Noa Ofen

Direct brain recordings reveal occipital cortex involvement in memory development

Abstract:

Processing of low-level visual information shows robust developmental gains through childhood and adolescence. However, it is unknown whether low-level visual processing in the occipital cortex supports age-related gains in memory for complex visual stimuli. Here, we examined occipital alpha activity during visual scene encoding in 24 children and adolescents, aged 6.2–20.5 years, who performed a subsequent memory task while undergoing electrocorticographic recording. Scenes were classified as high- or low-complexity by the number of unique object categories depicted. We found that recognition of high-complexity, but not low-complexity, scenes increased with age. Age was associated with decreased alpha power and increased instantaneous alpha frequency during the encoding of subsequently recognized high- compared to low-complexity scenes. Critically, decreased alpha power predicted improved recognition of high-complexity scenes in adolescents. These findings demonstrate how the functional maturation of the occipital cortex supports the development of memory for complex visual scenes.

Authors:

  • Qin Yin

  • Elizabeth L Johnson

  • Lingfei Tang

  • Kurtis I Auguste

  • Robert T Knight

  • Eishi Asano

  • Noa Ofen

Date: 2020

DOI: https://doi.org/10.1016/j.neuropsychologia.2020.107625

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