Irrational choices via a curvilinear representational geometry for value

We make decisions by comparing values, but it is not yet clear how value is represented in the brain. Many models assume, if only implicitly, that the representational geometry of value is linear. However, in part due to a historical focus on noisy single neurons, rather than neuronal populations, t...

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Veröffentlicht in:Nature communications 2024-07, Vol.15 (1), p.6424-15, Article 6424
Hauptverfasser: Jurewicz, Katarzyna, Sleezer, Brianna J., Mehta, Priyanka S., Hayden, Benjamin Y., Ebitz, R. Becket
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Sprache:eng
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Zusammenfassung:We make decisions by comparing values, but it is not yet clear how value is represented in the brain. Many models assume, if only implicitly, that the representational geometry of value is linear. However, in part due to a historical focus on noisy single neurons, rather than neuronal populations, this hypothesis has not been rigorously tested. Here, we examine the representational geometry of value in the ventromedial prefrontal cortex (vmPFC), a part of the brain linked to economic decision-making, in two male rhesus macaques. We find that values are encoded along a curved manifold in vmPFC. This curvilinear geometry predicts a specific pattern of irrational decision-making: that decision-makers will make worse choices when an irrelevant, decoy option is worse in value, compared to when it is better. We observe this type of irrational choices in behavior. Together, these results not only suggest that the representational geometry of value is nonlinear, but that this nonlinearity could impose bounds on rational decision-making. It is often assumed that neuronal responses to value are linear, in part because this is important for rational economic decision-making. Here, the authors find, in two male macaques, that value is encoded along a curved manifold in the prefrontal cortex and that this curvature imposes bounds on rational decision-making.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-024-49568-4