Individual differences in structural and functional connectivity predict speed of emotion discrimination

Marstaller, Lars; Burianová, Hana; Reutens, David C.

doi:10.1016/j.cortex.2016.10.001

Cited by 19 publications

(30 citation statements)

References 59 publications

(18 reference statements)

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“…For this purpose, we used a previously validated Dynamic Emotion Perception task, in which instruction cues were used to elicit prior expectations during viewing of angry, audio-visual videos . Based on the results of previous studies we predicted that faster recognition of threat congruent with prior expectations would involve the recruitment of rAMY functionally connecting to thalamus, as these are known to be involved in efficient threat processing (Bishop, 2008;Dolan and Vuilleumier, 2003;Marstaller et al, 2016;Vuilleumier and Pourtois, 2007). Conversely, faster recognition of threat incongruent with prior expectations would involve the recruitment of rTPJ (a core region of the ventral attention network (Corbetta et al, 2008)) functionally connecting to inferior frontal regions, such as vmPFC, previously implicated in rapid processing of unexpected threat (Corbetta et al, 2008;Decety and Lamm, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…In our study, the selection of the seed voxels was both data-driven (please see Dzafic et al, 2016), and literature driven (Bishop, 2008;Vuilleumier & Pourtois, 2007;Marstaller et al, 2016;Corbetta, Patel, analyses, we correlated activity in the vmPFC, rAMY, and rTPJ with activity in the rest of the brain and with accurate RTs of the participants in the congruent and incongruent conditions. One participant was removed from the final analysis due to being an outlier (z-score < 3.25).…”

Section: Functional Connectivity and Brain-behaviour Analysismentioning

confidence: 99%

“…Connectivity between the amygdala and hippocampus has been strongly associated with contextual fear conditioning, in which participants are exposed to a particular context paired with a threatening stimulus, such as a shock, resulting in an automatic fear response during that specific context (Alvarez et al, 2008;Marstaller et al 2016). …”

Section: Rapid Detection Of Congruent Threatmentioning

confidence: 99%

“…The rAMY is argued to be involved in allocating processing resources to prioritize cues relevant in a given situation (Pessoa & Adolphs, 2010), and as such would facilitate rapid detection of threat, relevant for survival (Bishop, 2008;Marstaller et al, 2016;Vuilleumier and Pourtois, 2007).…”

Section: Rapid Detection Of Congruent Threatmentioning

confidence: 99%

“…Previous studies have consistently used static displays of anger to display threatening emotion (Marstaller et al, 2016;Ohman et al, 2001); and converging results implicate an amygdala and thalamus functional network as core circuitry in rapid threat processing, by means of selective processing of threatening cues Vuilleumier et al, 2001Vuilleumier et al, , 2003. In a recent multimodal neuroimaging, brain-behaviour study, Marstaller et al (2016) have shown that individuals who are faster at detecting 'direct' threat (i.e., anger), have greater engagement of a right amygdala functional network. Furthermore, Marstaller and colleagues identified that these individuals also have greater integrity in the inferior longitudinal fasciculus, a white matter pathway connecting the amygdala to visual regions.…”

Section: Introductionmentioning

confidence: 99%

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The neuroimaging and genetics of emotion perception in schizophrenia

