Literature DB >> 21826759

Representation of perceived sound valence in the human brain.

Mikko Viinikainen1, Jari Kätsyri, Mikko Sams.   

Abstract

Perceived emotional valence of sensory stimuli influences their processing in various cortical and subcortical structures. Recent evidence suggests that negative and positive valences are processed separately, not along a single linear continuum. Here, we examined how brain is activated when subjects are listening to auditory stimuli varying parametrically in perceived valence (very unpleasant-neutral-very pleasant). Seventeen healthy volunteers were scanned in 3 Tesla while listening to International Affective Digital Sounds (IADS-2) in a block design paradigm. We found a strong quadratic U-shaped relationship between valence and blood oxygen level dependent (BOLD) signal strength in the medial prefrontal cortex, auditory cortex, and amygdala. Signals were the weakest for neutral stimuli and increased progressively for more unpleasant or pleasant stimuli. The results strengthen the view that valence is a crucial factor in neural processing of emotions. An alternative explanation is salience, which increases with both negative and positive valences.
Copyright © 2011 Wiley Periodicals, Inc.

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Year:  2011        PMID: 21826759      PMCID: PMC6869869          DOI: 10.1002/hbm.21362

Source DB:  PubMed          Journal:  Hum Brain Mapp        ISSN: 1065-9471            Impact factor:   5.038


  57 in total

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Authors:  Israel Liberzon; K Luan Phan; Laura R Decker; Stephan F Taylor
Journal:  Neuropsychopharmacology       Date:  2002-11-15       Impact factor: 7.853

3.  Processing emotional pictures and words: effects of valence and arousal.

Authors:  Elizabeth A Kensinger; Daniel L Schacter
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4.  A functional MRI study of happy and sad affective states induced by classical music.

Authors:  Martina T Mitterschiffthaler; Cynthia H Y Fu; Jeffrey A Dalton; Christopher M Andrew; Steven C R Williams
Journal:  Hum Brain Mapp       Date:  2007-11       Impact factor: 5.038

5.  The human amygdala is sensitive to the valence of pictures and sounds irrespective of arousal: an fMRI study.

Authors:  Silke Anders; Falk Eippert; Nikolaus Weiskopf; Ralf Veit
Journal:  Soc Cogn Affect Neurosci       Date:  2008-08-12       Impact factor: 3.436

6.  Nonlinear amygdala response to face trustworthiness: contributions of high and low spatial frequency information.

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7.  Emotional arousal and activation of the visual cortex: an fMRI analysis.

Authors:  P J Lang; M M Bradley; J R Fitzsimmons; B N Cuthbert; J D Scott; B Moulder; V Nangia
Journal:  Psychophysiology       Date:  1998-03       Impact factor: 4.016

8.  Brain systems for assessing facial attractiveness.

Authors:  Joel S Winston; John O'Doherty; James M Kilner; David I Perrett; Raymond J Dolan
Journal:  Neuropsychologia       Date:  2006-07-07       Impact factor: 3.139

9.  Neural response to emotional salience in schizophrenia.

Authors:  Stephan F Taylor; K Luan Phan; Jennifer C Britton; Israel Liberzon
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10.  Implicit and explicit evaluation: FMRI correlates of valence, emotional intensity, and control in the processing of attitudes.

Authors:  William A Cunningham; Carol L Raye; Marcia K Johnson
Journal:  J Cogn Neurosci       Date:  2004-12       Impact factor: 3.225
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  19 in total

1.  Features versus feelings: dissociable representations of the acoustic features and valence of aversive sounds.

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2.  Preferential activation for emotional Western classical music versus emotional environmental sounds in motor, interoceptive, and language brain areas.

Authors:  Rebecca J Lepping; Jared M Bruce; Kathleen M Gustafson; Jinxiang Hu; Laura E Martin; Cary R Savage; Ruth Ann Atchley
Journal:  Brain Cogn       Date:  2019-08-09       Impact factor: 2.310

3.  Representing the Good and Bad: fMRI signatures during the encoding of multisensory positive, negative, and neutral events.

Authors:  Preston P Thakral; Ryan Bottary; Elizabeth A Kensinger
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4.  Neural correlates of the affective properties of spontaneous and volitional laughter types.

Authors:  Nadine Lavan; Georgia Rankin; Nicole Lorking; Sophie Scott; Carolyn McGettigan
Journal:  Neuropsychologia       Date:  2016-12-09       Impact factor: 3.139

5.  Representations of modality-specific affective processing for visual and auditory stimuli derived from functional magnetic resonance imaging data.

Authors:  Svetlana V Shinkareva; Jing Wang; Jongwan Kim; Matthew J Facciani; Laura B Baucom; Douglas H Wedell
Journal:  Hum Brain Mapp       Date:  2013-12-02       Impact factor: 5.038

Review 6.  A review of decreased sound tolerance in autism: Definitions, phenomenology, and potential mechanisms.

Authors:  Zachary J Williams; Jason L He; Carissa J Cascio; Tiffany G Woynaroski
Journal:  Neurosci Biobehav Rev       Date:  2020-12-04       Impact factor: 8.989

7.  The Nencki Affective Picture System (NAPS): introduction to a novel, standardized, wide-range, high-quality, realistic picture database.

Authors:  Artur Marchewka; Łukasz Zurawski; Katarzyna Jednoróg; Anna Grabowska
Journal:  Behav Res Methods       Date:  2014-06

8.  Activation of auditory cortex by anticipating and hearing emotional sounds: an MEG study.

Authors:  Koichi Yokosawa; Siina Pamilo; Lotta Hirvenkari; Riitta Hari; Elina Pihko
Journal:  PLoS One       Date:  2013-11-20       Impact factor: 3.240

9.  Emotional speech synchronizes brains across listeners and engages large-scale dynamic brain networks.

Authors:  Lauri Nummenmaa; Heini Saarimäki; Enrico Glerean; Athanasios Gotsopoulos; Iiro P Jääskeläinen; Riitta Hari; Mikko Sams
Journal:  Neuroimage       Date:  2014-08-13       Impact factor: 6.556

10.  Anticipating control over aversive stimuli is mediated by the medial prefrontal cortex: An fMRI study with healthy adults.

Authors:  Laura Maria Wade-Bohleber; Amelie Haugg; Sabrina Huber; Jutta Ernst; Simone Grimm; Dominique Recher; Andre Richter; Erich Seifritz; Heinz Boeker; Georg Northoff
Journal:  Hum Brain Mapp       Date:  2021-06-09       Impact factor: 5.038
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