We compared blood oxygen level-dependent (BOLD) activity during the delay period in the Willpower task, in which subjects must continually resist the temptation to select the available SS, with activity during the delay period in the Choice task, in which the SS option was not available. Because we were interested in effective implementations of self-control, we restricted this analysis to trials with LL outcomes only, thus controlling for EGFR inhibitor reward anticipation and delivery across conditions. We expected to find brain regions that have been previously associated with inhibition of prepotent responses,
executive function, and self-control (McClure et al., 2004, McClure et al., 2007, Hare et al., 2009, Figner et al., 2010, Kober et al., 2010, Cohen et al., 2012, Essex et al., 2012 and Luo et al., 2012). Confirming our hypothesis, this analysis revealed significant activations in bilateral DLPFC (peak −50, 10, 32; t(19) = Dolutegravir 14.39, p < 0.001, whole-brain family-wise error [FWE] corrected), bilateral IFG (peak −44, 42, 10; t(19) = 6.44, p < 0.001, whole-brain FWE corrected), and bilateral PPC (peak −32, −52, 44; t(19) = 8.80, p < 0.001, whole-brain FWE corrected) when subjects actively resisted temptations (Figure 3; Table S2). Additional willpower-related activations were observed in the cerebellum, ventral striatum, insula, posterior cingulate cortex, and parahippocampal gyrus (p < 0.05 whole-brain FWE corrected;
Table S2). To investigate the neural correlates of precommitment, we compared BOLD activity at decision onset during binding LL decisions in the Precommitment task with activity at decision onset during nonbinding (but otherwise identical) LL decisions in the Opt-Out task. Again, we restricted
this analysis to choices with LL outcomes only, to control for reward anticipation across conditions. In line with our predictions, this analysis revealed activity in left and right LFPC (peak −34, 58, −8; t(19) = 4.74, p = 0.014, small-volume FWE corrected; Figure 4A and Table S3). We performed additional analyses to test the selectivity of LFPC activation to trials with opportunities to Org 27569 precommit. As in our previous analyses, we focused on trials in which subjects chose LL to control for reward anticipation across conditions. First, we investigated whether the LFPC showed sustained activation when subjects actively resisted temptations by extracting the Willpower contrast estimate from our region of interest (ROI) in LFPC (−34, 56, −8; Boorman et al., 2009). LFPC activation was not significantly different from zero when subjects actively resisted temptations (beta = 0.2653, SE = 0.4249, t(19) = 0.64, p = 0.5294; Figure 4B). Directly contrasting BOLD responses from Precommitment trials in which subjects chose to precommit, against BOLD responses from Willpower trials in which subjects actively resisted temptations, revealed a significant cluster in right LFPC (40, 56, −12; t(19) = 4.78, p = 0.