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Time-Resolved Aperiodic and Oscillatory Dynamics during Human Visual Memory Encoding

Michael Preston, Natalie Schaworonkow, Bradley Voytek

2025Journal of Neuroscience19 citationsDOIOpen Access PDF

Abstract

Biological neural networks translate sensory information into neural code that is held in memory over long timescales. Theories for how this occurs often posit a functional role of neural oscillations. However, recent advances show that neural oscillations are often confounded with non-oscillatory, aperiodic neural activity. Here we analyze a dataset of intracranial human EEG recordings ( N = 13; 10 female) to test the hypothesis that aperiodic activity plays a role in visual memory, independent and distinct from oscillations. By leveraging a new approach to time-resolved parameterization of neural spectral activity, we find event-related changes in both oscillations and aperiodic activity during memory encoding. During memory encoding, aperiodic-adjusted alpha oscillatory power significantly decreases while, simultaneously, aperiodic neural activity “flattens out”. These results provide novel evidence for task-related dynamics of both aperiodic and oscillatory activity in human memory, paving the way for future investigations into the unique functional roles of these two neural processes in human cognition.

Topics & Concepts

Aperiodic graphEncoding (memory)Computer scienceElectroencephalographyNeuroscienceSensory systemCognitionNeural activityArtificial intelligencePsychologyMathematicsCombinatoricsNeural dynamics and brain functionNeuroscience and Neuropharmacology ResearchReceptor Mechanisms and Signaling
Time-Resolved Aperiodic and Oscillatory Dynamics during Human Visual Memory Encoding | Litcius