Elizabeth L Johnson

Orbitofrontal cortex governs working memory for temporal order

abstract:

How do we think about time? Converging lesion and neuroimaging evidence indicates that orbitofrontal cortex (OFC) supports the encoding and retrieval of temporal context in long-term memory, which may contribute to confabulation in individuals with OFC damage. Here, we reveal that OFC damage diminishes working memory for temporal order, that is, the ability to disentangle the relative recency of events as they unfold. OFC lesions reduced working memory for temporal order but not spatial position, and individual deficits were commensurate with lesion size. Comparable effects were absent in patients with lesions restricted to lateral prefrontal cortex (PFC). Based on these findings, we propose that OFC supports understanding of the order of events. Well-documented behavioral changes in individuals with OFC damage may relate to impaired temporal-order understanding.

authors:

  • Elizabeth L Johnson

  • William K Chang

  • Callum D Dewar

  • Donna Sorensen

  • Jack J Lin

  • Anne-Kristin Solbakk

  • Tor Endestad

  • Pal G Larsson

  • Jugoslav Ivanovic

  • Torstein R Meling

  • Donatella Scabini

  • Robert T Knight

Date: 2022

DOI: https:// doi.org/10.1016/j.cub.2022.03.074.

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Prefrontal lesions disrupt oscillatory signatures of spatiotemporal integration in working memory

Abstract:

How does the human brain integrate spatial and temporal information into unified mnemonic representations? Building on classic theories of feature binding, we first define the oscillatory signatures of integrating ‘where’ and ‘when’ information in working memory (WM) and then investigate the role of prefrontal cortex (PFC) in spatiotemporal integration. Fourteen individuals with lateral PFC damage and 20 healthy controls completed a visuospatial WM task while electroencephalography (EEG) was recorded. On each trial, two shapes were presented sequentially in a top/bottom spatial orientation. We defined EEG signatures of spatiotemporal integration by comparing the maintenance of two possible where-when configurations: the first shape presented on top and the reverse. Frontal delta-theta (δθ; 2–7 Hz) activity, frontal-posterior δθ functional connectivity, lateral posterior event-related potentials, and mesial posterior alpha phase-to-gamma amplitude coupling dissociated the two configurations in controls. WM performance and frontal and mesial posterior signatures of spatiotemporal integration were diminished in PFC lesion patients, whereas lateral posterior signatures were intact. These findings reveal both PFC-dependent and independent substrates of spatiotemporal integration and link optimal performance to PFC.

Authors:

  • Mohsen Parto Dezfouli

  • Saeideh Davoudi

  • Robert T Knight

  • Mohammad Reza Daliri

  • Elizabeth L Johnson

Date: 2021

DOI: https://doi.org/10.1016/j.cortex.2021.01.016

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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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