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Connecting concepts in the brain by mapping cortical representations of semantic relations

Yizhen Zhang, Kuan Han, Robert M. Worth, Zhongming Liu

2020Nature Communications74 citationsDOIOpen Access PDF

Abstract

In the brain, the semantic system is thought to store concepts. However, little is known about how it connects different concepts and infers semantic relations. To address this question, we collected hours of functional magnetic resonance imaging data from human subjects listening to natural stories. We developed a predictive model of the voxel-wise response and further applied it to thousands of new words. Our results suggest that both semantic categories and relations are represented by spatially overlapping cortical patterns, instead of anatomically segregated regions. Semantic relations that reflect conceptual progression from concreteness to abstractness are represented by cortical patterns of activation in the default mode network and deactivation in the frontoparietal attention network. We conclude that the human brain uses distributed networks to encode not only concepts but also relationships between concepts. In particular, the default mode network plays a central role in semantic processing for abstraction of concepts.

Topics & Concepts

ConcretenessComputer scienceDefault mode networkSemantic memoryFunctional magnetic resonance imagingENCODENatural language processingAbstractionSemantics (computer science)Artificial intelligenceCognitive scienceCognitive psychologyPsychologyNeuroscienceCognitionBiologyGenePhilosophyBiochemistryProgramming languageEpistemologyNeural dynamics and brain functionFunctional Brain Connectivity StudiesMemory and Neural Mechanisms