The neural architecture in the auditory cortex, the brain area that processes sound, of profoundly deaf and hearing people is virtually identical, a new study shows.
The study raises new questions about the role of experience in processing sensory information, and could point the way toward potential new avenues for intervention in deafness.
Lead author Ella Striem-Amit, a post-doctoral researcher in Alfonso Caramazza’s Cognitive Neuropsychology Laboratory at Harvard, said:
“One reason this is interesting is because we don’t know what causes the brain to organize the way it does. How important is each person’s experience for their brain development? In audition, a lot is known about (how it works) in hearing people, and in animals.
But we don’t know whether the same organization is retained in congenitally deaf people.”
Those similarities between deaf and hearing brain architecture, Striem-Amit said, suggest that the organization of the auditory cortex doesn’t critically depend on experience, but is likely based on innate factors. So in a person who is born deaf, the brain is still organized in the same manner.
But that’s not to suggest experience plays no role in processing sensory information.
Experience And Plasticity
Evidence from other studies have shown that cochlear implants are far more successful when implanted in toddlers and young children, Striem-Amit said, suggesting that without sensory input during key periods of brain plasticity in early life, the brain may not process information appropriately.
The paper was authored by Striem-Amit, Mario Belledonne from Harvard, Jorge Almeida from the University of Coimbra, Quanjing Chen, Yuxing Fang, Zaizhu Han and Yanchao Bi from Beijing Normal University.
To understand the organization of the auditory cortex, Striem-Amit and her collaborators first obtained what are called tonotopic maps showing how the auditory cortex responds to various tones.
They placed volunteers in an MRI scanner and played different tones, some high frequency, some low frequency. Then they tracked which regions in the auditory cortex were activated.
They also asked groups of hearing and deaf subjects to simply relax in the scanner, and tracked their brain activity over several minutes. This allows mapping which areas are functionally connected – essentially those that show similar, correlated patterns of activation – to each other.
Auditory Cortex Functional Connectivity Profiles
They then used the areas showing frequency preference in the tonotopic maps to study the functional connectivity profiles related to tone preference in the hearing and congenitally deaf groups and found them to be virtually identical.
“There is a balance between change and typical organization in the auditory cortex of the deaf” said the senior researcher, Prof. Yanchao Bi, “but even when the auditory cortex shows plasticity to processing vision, its typical auditory organization can still be found”.
The study also raises a host of questions that have yet to be answered.
“We know the architecture is in place – does it serve a function,” Striem-Amit said. “We know, for example, that the auditory cortex of the deaf is also active when they view sign language and other visual information. The question is: What do these regions do in the deaf? Are they actually processing something similar to what they process in hearing people, only through vision?”
In addition to studies of deaf animals, the researchers’ previous studies of people born blind suggest clues to the puzzle.
In the blind, the topographical architecture of the visual cortex (the visual parallel of the tonotopic map, called “retinotopic”) is like that in the sighted.
Importantly, beyond topographic organization, regions of the visual cortex show specialization in processing certain categories of objects in sighted individuals show the same specialization in the congenitally blind when stimulated through other senses. For example, the blind reading Braille, or letters delivered through sound, process that information in the same area used by sighted subjects in processing visual letters.
“The principle that much of the brain’s organization develops largely regardless of experience is established in blindness,” Striem-Amit said. “Perhaps the same principle applies also to deafness”.
Image: Simon James/Flickr