Visual Attention Modulates Brain Activation to Angry Voices

Mothes-Lasch, Martin; Mentzel, Hans‐Joachim; Miltner, Wolfgang H. R.; Straube, Thomas

doi:10.1523/jneurosci.6665-10.2011

Cited by 45 publications

(49 citation statements)

References 52 publications

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“…Thus, our results may be helpful for the debate concerning the automaticity of amygdala activation in the processing of subtle threat (Lipka et al, 2011;Mothes-Lasch et al, 2011;Pessoa and Adolphs, 2010;Pessoa et al, 2006;Straube et al, 2010). At least in healthy subjects, there seems to be no automatic processing of a wide range of threat stimuli given effective prevention of conscious perception.…”

Section: Discussionmentioning

confidence: 74%

Awareness modulates responses of the amygdala and the visual cortex to highly arousing visual threat

et al. 2012

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Section: Discussionmentioning

confidence: 74%

Awareness modulates responses of the amygdala and the visual cortex to highly arousing visual threat

et al. 2012

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“…Besides this activity in the primary and secondary AC for negative expressions, negative and positive expressions revealed activity in the left and right pSTC and mSTC that has previously been shown to be consistently responsive to different types of vocal expression (Fecteau et al, 2007;Frühholz et al, 2012;Grandjean et al, 2005;Johnstone et al, 2006;Kotz et al, 2003;Leitman et al, 2010b;Meyer et al, 2005;Mothes-Lasch et al, 2011;Phillips et al, 1998;Sander et al, 2005;Szameitat et al, 2010;Warren et al, 2006a). Although these regions located in the lateral STC might be a type of higher-level perceptual and feature-integrative representation of vocal expressions, there is evidence that these areas also involve feature sensitivity for vocal expression.…”

Section: Valence Influences Lower-level and Higher-level Auditory Cormentioning

confidence: 79%

“…The emotional cue of a voice can be presented inside the focus of attention (explicit processing of emotion) when participants are asked to explicitly discriminate, classify, or evaluate the emotional tone of a voice (Alba-Ferrara et al, 2011;Beaucousin et al, 2007;Ethofer et al, 2006aEthofer et al, , 2009aFrühholz et al, 2012;Grandjean et al, 2005;Johnstone et al, 2006;Kotz et al, 2003;Leitman et al, 2010b;Mitchell, 2006;Sander et al, 2005;Szameitat et al, 2010;Wildgruber et al, 2005;Wittfoth et al, 2010). This emotional cue can also be presented outside the focus of attention (implicit processing of emotion) when participants are, for example, asked to discriminate the gender of one voice from another (Alba-Ferrara et al, 2011;Bach et al, 2008;Ethofer et al, 2012;Fecteau et al, 2007;Frühholz et al, 2012;Morris et al, 1999;Mothes-Lasch et al, 2011) or to make a linguistic decision about a nonemotional linguistic feature (Buchanan et al, 2000;Ethofer et al, 2006a;Mitchell et al, 2003), or when emotional voices are presented outside the spatial focus of attention Sander et al, 2005). For the latter, Grandjean and colleagues (2005), for example, have shown that a region in the right pSTC is sensitive to vocal expressions independent of attentional focus, whereas an adjacent region in the right mSTC is responsive to vocal expression only when the emotional cue is inside the focus of attention.…”

Section: Introductionmentioning

confidence: 99%

Multiple subregions in superior temporal cortex are differentially sensitive to vocal expressions: A quantitative meta-analysis

Frühholz¹,

Grandjean²

2013

Neuroscience & Biobehavioral Reviews

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a b s t r a c tVocal expressions of emotions consistently activate regions in the superior temporal cortex (STC), including regions in the primary and secondary auditory cortex (AC). Studies usually report broadly extended functional activations in response to vocal expressions, with considerable variation in peak locations across several auditory subregions. This might suggest different and distributed functional roles across these subregions instead of a uniform role for the decoding of vocal emotions. We reviewed recent studies and conducted an activation likelihood estimation meta-analysis summarizing recent fMRI and PET studies dealing with the processing of vocal expressions in the STC and AC. We included two stimulus-specific factors (paraverbal/nonverbal expression, stimulus valence) and one task-specific factor (attentional focus) in the analysis. These factors considerably influenced whether functional activity was located in the AC or STC (influence of valence and attentional focus), the laterality of activations (influence of paraverbal/nonverbal expressions), and the anterior-posterior location of STC activity (influence of valence). These data suggest distributed functional roles and a differentiated network of auditory subregions in response to vocal expressions.

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“…We expected, first, that vocalizations, as socially salient stimuli, would generally produce weaker cortical processing in interconnected regions due to unilateral amygdala damage (experiment 1) (39). Second, in keeping with predominant left amygdala activity in healthy individuals during the processing of vocal emotions, we expected more severe impairment in cortical processing of emotional cues in patients with left amygdala lesions compared with right amygdala lesions (experiment 2) (29,40).…”

Section: Significancementioning

confidence: 94%

Asymmetrical effects of unilateral right or left amygdala damage on auditory cortical processing of vocal emotions

Frühholz

Hofstetter

Cristinzio

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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We tested whether human amygdala lesions impair vocal processing in intact cortical networks. In two functional MRI experiments, patients with unilateral amygdala resection either listened to voices and nonvocal sounds or heard binaural vocalizations with attention directed toward or away from emotional information on one side. In experiment 1, all patients showed reduced activation to voices in the ipsilesional auditory cortex. In experiment 2, emotional voices evoked increased activity in both the auditory cortex and the intact amygdala for right-damaged patients, whereas no such effects were found for left-damaged amygdala patients. Furthermore, the left inferior frontal cortex was functionally connected with the intact amygdala in right-damaged patients, but only with homologous right frontal areas and not with the amygdala in left-damaged patients. Thus, unilateral amygdala damage leads to globally reduced ipsilesional cortical voice processing, but only left amygdala lesions are sufficient to suppress the enhanced auditory cortical processing of vocal emotions.

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Visual Attention Modulates Brain Activation to Angry Voices

Cited by 45 publications

References 52 publications

Awareness modulates responses of the amygdala and the visual cortex to highly arousing visual threat

Awareness modulates responses of the amygdala and the visual cortex to highly arousing visual threat

Multiple subregions in superior temporal cortex are differentially sensitive to vocal expressions: A quantitative meta-analysis

Asymmetrical effects of unilateral right or left amygdala damage on auditory cortical processing of vocal emotions

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