BRAN'S ICONIC SEAT OF SPEECH GOES SILENT WHEN WE ACTUALLY TALK
For 150 years, the
iconic Broca's area of the brain has been recognized as the command center for
human speech, including vocalization. Now, scientists at UC Berkeley and Johns
Hopkins University in Maryland are challenging this long-held assumption with
new evidence that Broca's area actually switches off when we talk out loud
The findings, reported
in the Proceedings of the National Academy of Sciences journal,
provide a more complex picture than previously thought of the frontal brain
regions involved in speech production. The discovery has major implications for
the diagnoses and treatments of stroke, epilepsy and brain injuries that result
in language impairments.
"Every year
millions of people suffer from stroke, some of which can lead to severe
impairments in perceiving and producing language when critical brain areas are
damaged," said study lead author Adeen Flinker, a postdoctoral researcher
at New York University who conducted the study as a UC Berkeley Ph.D. student.
"Our results could help us advance language mapping during neurosurgery as
well as the assessment of language impairments."
Flinker said that
neuroscientists traditionally organized the brain's language center into two
main regions: one for perceiving speech and one for producing speech.
"That belief
drives how we map out language during neurosurgery and classify language
impairments," he said. "This new finding helps us move towards a less
dichotomous view where Broca's area is not a center for speech production, but
rather a critical area for integrating and coordinating information across
other brain regions."
In the 1860s, French
physician Pierre Paul Broca pinpointed this prefrontal brain region as the seat
of speech. Broca's area has since ranked among the brain's most closely
examined language regions in cognitive psychology. People with Broca's aphasia
are characterized as having suffered damage to the brain's frontal lobe and
tend to speak in short, stilted phrases that often omit short connecting words such
as "the" and "and."
Specifically, Flinker
and fellow researchers have found that Broca's area -- which is located in the
frontal cortex above and behind the left eye -- engages with the brain's
temporal cortex, which organizes sensory input, and later the motor cortex, as
we process language and plan which sounds and movements of the mouth to use,
and in what order. However, the study found, it disengages when we actually
start to utter word sequences.
"Broca's area
shuts down during the actual delivery of speech, but it may remain active
during conversation as part of planning future words and full sentences,"
Flinker said.
The study tracked
electrical signals emitted from the brains of seven hospitalized epilepsy
patients as they repeated spoken and written words aloud. Researchers followed
that brain activity -- using event-related causality technology -- from the
auditory cortex, where the patients processed the words they heard, to Broca's
area, where they prepared to articulate the words to repeat, to the motor
cortex, where they finally spoke the words out loud.
In addition to
Flinker, other co-authors and researchers on the study are Robert Knight and
Avgusta Shestyuk at the Helen Wills Neuroscience Institute at UC Berkeley, Nina
Dronkers at the Center for Aphasia and Related Disorders at the Veterans
Affairs Northern California Health Care System, and Anna Korzeniewska, Piotr
Franaszczuk and Nathan Crone at Johns Hopkins School of Medicine.
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