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31 March 2015
Rats and mice in pain make facial expressions similar to those in humans--so
similar, in fact, that a few years ago researchers developed rodent "grimace
scales," which help them assess an animal's level of pain simply by looking at
its face. But scientists have questioned whether these expressions convey
anything to other rodents, or if they are simply physiological reactions devoid
of meaning. Now, researchers report that other rats do pay attention to the
emotional expressions of their fellows, leaving an area when they see a rat
"It's a finding we thought might be true, and are glad that someone figured out
how to do an experiment that shows it," says Jeffrey Mogil, a neuroscientist at
McGill University in Montreal, Canada. Mogil's lab developed
pain grimace scales
for rats and mice in 2006, and it discovered that mice experience pain when they
see a familiar mouse suffering--a psychological phenomenon known as emotional
contagion. According to Mogil, a rodent in pain expresses its anguish through
narrowed eyes, flattened ears, and a swollen nose and cheeks. Because people can
read these visual cues and gauge the intensity of the animal's pain, Mogil has
long thought that other rats could do so as well.
In Japan, Satoshi Nakashima, a social cognition psychologist at NTT
Communication Science Laboratories in Kanagawa, thought the same thing. And,
knowing that other scientists had recently shown that mice can tell the
difference between paintings by
Picasso and Renoir, he decided to see if rodents could also discriminate
between photographs of their fellows' expressions. He designed the current
experiments as part of his postdoctoral research.
First, Nakashima and his colleagues photographed three laboratory rats as they
sat in what he calls a "neutral" position--a kind of normal, everyday, unruffled
rat pose. He then photographed the same rats while giving them a mild electrical
foot shock. In these latter images, the rats tense their bodies and make the
classic pain grimace.
He created additional images to present to his test rats by airbrushing the
photos so that the rat's face, body, or both were blurred. Next, he mounted the
images of the pained rats in one of three rooms in a testing box. He left the
walls of the adjoining central compartment blank and arranged the photos of the
"neutral" rats in the third room. He made similar comparative arrangements using
the Photoshopped images, so that, for instance, one room held a gallery of
images showing grimacing rats with blurred bodies, whereas the other compartment
showed rats in the neutral position.
One hundred and four male rats that had never been used in experiments were then
placed one at a time in the center room and allowed to explore the box for 10
minutes, while scientists recorded the amount of time and number of visits each
rat made to each compartment.
Rats that confronted the unairbrushed grimace photographs rarely lingered,
Nakashima and his colleagues report online today in Royal Society Open Science.
Instead, they preferred the room with the gallery of neutral rat
images--evidence, the scientists say, that the rats were reading the signs of
pain on the face of the rat in the photo. Those visual cues "perhaps induce
fear" in the viewers, causing them to leave, primatologist Frans de Waal of
Emory University in Atlanta said in an e-mail to Science. De Waal was not
involved in the study.
But the rats that saw the airbrushed images--even those with blurred bodies and
upset faces--didn't react this way. Apparently, the suffering rat's body also
communicates important information, and observing rats need to see both the face
and the body in order to get the full message. Studies of nonverbal
communication in humans show that we do the same thing, de Waal notes.
Neither Mogil nor de Waal are surprised that rats are able to read the emotional
cues expressed in a fellow rat's face and body. "I would be more surprised if
they didn't have this ability," Mogil says. "If it was only something we could
do, we'd have trouble explaining where the ability came from." Finding it in
rats, though, erases the need for some awkward explanation of our ability and
"makes evolutionary sense."
Knowing that rats' faces can tell another rat how they're feeling will of course
lead to more questions about using the rodents--or other animals--in biomedical
research. "That's not lost on me," says Mogil, who uses rodents in his Pain
Genetics Lab. "The more we do experiments like this, the more we wonder if we
should do experiments like this." But, he adds, if we want to study pain and
pain treatments, "there is no alternative. Tissue cultures and computer
simulations won't work. We must do animal experiments, as we will never get
ethical approval to do these tests on humans."
*Correction, 1 April, 8:55 a.m.: Satoshi Nakashima designed the current
experiments as part of his postdoctoral research, not as part of his doctoral
research, as was previously reported. The name of the journal has also been