Functional MRI of the vocalization-processing network in the macaque brain

Functional MRI of the vocalization-processing network in the macaque brain

Using functional magnetic resonance imaging in awake behaving monkeys we investigated how species-specific vocalizations are represented in auditory and auditory-related regions of the macaque brain. We found clusters of active voxels along the ascending auditory pathway that responded to various ty...

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Main Authors: Michael eOrtiz-Rios, Pawel eKuśmierek, Iain eDeWitt, Denis A. Archakov, Frederico A.C. Azevedo, Mikko eSams, Iiro eJääskeläinen, Georgios A. Keliris, Josef P Rauschecker
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-04-01
Series:Frontiers in Neuroscience
Subjects:
Auditory Cortex
monkey
species-specific calls
spectrotemporal features
higher-level representations
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00113/full
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spelling doaj-0b9c1a2ce0a24445b8185773ac3b367a2020-11-25T00:22:46ZengFrontiers Media S.A.Frontiers in Neuroscience1662-453X2015-04-01910.3389/fnins.2015.00113122906Functional MRI of the vocalization-processing network in the macaque brainMichael eOrtiz-Rios0Michael eOrtiz-Rios1Michael eOrtiz-Rios2Pawel eKuśmierek3Iain eDeWitt4Denis A. Archakov5Denis A. Archakov6Frederico A.C. Azevedo7Frederico A.C. Azevedo8Mikko eSams9Iiro eJääskeläinen10Georgios A. Keliris11Georgios A. Keliris12Josef P Rauschecker13Josef P Rauschecker14Josef P Rauschecker15Max Planck Institute for Biological CyberneticsGeorgetown University Medical CenterIMPRS for Cognitive and Systems NeuroscienceGeorgetown University Medical CenterGeorgetown University Medical CenterGeorgetown University Medical CenterAalto UniversityMax Planck Institute for Biological CyberneticsIMPRS for Cognitive and Systems NeuroscienceAalto UniversityAalto UniversityMax Planck Institute for Biological CyberneticsBernstein Centre for Computational NeuroscienceGeorgetown University Medical CenterAalto UniversityInstitute for Advanced Study, Technische Universität München (TUM)Using functional magnetic resonance imaging in awake behaving monkeys we investigated how species-specific vocalizations are represented in auditory and auditory-related regions of the macaque brain. We found clusters of active voxels along the ascending auditory pathway that responded to various types of complex sounds: inferior colliculus (IC), medial geniculate nucleus (MGN), auditory core, belt, and parabelt cortex, and other parts of the superior temporal gyrus (STG) and sulcus (STS). Regions sensitive to monkey calls were most prevalent in the anterior STG, but some clusters were also found in frontal and parietal cortex on the basis of comparisons between responses to calls and environmental sounds. Surprisingly, we found that spectrotemporal control sounds derived from the monkey calls (scrambled calls) also activated the parietal and frontal regions. Taken together, our results demonstrate that species-specific vocalizations in rhesus monkeys activate preferentially the auditory ventral stream, and in particular areas of the antero-lateral belt and parabelt.http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00113/fullAuditory Cortexmonkeyspecies-specific callsspectrotemporal featureshigher-level representations
collection DOAJ
language English
format Article
sources DOAJ
author Michael eOrtiz-Rios
Michael eOrtiz-Rios
Michael eOrtiz-Rios
Pawel eKuśmierek
Iain eDeWitt
Denis A. Archakov
Denis A. Archakov
Frederico A.C. Azevedo
Frederico A.C. Azevedo
Mikko eSams
Iiro eJääskeläinen
Georgios A. Keliris
Georgios A. Keliris
Josef P Rauschecker
Josef P Rauschecker
Josef P Rauschecker
spellingShingle Michael eOrtiz-Rios
Michael eOrtiz-Rios
Michael eOrtiz-Rios
Pawel eKuśmierek
Iain eDeWitt
Denis A. Archakov
Denis A. Archakov
Frederico A.C. Azevedo
Frederico A.C. Azevedo
Mikko eSams
Iiro eJääskeläinen
Georgios A. Keliris
Georgios A. Keliris
Josef P Rauschecker
Josef P Rauschecker
Josef P Rauschecker
Functional MRI of the vocalization-processing network in the macaque brain
Frontiers in Neuroscience
Auditory Cortex
monkey
species-specific calls
spectrotemporal features
higher-level representations
author_facet Michael eOrtiz-Rios
Michael eOrtiz-Rios
Michael eOrtiz-Rios
Pawel eKuśmierek
Iain eDeWitt
Denis A. Archakov
Denis A. Archakov
Frederico A.C. Azevedo
Frederico A.C. Azevedo
Mikko eSams
Iiro eJääskeläinen
Georgios A. Keliris
Georgios A. Keliris
Josef P Rauschecker
Josef P Rauschecker
Josef P Rauschecker
author_sort Michael eOrtiz-Rios
title Functional MRI of the vocalization-processing network in the macaque brain
title_short Functional MRI of the vocalization-processing network in the macaque brain
title_full Functional MRI of the vocalization-processing network in the macaque brain
title_fullStr Functional MRI of the vocalization-processing network in the macaque brain
title_full_unstemmed Functional MRI of the vocalization-processing network in the macaque brain
title_sort functional mri of the vocalization-processing network in the macaque brain
publisher Frontiers Media S.A.
series Frontiers in Neuroscience
issn 1662-453X
publishDate 2015-04-01
description Using functional magnetic resonance imaging in awake behaving monkeys we investigated how species-specific vocalizations are represented in auditory and auditory-related regions of the macaque brain. We found clusters of active voxels along the ascending auditory pathway that responded to various types of complex sounds: inferior colliculus (IC), medial geniculate nucleus (MGN), auditory core, belt, and parabelt cortex, and other parts of the superior temporal gyrus (STG) and sulcus (STS). Regions sensitive to monkey calls were most prevalent in the anterior STG, but some clusters were also found in frontal and parietal cortex on the basis of comparisons between responses to calls and environmental sounds. Surprisingly, we found that spectrotemporal control sounds derived from the monkey calls (scrambled calls) also activated the parietal and frontal regions. Taken together, our results demonstrate that species-specific vocalizations in rhesus monkeys activate preferentially the auditory ventral stream, and in particular areas of the antero-lateral belt and parabelt.
topic Auditory Cortex
monkey
species-specific calls
spectrotemporal features
higher-level representations
url http://journal.frontiersin.org/Journal/10.3389/fnins.2015.00113/full
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