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Neural correlates of derived relational responding on tests of stimulus equivalence

BACKGROUND: An essential component of cognition and language involves the formation of new conditional relations between stimuli based upon prior experiences. Results of investigations on transitive inference (TI) highlight a prominent role for the medial temporal lobe in maintaining associative rel...

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Autores principales: Schlund, Michael W, Cataldo, Michael F, Hoehn-Saric, Rudolf
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2008
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2276226/
https://www.ncbi.nlm.nih.gov/pubmed/18241338
http://dx.doi.org/10.1186/1744-9081-4-6
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author Schlund, Michael W
Cataldo, Michael F
Hoehn-Saric, Rudolf
author_facet Schlund, Michael W
Cataldo, Michael F
Hoehn-Saric, Rudolf
author_sort Schlund, Michael W
collection PubMed
description BACKGROUND: An essential component of cognition and language involves the formation of new conditional relations between stimuli based upon prior experiences. Results of investigations on transitive inference (TI) highlight a prominent role for the medial temporal lobe in maintaining associative relations among sequentially arranged stimuli (A > B > C > D > E). In this investigation, medial temporal lobe activity was assessed while subjects completed "Stimulus Equivalence" (SE) tests that required deriving conditional relations among stimuli within a class (A ≡ B ≡ C). METHODS: Stimuli consisted of six consonant-vowel-consonant triads divided into two classes (A1, B1, C1; A2, B2, C2). A simultaneous matching-to-sample task and differential reinforcement were employed during pretraining to establish the conditional relations A1:B1 and B1:C1 in class 1 and A2:B2 and B2:C2 in class 2. During functional neuroimaging, recombined stimulus pairs were presented and subjects judged (yes/no) whether stimuli were related. SE tests involved presenting three different types of within-class pairs: Symmetrical (B1 A1; C1 B1; B2 A2; C2 B2), and Transitive (A1 C1; A2 C2) and Equivalence (C1 A1; C2 A2) relations separated by a nodal stimulus. Cross-class 'Foils' consisting of unrelated stimuli (e.g., A1 C2) were also presented. RESULTS: Relative to cross-class Foils, Transitive and Equivalence relations requiring inferential judgments elicited bilateral activation in the anterior hippocampus while Symmetrical relations elicited activation in the parahippocampus. Relative to each derived relation, Foils generally elicited bilateral activation in the parahippocampus, as well as in frontal and parietal lobe regions. CONCLUSION: Activation observed in the hippocampus to nodal-dependent derived conditional relations (Transitive and Equivalence relations) highlights its involvement in maintaining relational structure and flexible memory expression among stimuli within a class (A ≡ B ≡ C).
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spelling pubmed-22762262008-03-28 Neural correlates of derived relational responding on tests of stimulus equivalence Schlund, Michael W Cataldo, Michael F Hoehn-Saric, Rudolf Behav Brain Funct Research BACKGROUND: An essential component of cognition and language involves the formation of new conditional relations between stimuli based upon prior experiences. Results of investigations on transitive inference (TI) highlight a prominent role for the medial temporal lobe in maintaining associative relations among sequentially arranged stimuli (A > B > C > D > E). In this investigation, medial temporal lobe activity was assessed while subjects completed "Stimulus Equivalence" (SE) tests that required deriving conditional relations among stimuli within a class (A ≡ B ≡ C). METHODS: Stimuli consisted of six consonant-vowel-consonant triads divided into two classes (A1, B1, C1; A2, B2, C2). A simultaneous matching-to-sample task and differential reinforcement were employed during pretraining to establish the conditional relations A1:B1 and B1:C1 in class 1 and A2:B2 and B2:C2 in class 2. During functional neuroimaging, recombined stimulus pairs were presented and subjects judged (yes/no) whether stimuli were related. SE tests involved presenting three different types of within-class pairs: Symmetrical (B1 A1; C1 B1; B2 A2; C2 B2), and Transitive (A1 C1; A2 C2) and Equivalence (C1 A1; C2 A2) relations separated by a nodal stimulus. Cross-class 'Foils' consisting of unrelated stimuli (e.g., A1 C2) were also presented. RESULTS: Relative to cross-class Foils, Transitive and Equivalence relations requiring inferential judgments elicited bilateral activation in the anterior hippocampus while Symmetrical relations elicited activation in the parahippocampus. Relative to each derived relation, Foils generally elicited bilateral activation in the parahippocampus, as well as in frontal and parietal lobe regions. CONCLUSION: Activation observed in the hippocampus to nodal-dependent derived conditional relations (Transitive and Equivalence relations) highlights its involvement in maintaining relational structure and flexible memory expression among stimuli within a class (A ≡ B ≡ C). BioMed Central 2008-02-01 /pmc/articles/PMC2276226/ /pubmed/18241338 http://dx.doi.org/10.1186/1744-9081-4-6 Text en Copyright © 2008 Schlund et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( (http://creativecommons.org/licenses/by/2.0) ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research
Schlund, Michael W
Cataldo, Michael F
Hoehn-Saric, Rudolf
Neural correlates of derived relational responding on tests of stimulus equivalence
title Neural correlates of derived relational responding on tests of stimulus equivalence
title_full Neural correlates of derived relational responding on tests of stimulus equivalence
title_fullStr Neural correlates of derived relational responding on tests of stimulus equivalence
title_full_unstemmed Neural correlates of derived relational responding on tests of stimulus equivalence
title_short Neural correlates of derived relational responding on tests of stimulus equivalence
title_sort neural correlates of derived relational responding on tests of stimulus equivalence
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2276226/
https://www.ncbi.nlm.nih.gov/pubmed/18241338
http://dx.doi.org/10.1186/1744-9081-4-6
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