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Reactivation of schema representation in lateral occipital cortex supports successful memory encoding

Dingrong Guo, Jiongjiong Yang

2022Cerebral Cortex26 citationsDOIOpen Access PDF

Abstract

Schemas provide a scaffold onto which we can integrate new memories. Previous research has investigated the brain activity and connectivity underlying schema-related memory formation. However, how schemas are represented and reactivated in the brain, in order to enhance memory, remains unclear. To address this issue, we used an object-location spatial schema that was learned over multiple sessions, combined with similarity analyses of neural representations, to investigate the reactivation of schema representations of object-location memories when a new object-scene association is learned. In addition, we investigated how this reactivation affects subsequent memory performance under different strengths of schemas. We found that reactivation of a schema representation in the lateral occipital cortex (LOC) during object-scene encoding affected subsequent associative memory performance only in the schema-consistent condition and increased the functional connectivity between the LOC and the parahippocampal place area. Taken together, our findings provide new insight into how schema acts as a scaffold to support the integration of novel information into existing cortical networks and suggest a neural basis for schema-induced rapid cortical learning.

Topics & Concepts

Encoding (memory)NeuroscienceSchema (genetic algorithms)Representation (politics)Occipital lobeComputer scienceCortex (anatomy)PsychologyInformation retrievalPolitical sciencePoliticsLawMemory and Neural MechanismsMemory Processes and InfluencesNeural and Behavioral Psychology Studies