, De Groot 1984; Balota and Lorch 1986; Neely 1991; McNamara and

, De Groot 1984; Balota and Lorch 1986; Neely 1991; McNamara and Holbrook 2003). Our results provide a clear picture: the two semantic

tasks activated the same left-lateralized fronto-temporal network, recruiting the fusiform gyrus, the cingulate cortex, the IFG, and MFG, irrespective of the presence of a binary decision component. No linguistic task effects could be observed in the LIFG. However, silently thinking about a word’s meaning showed higher Inhibitors,research,lifescience,medical activation in inferior parietal brain areas compared to semantic categorization, but no brain area was more active for semantic categorization. Regarding associative priming effects, we found neural associative suppression effects in bilateral Abiraterone cost superior temporal brain areas, occipito-temporal, and medial frontal brain regions independently of the linguistic task. However, one brain area seemed to be selectively

activated as a function of the binary decision process, namely the right Inhibitors,research,lifescience,medical IFG. At the behavioral level for semantic categorization, Inhibitors,research,lifescience,medical there was a significant 30-msec associative priming effect indicating that lexical access was facilitated (cf., Meyer and Schvaneveldt 1971). No inhibition effects were observed as expected for experimental paradigms with short SOAs and low PRPs (cf., Neely 1977). For silently thinking about a word’s meaning, we observed high accuracy rates in the postscanning recognition-test with a significant Inhibitors,research,lifescience,medical positive correlation between hits and correct rejections emphasizing that participants

did well process the critical words. Neural associative suppression effects Observation of neural associative suppression Inhibitors,research,lifescience,medical effects in a fronto-temporal network across both tasks indicates that semantic processing was facilitated for related compared to unrelated word pairs (Copland et al. 2003; Wheatley et al. 2005; Gold et al. 2006). In the present research, the neuroanatomical activation pattern of associative suppression effects in frontal and temporal brain areas is in line with the assumption that semantic processing necessitates that prefrontal brain regions interact with temporal brain regions (cf., Roskies et al. 2001). We propose that the neural associative Tryptophan synthase suppression effect in the STG and MTG likely reflects facilitated lexical access of the second word of an associatively related word pair at the level of the mental lexicon (cf., Howard et al. 1992; Fiebach et al. 2002). Temporal brain areas are discussed as being involved in accessing, selecting, gating, or retrieving semantic information stored in lexical entries of the mental lexicon (Roskies et al. 2001).

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