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A habenula-insular circuit encodes the willingness to act

Psychology

A habenula-insular circuit encodes the willingness to act

N. Khalighinejad, N. Garrett, et al.

Unravel the neural intricacies of voluntary action initiation with groundbreaking insights from Nima Khalighinejad and colleagues. This study reveals how contextual factors influence our willingness to act, highlighting the crucial roles of the habenula and anterior insula in decision-making. Discover how these findings could reshape our understanding of behavioral mechanisms beneath our actions.... show more
Abstract
The decision that it is worth doing something rather than nothing is a core yet understudied feature of voluntary behaviour. Here we study "willingness to act", the probability of making a response given the context. Human volunteers encountered opportunities to make effortful actions in order to receive rewards, while watching a movie inside a 7 T MRI scanner. Reward and other context features determined willingness-to-act. Activity in the habenula tracked trial-by-trial variation in participants' willingness-to-act. The anterior insula encoded individual environment features that determined this willingness. We identify a multi-layered network in which contextual information is encoded in the anterior insula, converges on the habenula, and is then transmitted to the supplementary motor area, where the decision is made to either act or refrain from acting via the nigrostriatal pathway.
Publisher
Nature Communications
Published On
Nov 03, 2021
Authors
Nima Khalighinejad, Neil Garrett, Luke Priestley, Patricia Lockwood, Matthew F. S. Rushworth
DOI
https://doi.org/10.1038/s41467-021-26569-1
Tags
voluntary action
neural mechanisms
decision-making
contextual factors
fMRI

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