eLife (Jul 2022)

Intracerebral mechanisms explaining the impact of incidental feedback on mood state and risky choice

  • Romane Cecchi,
  • Fabien Vinckier,
  • Jiri Hammer,
  • Petr Marusic,
  • Anca Nica,
  • Sylvain Rheims,
  • Agnès Trebuchon,
  • Emmanuel J Barbeau,
  • Marie Denuelle,
  • Louis Maillard,
  • Lorella Minotti,
  • Philippe Kahane,
  • Mathias Pessiglione,
  • Julien Bastin

DOI
https://doi.org/10.7554/eLife.72440
Journal volume & issue
Vol. 11

Abstract

Read online

Identifying factors whose fluctuations are associated with choice inconsistency is a major issue for rational decision theory. Here, we investigated the neuro-computational mechanisms through which mood fluctuations may bias human choice behavior. Intracerebral EEG data were collected in a large group of subjects (n=30) while they were performing interleaved quiz and choice tasks that were designed to examine how a series of unrelated feedbacks affect decisions between safe and risky options. Neural baseline activity preceding choice onset was confronted first to mood level, estimated by a computational model integrating the feedbacks received in the quiz task, and then to the weighting of option attributes, in a computational model predicting risk attitude in the choice task. Results showed that (1) elevated broadband gamma activity (BGA) in the ventromedial prefrontal cortex (vmPFC) and dorsal anterior insula (daIns) was respectively signaling periods of high and low mood, (2) increased vmPFC and daIns BGA respectively promoted and tempered risk taking by overweighting gain vs. loss prospects. Thus, incidental feedbacks induce brain states that correspond to different moods and bias the evaluation of risky options. More generally, these findings might explain why people experiencing positive (or negative) outcome in some part of their life tend to expect success (or failure) in any other.

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