iScience (Mar 2024)

Brain-wide human oscillatory local field potential activity during visual working memory

  • Balbir Singh,
  • Zhengyang Wang,
  • Leen M. Madiah,
  • S. Elizabeth Gatti,
  • Jenna N. Fulton,
  • Graham W. Johnson,
  • Rui Li,
  • Benoit M. Dawant,
  • Dario J. Englot,
  • Sarah K. Bick,
  • Shawniqua Williams Roberson,
  • Christos Constantinidis

Journal volume & issue
Vol. 27, no. 3
p. 109130

Abstract

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Summary: Oscillatory activity in the local field potential (LFP) is thought to be a marker of cognitive processes. To understand how it differentiates tasks and brain areas in humans, we recorded LFPs in 15 adults with intracranial depth electrodes, as they performed visual-spatial and shape working memory tasks. Stimulus appearance produced widespread, broad-band activation, including in occipital, parietal, temporal, insular, and prefrontal cortex, and the amygdala and hippocampus. Occipital cortex was characterized by most elevated power in the high-gamma (100–150 Hz) range during the visual stimulus presentation. The most consistent feature of the delay period was a systematic pattern of modulation in the beta frequency (16–40 Hz), which included a decrease in power of variable timing across areas, and rebound during the delay period. These results reveal the widespread nature of oscillatory activity across a broad brain network and region-specific signatures of oscillatory processes associated with visual working memory.

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