Despite the ubiquitous interdependence between one's own decisions and others' welfare, and the controversial evidence on the behavioral effect of choosing for others, the neural bases of making decisions for another versus oneself remain unexplored. We investigated whether loss aversion (LA; the tendency to avoid losses over approaching equivalent gains) is modulated by (i) choosing for oneself, other individuals, or both; (ii) knowing or not knowing the other recipients; or (iii) an interaction between these factors. We used fMRI to assess the brain activations associated with choosing whether to accept or reject mixed gambles, either for oneself, for another player, or both, in 2 groups of 28 participants who had or had not briefly interacted with the other players before scanning. Participants displayed higher LA for choices involving their payoff compared with those affecting only the payoff of other, known, players. This "social" modulation of decision-making was found to engage the dorsomedial prefrontal cortex and its inhibitory connectivity to the middle cingulate cortex. This pattern might underpin decision-making for known others via self-other distinction processes associated with dorsomedial prefrontal areas, with this in turn promoting the inhibition of socially oriented responses through the downregulation of the midcingulate node of the empathy network.

Arioli, M., Basso, G., Baud-Bovy, G., Mattioni, L., Poggi, P., Canessa, N. (2023). Neural bases of loss aversion when choosing for oneself versus known or unknown others. CEREBRAL CORTEX, 33(11), 7120-7135 [10.1093/cercor/bhad025].

Neural bases of loss aversion when choosing for oneself versus known or unknown others

Basso, Gianpaolo
Secondo
;
2023

Abstract

Despite the ubiquitous interdependence between one's own decisions and others' welfare, and the controversial evidence on the behavioral effect of choosing for others, the neural bases of making decisions for another versus oneself remain unexplored. We investigated whether loss aversion (LA; the tendency to avoid losses over approaching equivalent gains) is modulated by (i) choosing for oneself, other individuals, or both; (ii) knowing or not knowing the other recipients; or (iii) an interaction between these factors. We used fMRI to assess the brain activations associated with choosing whether to accept or reject mixed gambles, either for oneself, for another player, or both, in 2 groups of 28 participants who had or had not briefly interacted with the other players before scanning. Participants displayed higher LA for choices involving their payoff compared with those affecting only the payoff of other, known, players. This "social" modulation of decision-making was found to engage the dorsomedial prefrontal cortex and its inhibitory connectivity to the middle cingulate cortex. This pattern might underpin decision-making for known others via self-other distinction processes associated with dorsomedial prefrontal areas, with this in turn promoting the inhibition of socially oriented responses through the downregulation of the midcingulate node of the empathy network.
Articolo in rivista - Articolo scientifico
dorsomedial prefrontal cortex; fMRI; loss aversion; social cognitive intervention; social decision.
English
7-feb-2023
2023
33
11
7120
7135
none
Arioli, M., Basso, G., Baud-Bovy, G., Mattioni, L., Poggi, P., Canessa, N. (2023). Neural bases of loss aversion when choosing for oneself versus known or unknown others. CEREBRAL CORTEX, 33(11), 7120-7135 [10.1093/cercor/bhad025].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/404177
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