Such activity was only found in the left and right TPJ. No other brain region revealed BOLD signal changes that Obeticholic Acid purchase reflected such illusory changes in self-location. Although activity in right and left EBA and occipital cortex also revealed a three-way interaction, activity in these regions did not reflect self-location
(see the Supplemental Information). The left TPJ activation was centered on the posterior part of the superior temporal gyrus (pSTG). Mimicking behavioral changes in self-location and the reported first-person perspective, left TPJ activation in the Up- and Down-groups differed between synchronous and asynchronous stroking only during the body conditions (Figure 4A). In the Up-group, the BOLD response during the synchronous-body condition
Ku-0059436 in vitro (−0.14%) was lower than in the asynchronous-body condition [0.73%; F(1,20) = 6.1; p < 0.02]. The opposite effect was found in the Down-group, where the BOLD response during the synchronous-body condition (1.22%) was higher than in the asynchronous-body condition (0.42%; p < 0.03). The difference between synchronous and asynchronous stroking in the control conditions was not significant in both groups (all p > 0.15; Supplemental Information). We also found a significant Perspective by Stroking interaction (Supplemental Information). No other main effect or interaction was significant in this region (Supplemental Information). The cluster at the right TPJ was also centered on the pSTG,
and the BOLD response in this region also differed between synchronous and asynchronous stroking during the body conditions for both groups (Figure 4C). In the Up-group we found a lower BOLD response during synchronous (0.11%) than asynchronous stroking [1.14%; F(1, 20) = 7; p < 0.016], whereas in the Down-group we found the opposite trend with a higher BOLD response during the synchronous (1.03%) than the asynchronous stroking Calpain condition (0.34%; p = 0.09). The BOLD response was not significantly different between synchronous and asynchronous stroking in the control conditions in both groups (all p > 0.32). No other main effect or interaction was significant in this region (Supplemental Information). To target brain regions reflecting self-identification (as measured by the questionnaire; question Q3; Figure 3) we searched for activity that could not be accounted for by the summation of the effects of seeing the body and feeling synchronous stroking. To this aim, we searched for brain regions showing an interaction between Object and Stroking characterized by a difference between the two body conditions, but not the control conditions. Such activity was only found in the right EBA. The ANOVA performed on the BOLD signal change in right EBA (Supplemental Information) showed a significant two-way interaction between Object and Stroking [F(1,20) = 6.56; p < 0.02], accounted for by the higher BOLD response in the body/asynchronous condition (1.
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