Dzafic¹

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Impaired emotion perception is a core deficit in schizophrenia (SCZ) that is robustly associated with poor functional outcome. Studies to date have failed to delineate the critical cognitive, neural and genetic factors that underlie 'naturalistic' emotion perception deficits in SCZ. Recently it has been proposed that in SCZ reduced precision in prior expectations impairs perception. Normal perception relies on predictive processing from precise prior expectations, which prioritise attention to context-relevant stimuli. However, no studies to date have explored the aberrancy of prior expectations during naturalistic emotion perception in SCZ and the underlying abnormal neural circuitry or involvement of SCZ genes. The present thesis aims to develop a novel dynamic emotion perception (DEP) task, in order to examine (1) the influence of prior expectations on naturalistic emotion perception in healthy individuals, and (2) emotion perception impairment in SCZ by investigating aberrancy in prior expectations, neural circuitry, and genetics.The aim of Study 1 was to create a novel functional magnetic resonance imaging (fMRI) paradigm to examine the mechanisms of prior expectations and delineate the spatiotemporal activity of brain regions that contribute to emotion perception. The newly developed and validated fMRI DEP task has improved ecological validity, using dynamic, audio-visual videos, instead of static pictures as stimuli. The improved method provided new behavioural and neuroimaging insights into the influence of prior expectations on naturalistic emotion perception. Prior expectations facilitated emotion perception after repeated exposure and learning over the course of the experiment, engaging prefrontal regions and right amygdala. In contrast, emotions incongruent with prior expectations engaged neural correlates of automatic change detection, which in a complex dynamic environment allows for adaptive behaviours in potentially advantageous or threatening situations.In Study 2, the DEP task was utilised to delineate, in the healthy brain, the functional networks that subserve rapid recognition of threatening emotions in situations either congruent or incongruent with prior expectations. The results showed that fast detection of threat congruent with prior expectations engaged a right amygdala subcortical network, which has been previously implicated in fear conditioning and coarse processing of emotion. In contrast, there was a trend association between fast detection of threat incongruent with prior expectations and activity in inferior frontoparietal network connected to the right temporoparietal junction; this has been previously implicated in rapid reorienting of attention to Finally, in Study 4, the association between SCZ polygenic risk score (PRS) and brain activity during the DEP task in healthy adults was investigated in order to assess emotion perception as an endophenotype for SCZ. The results demonstrate that PRS is associated with higher recruitment of regions involved in emotion regulat...

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Section: Introductionmentioning

confidence: 99%

Section: Functional Connectivity and Brain-behaviour Analysismentioning

confidence: 99%

Section: Rapid Detection Of Congruent Threatmentioning

confidence: 99%

Section: Rapid Detection Of Congruent Threatmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The neuroimaging and genetics of emotion perception in schizophrenia

Dzafic¹

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Stria terminalis, amygdala, and temporoparietal junction networks facilitate efficient emotion processing under expectations

Dzafic

Oestreich

Martin

et al. 2019

Human Brain Mapping

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Rapid emotion processing is an ecologically essential ability for survival in social environments in which threatening or advantageous encounters dynamically and rapidly occur. Efficient emotion recognition is subserved by different processes, depending on one's expectations; however, the underlying functional and structural circuitry is still poorly understood. In this study, we delineate brain networks that subserve fast recognition of emotion in situations either congruent or incongruent with prior expectations. For this purpose, we used multimodal neuroimaging and investigated performance on a dynamic emotion perception task. We show that the extended amygdala structural and functional networks relate to speed of emotion processing under threatening conditions. Specifically, increased microstructure of the right stria terminalis, an amygdala white‐matter pathway, was related to faster detection of emotion during actual presentation of anger or after cueing anger. Moreover, functional connectivity of right amygdala with limbic regions was related to faster detection of anger congruent with cue, suggesting selective attention to threat. On the contrary, we found that faster detection of anger incongruent with cue engaged the ventral attention “reorienting” network. Faster detection of happiness, in either expectancy context, engaged a widespread frontotemporal‐subcortical functional network. These findings shed light on the functional and structural circuitries that facilitate speed of emotion recognition and, for the first time, elucidate a role for the stria terminalis in human emotion processing.

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Neuro-anatomie morphologique et fonctionnelle

Wager

2021

Traité Pratique De Neuropsychologie Clinique De l'Adulte

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Individual differences in structural and functional connectivity predict speed of emotion discrimination

Cited by 19 publications

References 59 publications

The neuroimaging and genetics of emotion perception in schizophrenia

The neuroimaging and genetics of emotion perception in schizophrenia

Stria terminalis, amygdala, and temporoparietal junction networks facilitate efficient emotion processing under expectations

Neuro-anatomie morphologique et fonctionnelle

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