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Hierarchical cortical networks of “voice patches” for processing voices in human brain

Yang Zhang, Yue Ding, Juan Huang, Wenjing Zhou, Zhipei Ling, Bo Hong, Xiaoqin Wang

2021Proceedings of the National Academy of Sciences44 citationsDOIOpen Access PDF

Abstract

Humans have an extraordinary ability to recognize and differentiate voices. It is yet unclear whether voices are uniquely processed in the human brain. To explore the underlying neural mechanisms of voice processing, we recorded electrocorticographic signals from intracranial electrodes in epilepsy patients while they listened to six different categories of voice and nonvoice sounds. Subregions in the temporal lobe exhibited preferences for distinct voice stimuli, which were defined as "voice patches." Latency analyses suggested a dual hierarchical organization of the voice patches. We also found that voice patches were functionally connected under both task-engaged and resting states. Furthermore, the left motor areas were coactivated and correlated with the temporal voice patches during the sound-listening task. Taken together, this work reveals hierarchical cortical networks in the human brain for processing human voices.

Topics & Concepts

Human brainTemporal lobeActive listeningNeuroscienceHuman voicePsychologyTask (project management)Brain activity and meditationEpilepsyElectroencephalographyCommunicationSpeech recognitionComputer scienceEconomicsManagementNeuroscience and Music PerceptionNeural dynamics and brain functionEEG and Brain-Computer Interfaces
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