Abstract
Delay discounting is a common phenomenon in daily life, which refers to the subjective value of a future reward decreasing as a function of time. Previous studies have identified several cortical regions involved in delay discounting, but the neural network constructed by the cortical regions of delay discounting is less clear. In this study, we employed resting-state functional magnetic resonance imaging (RS-fMRI) to measure the spontaneous neural activity in a large sample of healthy young adults and used the Monetary Choice Questionnaire to directly measure participants’ level of delay discounting. To identify the neural network of delay discounting at rest, we used an individual difference approach to explore brain regions whose spontaneous activities were related to delay discounting across the whole brain. Then, these brain regions served as seeds to identify the neural network of delay discounting. We found that the fractional amplitude of low-frequency fluctuations (fALFF) of the left insula were positively correlated to delay discounting. More importantly, its connectivity to the anterior cingulate cortex was read out for participants’ behavioral performance in the task of delay discounting. In short, our study provides empirical evidence that insula-anterior cingulate cortex connectivity may serve as a part of the neural network for delay discounting.
Highlights
2008; Ortiz et al, 2015; Grodin et al, 2017; Dennis et al, 2020). Among all these brain areas, the insula plays a critical role in delay discounting through time perception, cognitive control, and emotion processing (Wittmann et al, 2010; Nieuwenhuys, 2012; Li et al, 2013; Noreika et al, 2013; Clewett et al, 2014), whereas the ACC has an effect on delay discounting by participating in the process of conflict detection and strategy adaptation
Resting-State Functional Connectivity-Delay Discounting Correlation Analysis Based on the results from the fractional amplitude of low-frequency fluctuations (fALFF)-delay discounting correlation analysis, our study examined the neural network of delay discounting at resting-state by using resting-state functional connectivity (RSFC)
We used resting-state functional magnetic resonance imaging (RS-fMRI) to explore the resting-state neural network of delay discounting in a large sample of healthy young adults
Summary
2008; Ortiz et al, 2015; Grodin et al, 2017; Dennis et al, 2020) Among all these brain areas, the insula plays a critical role in delay discounting through time perception, cognitive control, and emotion processing (Wittmann et al, 2010; Nieuwenhuys, 2012; Li et al, 2013; Noreika et al, 2013; Clewett et al, 2014), whereas the ACC has an effect on delay discounting by participating in the process of conflict detection and strategy adaptation (van Veen et al, 2004; Peters and Buechel, 2011; Li et al, 2013; Wang et al, 2017). Having established the resting-state neural correlates at the regional level, we further investigated the role of the neural work constructed by these regions in delay discounting
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