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Flexibility of functional neuronal assemblies supports human memory

Gray Umbach, Ryan Tan, Joshua Jacobs, Brad E. Pfeiffer, Bradley Lega

2022Nature Communications21 citationsDOIOpen Access PDF

Abstract

Episodic memories, or consciously accessible memories of unique events, represent a key aspect of human cognition. Evidence from rodent models suggests that the neural representation of these complex memories requires cooperative firing of groups of neurons on short time scales, organized by gamma oscillations. These co-firing groups, termed "neuronal assemblies," represent a fundamental neurophysiological unit supporting memory. Using microelectrode data from neurosurgical patients, we identify neuronal assemblies in the human MTL and show that they exhibit consistent organization in their firing pattern based on gamma phase information. We connect these properties to memory performance across recording sessions. Finally, we describe how human neuronal assemblies flexibly adjust over longer time scales. Our findings provide key evidence linking assemblies to human episodic memory for the first time.

Topics & Concepts

NeuroscienceEpisodic memoryComputer scienceFlexibility (engineering)Human memoryBiological neural networkCognitionHuman brainRepresentation (politics)NeurophysiologyKey (lock)Cognitive sciencePsychologyLawPolitical scienceStatisticsMathematicsPoliticsComputer securityNeural dynamics and brain functionNeuroscience and Neural EngineeringMemory and Neural Mechanisms
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