Your search keyword '"Clithero, John A."' showing total 3 results

1. Functional connectivity with ventromedial prefrontal cortex reflects subjective value for social rewards.

Author

Smith, David V., Clithero, John A., Boltuck, Sarah E., and Huettel, Scott A.

Subjects

*HYPOTHALAMUS, *PREFRONTAL cortex, *NEUROPSYCHOLOGY, *SOCIAL perception, *AFFECTIVE neuroscience

Abstract

According to many studies, the ventromedial prefrontal cortex (VMPFC) encodes the subjective value of disparate rewards on a common scale. Yet, a host of other reward factors—likely represented outside of VMPFC—must be integrated to construct such signals for valuation. Using functional magnetic resonance imaging (fMRI), we tested whether the interactions between posterior VMPFC and functionally connected brain regions predict subjective value. During fMRI scanning, participants rated the attractiveness of unfamiliar faces. We found that activation in dorsal anterior cingulate cortex, anterior VMPFC and caudate increased with higher attractiveness ratings. Using data from a post-scan task in which participants spent money to view attractive faces, we quantified each individual’s subjective value for attractiveness. We found that connectivity between posterior VMPFC and regions frequently modulated by social information—including the temporal-parietal junction (TPJ) and middle temporal gyrus—was correlated with individual differences in subjective value. Crucially, these additional regions explained unique variation in subjective value beyond that extracted from value regions alone. These findings indicate not only that posterior VMPFC interacts with additional brain regions during valuation, but also that these additional regions carry information employed to construct the subjective value for social reward. [ABSTRACT FROM AUTHOR]

Published

2014

2. Informatic parcellation of the network involved in the computation of subjective value.

Author

Clithero, John A. and Rangel, Antonio

Subjects

*NEUROSCIENCES, *BRAIN anatomy, *FUNCTIONAL magnetic resonance imaging, *META-analysis, *EMOTIONS -- Social aspects, *THOUGHT & thinking, *EDUCATION

Abstract

Understanding how the brain computes value is a basic question in neuroscience. Although individual studies have driven this progress, meta-analyses provide an opportunity to test hypotheses that require large collections of data. We carry out a meta-analysis of a large set of functional magnetic resonance imaging studies of value computation to address several key questions. First, what is the full set of brain areas that reliably correlate with stimulus values when they need to be computed? Second, is this set of areas organized into dissociable functional networks? Third, is a distinct network of regions involved in the computation of stimulus values at decision and outcome? Finally, are different brain areas involved in the computation of stimulus values for different reward modalities? Our results demonstrate the centrality of ventromedial prefrontal cortex (VMPFC), ventral striatum and posterior cingulate cortex (PCC) in the computation of value across tasks, reward modalities and stages of the decision-making process. We also find evidence of distinct subnetworks of co-activation within VMPFC, one involving central VMPFC and dorsal PCC and another involving more anterior VMPFC, left angular gyrus and ventral PCC. Finally, we identify a posterior-to-anterior gradient of value representations corresponding to concrete-to-abstract rewards. [ABSTRACT FROM PUBLISHER]

Published

2014

3. Contributions of frontopolar cortex to judgments about self, others and relations.

Author

Raposo, Ana, Vicens, Luke, Clithero, John A., Dobbins, Ian G., and Huettel, Scott A.

Subjects

SOCIAL perception, SOCIAL cognitive theory, SOCIAL cognition theory (Communication), JUDGMENT (Psychology), SOCIAL interaction

Abstract

Activation in frontopolar cortex (FPC; BA 10) has been associated both with attending to mental states and with integrating multiple mental relations. However, few previous studies have manipulated both of these cognitive processes, precluding a clear functional distinction among regions within FPC. To address this issue, we developed an fMRI task that combined mentalizing and relational integration processes. Participants saw blocks of single words and performed one of three judgments: how pleasant or unpleasant they found each word (Self condition), how a specific friend would evaluate the pleasantness of the word (Other condition), or the difference between their own pleasantness judgment and that of their friend (Relational condition). We found that medial FPC was modulated by Other relative to Self judgments, consistent with a role in mentalizing. Lateral FPC was significantly activated during Relational compared to Self judgements, suggesting that this region is particularly involved in relational integration. The results point to a strong functional dissociation between medial and lateral FPC. In addition, the data demonstrate a role for lateral FPC in the social domain, provided that the task requires the integration of one’s preferences with those of others. [ABSTRACT FROM PUBLISHER]

Published

2011