# Motivational context and neurocomputation of stop expectation moderate early attention responses supporting proactive inhibitory control

**Authors:** Resh S. Gupta, Alan N. Simmons, Nathalie N. Dugas, Daniel M. Stout, Katia M. Harlé

PMC · DOI: 10.3389/fnhum.2024.1357868 · Frontiers in Human Neuroscience · 2024-04-02

## TL;DR

This study explores how motivation and expectations influence brain activity related to inhibitory control during tasks.

## Contribution

The study reveals how motivational context and stop expectations modulate early attention responses linked to proactive inhibitory control.

## Key findings

- P1 amplitudes increased with higher stop probability in punishment conditions but not in reward conditions.
- N1 amplitudes showed opposite relationships with stop probability in high punishment versus high reward contexts.
- High P(stop)-related N1 amplitude predicted successful inhibitory control in high reward conditions.

## Abstract

Alterations in attention to cues signaling the need for inhibitory control play a significant role in a wide range of psychopathology. However, the degree to which motivational and attentional factors shape the neurocomputations of proactive inhibitory control remains poorly understood. The present study investigated how variation in monetary incentive valence and stake modulate the neurocomputational signatures of proactive inhibitory control. Adults (N = 46) completed a Stop-Signal Task (SST) with concurrent EEG recording under four conditions associated with stop performance feedback: low and high punishment (following unsuccessful stops) and low and high reward (following successful stops). A Bayesian learning model was used to infer individual's probabilistic expectations of the need to stop on each trial: P(stop). Linear mixed effects models were used to examine whether interactions between motivational valence, stake, and P(stop) parameters predicted P1 and N1 attention-related event-related potentials (ERPs) time-locked to the go-onset stimulus. We found that P1 amplitudes increased at higher levels of P(stop) in punished but not rewarded conditions, although P1 amplitude differences between punished and rewarded blocks were maximal on trials when the need to inhibit was least expected. N1 amplitudes were positively related to P(stop) in the high punishment condition (low N1 amplitude), but negatively related to P(stop) in the high reward condition (high N1 amplitude). Critically, high P(stop)-related N1 amplitude to the go-stimulus predicted behavioral stop success during the high reward block, providing evidence for the role of motivationally relevant context and inhibitory control expectations in modulating the proactive allocation of attentional resources that affect inhibitory control. These findings provide novel insights into the neurocomputational mechanisms underlying proactive inhibitory control under valence-dependent motivational contexts, setting the stage for developing motivation-based interventions that boost inhibitory control.

## Full-text entities

- **Diseases:** anorexia nervosa (MESH:D000856), Psychiatric (MESH:D001523), internalizing and externalizing psychopathology (MESH:D000082122), ND (MESH:C537849), SSD (MESH:C563928), HP (MESH:D008228), inhibitory deficits (MESH:D009461), LP (MESH:D009800), addictive disorders (MESH:D000437), substance abuse (MESH:D019966), eating disorders (MESH:D001068), autism spectrum disorder (MESH:D000067877), schizophrenia (MESH:D012559), mania (MESH:D001714), self-harm (MESH:D012652), obsessive-compulsive disorder (MESH:D009771), psychosis (MESH:D011618), bulimia nervosa (MESH:D052018), Abnormalities in inhibitory control (MESH:D007174)
- **Chemicals:** DBM (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]
- **Cell lines:** S2 — Drosophila melanogaster (Fruit fly), Spontaneously immortalized cell line (CVCL_Z232)

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11019005/full.md

## References

76 references — full list in the complete paper: https://tomesphere.com/paper/PMC11019005/full.md

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Source: https://tomesphere.com/paper/PMC11019005