Intracranial Mapping of Response Latencies and Task Effects for Spoken Syllable Processing in the Human Brain.
Vibha ViswanathanKyle M RuppJasmine L HectEmily E HarfordLori L HoltTaylor J AbelPublished in: bioRxiv : the preprint server for biology (2024)
Prior lesion, noninvasive-imaging, and intracranial-electroencephalography (iEEG) studies have documented hierarchical, parallel, and distributed characteristics of human speech processing. Yet, there have not been direct, intracranial observations of the latency with which regions outside the temporal lobe respond to speech, or how these responses are impacted by task demands. We leveraged human intracranial recordings via stereo-EEG to measure responses from diverse forebrain sites during (i) passive listening to /bi/ and /pi/ syllables, and (ii) active listening requiring /bi/-versus-/pi/ categorization. We find that neural response latency increases from a few tens of ms in Heschl's gyrus (HG) to several tens of ms in superior temporal gyrus (STG), superior temporal sulcus (STS), and early parietal areas, and hundreds of ms in later parietal areas, insula, frontal cortex, hippocampus, and amygdala. These data also suggest parallel flow of speech information dorsally and ventrally, from HG to parietal areas and from HG to STG and STS, respectively. Latency data also reveal areas in parietal cortex, frontal cortex, hippocampus, and amygdala that are not responsive to the stimuli during passive listening but are responsive during categorization. Furthermore, multiple regions-spanning auditory, parietal, frontal, and insular cortices, and hippocampus and amygdala-show greater neural response amplitudes during active versus passive listening (a task-related effect). Overall, these results are consistent with hierarchical processing of speech at a macro level and parallel streams of information flow in temporal and parietal regions. These data also reveal regions where the speech code is stimulus-faithful and those that encode task-relevant representations.
Keyphrases
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- working memory
- resting state
- prefrontal cortex
- mass spectrometry
- multiple sclerosis
- endothelial cells
- electronic health record
- hearing loss
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- high resolution
- optic nerve
- big data
- fluorescent probe
- genome wide
- cerebral ischemia
- induced pluripotent stem cells
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- living cells
- aqueous solution
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- blood brain barrier
- dna methylation
- pluripotent stem cells
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