Summary: Researchers discover metaphors that involve body parts such as arms or legs, such as ‘twist my arm, engage a brain region responsible for the visual perception of those parts.

Source: Emory Health Sciences.

Body part metaphors activate the extrastriate body area.

Listening to metaphors involving arms or legs loops in a region of the brain responsible for visual perception of those body parts, scientists have discovered.

The finding, recently published in Brain & Language, is another example of how neuroscience studies are providing evidence for “grounded cognition” — the idea that comprehension of abstract concepts in the brain is built upon concrete experiences, a proposal whose history extends back millennia to Aristotle.

When study participants heard sentences that included phrases such as “shoulder responsibility,” “foot the bill” or “twist my arm”, they tended to engage a region of the brain called the left extrastriate body area or EBA.

The same level of activation was not seen when participants heard literal sentences containing phrases with a similar meaning, such as “take responsibility” or “pay the bill.” The study included 12 right-handed, English-speaking people, and blood flow in their brains was monitored by functional MRI (magnetic resonance imaging).

“The EBA is part of the extrastriate visual cortex, and it was known to be involved in identifying body parts,” says senior author Krish Sathian, MD, PhD, professor of neurology, rehabilitation medicine, and psychology at Emory University. “We found that the metaphor selectivity of the EBA matches its visual selectivity.”

The EBA was not activated when study participants heard literal, non-metaphorical sentences describing body parts.

“This suggests that deep semantic processing is needed to recruit the EBA, over and above routine use of the words for body parts,” Sathian says.

Sathian’s research team had previously observed that metaphors involving the sense of touch, such as “a rough day”, activate a region of the brain important for sensing texture. In addition, other researchers have shown that motion-related metaphors engage parts of the brain involved in motor control or in the perception of movement.

Relative to those previous findings, the researchers were surprised to find that body part metaphors did not tend to activate areas of the brain linked to motor control or the sense of touch.

“It is a negative result, but just because we didn’t detect signals with these brain imaging methods doesn’t mean subtler connections don’t exist,” Sathian says.

The Brain & Language paper includes analysis of “resting state connectivity”, showing that the EBA appears to communicate with language processing areas of the brain, even while someone is not listening to a metaphor. Follow-up research could test whether magnetic stimulation of the EBA interferes with processing of body part metaphors.

In one reported case of damage to the brain including the EBA, the affected person was impaired in using body part words to refer to inanimate objects (the teeth of a comb or the arm of a chair). Separately, the EBA was recently shown to be involved in understanding the meaning of gestures.

Research on metaphor comprehension can inform rehabilitation approaches for someone who has had a stroke or traumatic brain injury affecting the ability to process language.

“Engaging their senses multimodally may be a way to bootstrap rehab for those individuals,” says Sathian, who is director of the Rehabilitation R&D Center at the Atlanta Veterans Affairs Medical Center.

About this neuroscience research article

The first author of the paper is senior research associate Simon Lacey, PhD. Collaborators at Auburn University and Purdue University contributed to the paper.

Funding: The research was supported by the National Science Foundation (BCS1125756) and the Veterans Administration.

Source: Quinn Eastman – Emory Health Sciences

Image Source: NeuroscienceNews.com image is credited to Lacey et al Brain & Language (2016).

Original Research: Abstract for “Engagement of the left extrastriate body area during body-part metaphor comprehension” by Simon Lacey, Randall Stilla, Gopikrishna Deshpande, Sinan Zhao, Careese Stephens, Kelly McCormick, David Kemmerer, and K. Sathian in Brain and Language. Published online December 2016 doi:10.1016/j.bandl.2016.11.004

Cite This NeuroscienceNews.com Article

[cbtabs][cbtab title=”MLA”]Emory Health Sciences. “How Hearing ‘Twist My Arm’ Engages the Brain.” NeuroscienceNews. NeuroscienceNews, 14 December 2016.

<https://neurosciencenews.com/body-metaphors-neuroscience-5748/>.[/cbtab][cbtab title=”APA”]Emory Health Sciences. (2016, December 14). How Hearing ‘Twist My Arm’ Engages the Brain. NeuroscienceNews. Retrieved December 14, 2016 from https://neurosciencenews.com/body-metaphors-neuroscience-5748/[/cbtab][cbtab title=”Chicago”]Emory Health Sciences. “How Hearing ‘Twist My Arm’ Engages the Brain.” https://neurosciencenews.com/body-metaphors-neuroscience-5748/ (accessed December 14, 2016).[/cbtab][/cbtabs]

Abstract

Engagement of the left extrastriate body area during body-part metaphor comprehension

Grounded cognition explanations of metaphor comprehension predict activation of sensorimotor cortices relevant to the metaphor’s source domain. We tested this prediction for body-part metaphors using functional magnetic resonance imaging while participants heard sentences containing metaphorical or literal references to body parts, and comparable control sentences. Localizer scans identified body-part-specific motor, somatosensory and visual cortical regions. Both subject- and item-wise analyses showed that, relative to control sentences, metaphorical but not literal sentences evoked limb metaphor-specific activity in the left extrastriate body area (EBA), paralleling the EBA’s known visual limb-selectivity. The EBA focus exhibited resting-state functional connectivity with ipsilateral semantic processing regions. In some of these regions, the strength of resting-state connectivity correlated with individual preference for verbal processing. Effective connectivity analyses showed that, during metaphor comprehension, activity in some semantic regions drove that in the EBA. These results provide converging evidence for grounding of metaphor processing in domain-specific sensorimotor cortical activity.

“Engagement of the left extrastriate body area during body-part metaphor comprehension” by Simon Lacey, Randall Stilla, Gopikrishna Deshpande, Sinan Zhao, Careese Stephens, Kelly McCormick, David Kemmerer, and K. Sathian in Brain and Language. Published online December 2016 doi:10.1016/j.bandl.2016.11.004

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