# Neural correlates of prospective memory in Parkinson’s disease: a high-density EEG study

**Authors:** Paola Santacesaria, Stefano Vicentin, Giorgia Cona

PMC · DOI: 10.3389/fnagi.2026.1683562 · Frontiers in Aging Neuroscience · 2026-02-09

## TL;DR

This study uses EEG to explore how Parkinson’s disease affects brain activity during prospective memory tasks, revealing neural differences even when behavior appears normal.

## Contribution

The first high-density EEG study to investigate prospective memory in Parkinson’s disease patients without cognitive impairment.

## Key findings

- PD patients showed increased theta, alpha, and beta power during time-based PM tasks, indicating greater internal attention monitoring.
- During event-based PM tasks, PD patients exhibited reduced power in the same frequency bands, suggesting reliance on external attention.
- EEG detected neural changes in PD patients without behavioral differences, supporting compensatory mechanisms.

## Abstract

Prospective memory (PM), the ability to remember and execute intended actions in the future, is a critical component of daily functioning and independent living, particularly in individuals with Parkinson’s disease (PD). Although PM deficits in PD have been widely documented, their underlying neural mechanisms remain poorly understood.

This study addresses this gap by being the first to investigate the neurophysiological signatures of PM in a sample of 28 PD patients without mild cognitive impairment (MCI) and 34 matched healthy controls using high-density electroencephalography (hd-EEG). Participants completed naturalistic event-based and time-based PM tasks while monitoring virtual cooking activities embedded in a movie presented on a smart TV, with concurrent neurophysiological recording.

Behavioral performance did not differ between groups in either PM task, likely reflecting preserved global cognition in the PD sample; however, EEG analyses revealed marked oscillatory differences. During time-based PM tasks, PD patients exhibited increased theta, alpha, and beta power, suggesting greater engagement of internal attention monitoring and proactive control mechanisms. Conversely, during event-based PM tasks, PD patients showed reduced power in these frequency bands, consistent with a shift toward externally driven attention to monitor the occurrence of the PM event.

This pattern of findings can be interpreted within the framework of the Attention to Delayed Intention (AtoDI) model. Overall, the present study demonstrates that electrophysiological measures can detect subtle neural alterations in the absence of overt behavioral impairments and can reveal compensatory mechanisms adopted by PD patients to cope with PM demands.

## Linked entities

- **Diseases:** Parkinson’s disease (MONDO:0005180)

## Full-text entities

- **Genes:** SNCA (synuclein alpha) [NCBI Gene 6622] {aka NACP, PARK1, PARK4, PD1}
- **Diseases:** neurodegenerative disorder (MESH:D019636), functional (MESH:D003291), executive dysfunction (MESH:D006331), bradykinesia (MESH:D018476), AtoDI (MESH:D014202), PD (MESH:D010300), dementia (MESH:D003704), behavioral impairments (MESH:D001523), MCI (MESH:D060825), attentional deficit (MESH:D001289), rigidity (MESH:D009127), Supranuclear Palsy (MESH:D013494), cognitive decline (MESH:D003072), PM (MESH:D008569)
- **Chemicals:** dopamine (MESH:D004298)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12927035/full.md

## References

73 references — full list in the complete paper: https://tomesphere.com/paper/PMC12927035/full.md

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Source: https://tomesphere.com/paper/PMC12927035