Regulating craving by anticipating positive and negative outcomes: A multivariate pattern analysis and network connectivity approach

• Main Authors: Goschke, T. (Author), Kruschwitz, J.D (Author), List, D. (Author), Ludwig, V.U (Author), Waller, L. (Author), Walter, H. (Author), Wisniewski, D. (Author), Wolfensteller, U. (Author)
• Format: Article
• Language: English
• Published: Frontiers Media S.A. 2018
• Subjects: adult; Anticipated emotions; Article; autoregulation; brain analysis; brain region; controlled study; corpus striatum; Craving; executive function; feeding behavior; female; FMRI; food craving; functional connectivity; functional magnetic resonance imaging; functional neuroimaging; Future thinking; healthy diet; human; human experiment; insula; male; normal human; obesity; parietal cortex; pleasure; Positive and Negative Affect Schedule; posterior cingulate; prefrontal cortex; self control; Self-control; Self-regulation; ventromedial prefrontal cortex; Volition
• Online Access: View Fulltext in Publisher

 During self-control, we may resist short-term temptations in order to reach a favorable future (e.g., resisting cake to stay healthy). The neural basis of self-control is typically attributed to “cold,” unemotional cognitive control mechanisms which inhibit affect-related regions via the prefrontal cortex (PFC). Here, we investigate the neural underpinnings of regulating cravings by mentally evoking the positive consequences of resisting a temptation (e.g., being healthy) as opposed to evoking the negative consequences of giving in to a temptation (e.g., becoming overweight). It is conceivable that when using these types of strategies, regions associated with emotional processing [e.g., striatum, ventromedial prefrontal cortex (vmPFC)] are involved in addition to control-related prefrontal and parietal regions. Thirty-one participants saw pictures of unhealthy snacks in the fMRI scanner and, depending on the trial, regulated their craving by thinking of the positive consequences of resisting, or the negative consequences of not resisting. In a control condition, they anticipated the pleasure of eating and thus, allowed the craving to occur (now-condition). In line with previous studies, we found activation of a cognitive control network during self-regulation. In the negative future thinking condition, the insula was more active than in the positive condition, while there were no activations that were stronger in the positive (> negative) future thinking condition. However, additionally, multivariate pattern analysis showed that during craving regulation, information about the valence of anticipated emotions was present in the vmPFC, the posterior cingulate cortex (PCC) and the insula. Moreover, a network including vmPFC and PCC showed higher connectivity during the positive (> negative) future thinking condition. Since these regions are often associated with affective processing, these findings suggest that “hot,” affective processes may, at least in certain circumstances, play a role in self-control. © 2018 Kruschwitz, Ludwig, Waller, List, Wisniewski, Wolfensteller, Goschke and Walter.