e PCC and FG) were related to PDR or stimulus unpleasantness, Pe

e. PCC and FG) were related to PDR or stimulus unpleasantness, Pearson’s r coefficients between difference values of viewing needle pricks minus viewing Q-tip touches were calculated across participants. A further analysis was conducted to investigate whether ABA predicts unpleasantness or PDR across single trials. As baseline normalisation on a trial-by-trial basis might lead to large outliers if a single trial baseline is close to zero, single trials were normalised by the average condition baseline for this analysis. Correlation coefficients were calculated

for each participant and subsequently z-transformed to account for the fact that Pearson’s r is not normally distributed: z = 0.5 * ln[(1 + r)/(1 − r)]. The resulting z-values were tested against zero by means of a t-test. In the case of a significant result, z-values were back-transformed to mean r-values Z-VAD-FMK ic50 following the formula r = (e²z − 1)/(e²z + 1), where e represents Euler’s number (Corey et al., 1998). The questionnaire inquiring the degree of embodiment of the hand viewed on the

screen showed that participants generally selleck inhibitor had the impression that they were looking at their own hand (M = 3.52 ± 0.82; 13 of 18 participants scored higher than 3). The highest scores were obtained on items that expressed the feeling that the viewed hand was at the location of their own hand and that related to the impression of a causal relationship between the viewed and the experienced event (item 6, 4.17 ± 1.38; item 7, 3.94 ± 1.34; item 8, 4.67 ± 1.33). In addition, participants correctly answered the control question on visual

attention (‘Which clip was shown in the previous trial?’; asked after 10% of all trials) in 88.9% of all occurrences, demonstrating that participants attended to the clips. The anova for unpleasantness ratings using the factors electrical stimulation (nonpainful O-methylated flavonoid vs. painful) and visual stimulation (needle prick vs. Q-tip touch) revealed a significant main effect of electrical stimulation (F1,17 = 58.65, P < 0.001). Painful electrical stimuli were perceived as more unpleasant than nonpainful stimuli (Fig. 1B). Furthermore, a significant main effect of visual stimulation (F1,17 = 8.60, P < 0.01) revealed that painful and nonpainful electrical stimuli were perceived as more unpleasant when participants saw a needle prick (M = 38.09) compared with a Q-tip touch (M = 31.32). No other significant effects were found. The anova for intensity ratings revealed a significant main effect of electrical stimulation (F1,17 = 418.67, P < 0.001). Ratings were higher for painful compared with nonpainful stimuli (Fig. 1B). Moreover, a significant interaction of the factors electrical stimulation × visual stimulation was observed (F1,17 = 4.82, P = 0.042).

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