An Investigation of the Modulating Effects of Sensory Stimulation and Transcranial Magnetic Stimulation on Memory-Related Brain Activity
Stevan Nikolin, Matthew Wang, Adriano Moffa, Haijing Huang, Mei Xu, Siddhartha Raj Pande, Donel Martin

TL;DR
This study explores how brain stimulation and sensory techniques affect memory-related brain activity, finding increased gamma activity but no memory improvement.
Contribution
The novel contribution is identifying increased gamma activity and theta-gamma coupling from specific stimulation methods, suggesting potential neural engagement for memory.
Findings
TBS and rTMS + AVS significantly increased gamma (40 Hz) activity compared to sham rTMS.
TBS induced widespread theta-gamma phase-amplitude coupling during picture viewing.
No significant differences in memory performance or theta activity were observed across conditions.
Abstract
Background/Objectives: As the global population ages, the prevalence of disorders associated with memory dysfunction (e.g., Alzheimer’s disease) continues to increase. There is a need for novel interventions that can enhance memory and support affected individuals. Non-invasive brain stimulation provides a promising approach to engage circuits within the hippocampal network, a group of brain regions critical for episodic memory, and thereby improve cognition. Methods: Twenty healthy participants completed a single-blind, within-subject crossover study over four sessions. In each session, they received one of four interventions whilst viewing pictures of real-world objects: 40 Hz synchronised audiovisual stimulation (AVS), theta burst stimulation (TBS), a combination of synchronised 5 Hz repetitive transcranial magnetic stimulation with AVS (rTMS + AVS), or sham rTMS.…
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Taxonomy
TopicsMultisensory perception and integration · Neural dynamics and brain function · Neuroscience and Music Perception
