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Disentangling the roles of neocortical alpha/beta and hippocampal theta/gamma activity in human episodic memory
- Benjamin Griffiths
- María Carmen Martín-Buro
- Bernhard P. Staresina
- Simon Hanslmayr
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Description: Preprint: https://www.biorxiv.org/content/10.1101/2020.01.22.915330v1 Episodic memory relies on two processes: 1) our ability to process a vast amount of sensory information, and 2) our ability to bind these sensory representations together to form a coherent memory. The first process is thought to rely on neocortical alpha/beta desynchronisation while the second is thought to be supported by hippocampal theta and gamma synchronisation. However, recent empirical evidence suggests that these two neural phenomena are contingent on one another, questioning whether alpha/beta desynchronisation and theta/gamma synchronisation truly reflect distinct processes. Here, we addressed this question by asking seventeen participants to complete a paradigm that temporally separated sensory information representation and mnemonic binding while undergoing MEG recordings. We found that, during the sensory representation of task-relevant information, neocortical alpha/beta power monotonically decreased with the number of items recalled from a sequence. During mnemonic binding however, hippocampal theta/gamma phase-amplitude coupling monotonically increased with the number of sequence items later recalled. These results suggest a double dissociation between neocortical alpha/beta oscillations and hippocampal theta/gamma oscillations, where the alpha/beta desynchronisation relates to information representation while the latter relates to mnemonic. In short, it appears that alpha/beta desynchronisation and hippocampal theta/gamma synchronisation contribute to separable processes in episodic memory.