Schlund, M.W., Hoehn-Saric, R. & Cataldo, M.F. (2007).
New knowledge derived from learned knowledge: functional-anatomic correlates of stimulus equivalence.
Journal of the Experimental Analysis of Behavior, 87, 287-307.
Forming new knowledge based on knowledge established through prior learning is a central feature of higher
gnition that is captured in research on stimulus equivalence (SE). Numerous SE investigations show that
reinforcing behavior under control of distinct sets of arbitrary conditional relations gives rise to stimulus
control by new, derived relations. This investigation examined whether frontal-subcortical and frontal-parietal
networks known to support reinforced conditional relations also support derived conditional relations. Twelve
adult subjects completed matching-to-sample (MTS) training with correct/wrong feedback to establish four trained
conditional relations within two distinct, three-member stimulus classes: (1) A1→B1, B1→C1 and (2) A2→B2, B2→C2.
Afterwards, functional neuroimaging was performed when MTS trials were presented involving matching two identical
circles (a sensorimotor control condition), trained relations (A→B, B→C), and derived relations: symmetry
(B→A, C→B), transitivity (A→C), and equivalence (C→A). Conditional responding to trained and derived relations
was similarly correlated with bilateral activation in the targeted networks. Comparing trained to derived
relations, however, highlighted greater activation in several prefrontal regions—caudate, thalamus, and
putamen—which may represent the effects of extended training or feedback present during imaging. Each derived
relation also evidenced a unique activation pattern. Collectively, the findings extend the role of
frontal–subcortical and frontal–parietal networks to derived conditional relations and suggest that regional
involvement varies with the type of derived conditional relation.
Key words: stimulus equivalence, relational memory, conditional learning, visuomotor, neuroimaging, event-related fMRI, humans