.
"As social
animals we spend so much time watching other people, and we are experts at
retrieving information about other people from all sorts of different
sources," Troje says. Those sources include facial expression, posture and
body movement. Developing a better understanding of the biological algorithms
in our brains that process stimuli -- including information from our own
movements -- can help researchers develop better artificial intelligence, while
learning more about ourselves in the process.
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