The brain's response to the human voice depends on the incidence of autistic traits in the general population.

The brain's response to the human voice depends on the incidence of autistic traits in the general population.

Optimal brain sensitivity to the fundamental frequency (F0) contour changes in the human voice is important for understanding a speaker's intonation, and consequently, the speaker's attitude. However, whether sensitivity in the brain's response to a human voice F0 contour change varie...

Full description

Bibliographic Details
Main Authors: Yuko Yoshimura, Mitsuru Kikuchi, Sanae Ueno, Eiichi Okumura, Hirotoshi Hiraishi, Chiaki Hasegawa, Gerard B Remijn, Kiyomi Shitamichi, Toshio Munesue, Tsunehisa Tsubokawa, Haruhiro Higashida, Yoshio Minabe
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3835888?pdf=render
id doaj-9f8b1ad96d7149109970004ef595ab20
record_format Article
spelling doaj-9f8b1ad96d7149109970004ef595ab202020-11-25T00:47:04ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-01811e8012610.1371/journal.pone.0080126The brain's response to the human voice depends on the incidence of autistic traits in the general population.Yuko YoshimuraMitsuru KikuchiSanae UenoEiichi OkumuraHirotoshi HiraishiChiaki HasegawaGerard B RemijnKiyomi ShitamichiToshio MunesueTsunehisa TsubokawaHaruhiro HigashidaYoshio MinabeOptimal brain sensitivity to the fundamental frequency (F0) contour changes in the human voice is important for understanding a speaker's intonation, and consequently, the speaker's attitude. However, whether sensitivity in the brain's response to a human voice F0 contour change varies with an interaction between an individual's traits (i.e., autistic traits) and a human voice element (i.e., presence or absence of communicative action such as calling) has not been investigated. In the present study, we investigated the neural processes involved in the perception of F0 contour changes in the Japanese monosyllables "ne" and "nu." "Ne" is an interjection that means "hi" or "hey" in English; pronunciation of "ne" with a high falling F0 contour is used when the speaker wants to attract a listener's attention (i.e., social intonation). Meanwhile, the Japanese concrete noun "nu" has no communicative meaning. We applied an adaptive spatial filtering method to the neuromagnetic time course recorded by whole-head magnetoencephalography (MEG) and estimated the spatiotemporal frequency dynamics of event-related cerebral oscillatory changes in beta band during the oddball paradigm. During the perception of the F0 contour change when "ne" was presented, there was event-related de-synchronization (ERD) in the right temporal lobe. In contrast, during the perception of the F0 contour change when "nu" was presented, ERD occurred in the left temporal lobe and in the bilateral occipital lobes. ERD that occurred during the social stimulus "ne" in the right hemisphere was significantly correlated with a greater number of autistic traits measured according to the Autism Spectrum Quotient (AQ), suggesting that the differences in human voice processing are associated with higher autistic traits, even in non-clinical subjects.http://europepmc.org/articles/PMC3835888?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yuko Yoshimura
Mitsuru Kikuchi
Sanae Ueno
Eiichi Okumura
Hirotoshi Hiraishi
Chiaki Hasegawa
Gerard B Remijn
Kiyomi Shitamichi
Toshio Munesue
Tsunehisa Tsubokawa
Haruhiro Higashida
Yoshio Minabe
spellingShingle Yuko Yoshimura
Mitsuru Kikuchi
Sanae Ueno
Eiichi Okumura
Hirotoshi Hiraishi
Chiaki Hasegawa
Gerard B Remijn
Kiyomi Shitamichi
Toshio Munesue
Tsunehisa Tsubokawa
Haruhiro Higashida
Yoshio Minabe
The brain's response to the human voice depends on the incidence of autistic traits in the general population.
PLoS ONE
author_facet Yuko Yoshimura
Mitsuru Kikuchi
Sanae Ueno
Eiichi Okumura
Hirotoshi Hiraishi
Chiaki Hasegawa
Gerard B Remijn
Kiyomi Shitamichi
Toshio Munesue
Tsunehisa Tsubokawa
Haruhiro Higashida
Yoshio Minabe
author_sort Yuko Yoshimura
title The brain's response to the human voice depends on the incidence of autistic traits in the general population.
title_short The brain's response to the human voice depends on the incidence of autistic traits in the general population.
title_full The brain's response to the human voice depends on the incidence of autistic traits in the general population.
title_fullStr The brain's response to the human voice depends on the incidence of autistic traits in the general population.
title_full_unstemmed The brain's response to the human voice depends on the incidence of autistic traits in the general population.
title_sort brain's response to the human voice depends on the incidence of autistic traits in the general population.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Optimal brain sensitivity to the fundamental frequency (F0) contour changes in the human voice is important for understanding a speaker's intonation, and consequently, the speaker's attitude. However, whether sensitivity in the brain's response to a human voice F0 contour change varies with an interaction between an individual's traits (i.e., autistic traits) and a human voice element (i.e., presence or absence of communicative action such as calling) has not been investigated. In the present study, we investigated the neural processes involved in the perception of F0 contour changes in the Japanese monosyllables "ne" and "nu." "Ne" is an interjection that means "hi" or "hey" in English; pronunciation of "ne" with a high falling F0 contour is used when the speaker wants to attract a listener's attention (i.e., social intonation). Meanwhile, the Japanese concrete noun "nu" has no communicative meaning. We applied an adaptive spatial filtering method to the neuromagnetic time course recorded by whole-head magnetoencephalography (MEG) and estimated the spatiotemporal frequency dynamics of event-related cerebral oscillatory changes in beta band during the oddball paradigm. During the perception of the F0 contour change when "ne" was presented, there was event-related de-synchronization (ERD) in the right temporal lobe. In contrast, during the perception of the F0 contour change when "nu" was presented, ERD occurred in the left temporal lobe and in the bilateral occipital lobes. ERD that occurred during the social stimulus "ne" in the right hemisphere was significantly correlated with a greater number of autistic traits measured according to the Autism Spectrum Quotient (AQ), suggesting that the differences in human voice processing are associated with higher autistic traits, even in non-clinical subjects.
url http://europepmc.org/articles/PMC3835888?pdf=render
work_keys_str_mv AT yukoyoshimura thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT mitsurukikuchi thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT sanaeueno thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT eiichiokumura thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT hirotoshihiraishi thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT chiakihasegawa thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT gerardbremijn thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT kiyomishitamichi thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT toshiomunesue thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT tsunehisatsubokawa thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT haruhirohigashida thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT yoshiominabe thebrainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT yukoyoshimura brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT mitsurukikuchi brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT sanaeueno brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT eiichiokumura brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT hirotoshihiraishi brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT chiakihasegawa brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT gerardbremijn brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT kiyomishitamichi brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT toshiomunesue brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT tsunehisatsubokawa brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT haruhirohigashida brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
AT yoshiominabe brainsresponsetothehumanvoicedependsontheincidenceofautistictraitsinthegeneralpopulation
_version_ 1725262071272046592

Similar Items