# Involuntary Attention in Healthy Older Adults at Electroencephalographic Risk of Cognitive Decline: An ERP Study

**Authors:** Mauricio González‐López, Rodolfo Solís‐Vivanco, Thalía Harmony, Thalía Fernández

PMC · DOI: 10.1002/brb3.70970 · Brain and Behavior · 2025-10-20

## TL;DR

This study finds that older adults with high theta brain activity show delayed attentional responses, suggesting early signs of cognitive decline even when behavior seems normal.

## Contribution

The study identifies delayed ERP components in older adults with elevated theta activity, suggesting early neural markers of attentional decline.

## Key findings

- RG showed delayed P3a latencies at midline centroparietal regions.
- RG exhibited delayed RON at left parietal regions and a bilateral RON effect.
- Behavioral performance was preserved despite these neural delays.

## Abstract

The aging of the global population underscores the urgent need for the validation of biomarkers that can reliably distinguish individuals at risk of neurocognitive disorders. While quantitative EEG (qEEG) studies suggest that excessive theta activity predicts cognitive decline in the long term, less is known about whether increased theta can index current reduced cognitive resources, including attention, in older adults.

This study compared the distraction event‐related potential (Mismatch Negativity (MMN)‐P3a‐Reorientation Negativity (RON)), linked to involuntary attention, between 25 older adults with excessive theta activity (risk group, RG) and 25 controls (CG). Participants underwent an auditory duration discrimination task with standard and deviant tones while an EEG was recorded.

Behaviorally, both groups showed distraction effects, with no significant differences between them. There were no significant differences in the amplitudes of the distraction potential between groups. However, the RG exhibited delayed P3a latencies at midline centroparietal regions and delayed RON at left parietal regions. Topographically, the RG displayed a bilateral RON effect (vs. the CG's right‐lateralized distribution). The MMN latency remained unaffected.

These findings suggest delayed attentional orientation (P3a) and reorientation (RON) in at‐risk adults, despite preserved behavioral performance. The atypical RON distribution may reflect compensatory mechanisms mitigating cognitive inefficiencies. While at‐risk‐related neural delays did not yet manifest behaviorally, they highlight early electrophysiological markers of subclinical attentional decline. This underscores the utility of increased theta activity in detecting preclinical alterations, challenging the reliance on neuropsychological tests alone.

This study compared the distraction event‐related potential between 25 older adults with excessive theta activity (risk group, RG) and 25 controls (CG). Participants underwent an auditory duration discrimination task with standard and deviant tones while an EEG was recorded to obtain ERPs. Behaviorally, both groups showed distraction effects, with no significant differences between them. There were no significant differences in the amplitudes of the distraction potential between groups. However, the RG exhibited delayed P3a latencies at midline centroparietal regions and delayed RON at left parietal regions. These findings suggest delayed attentional orientation (P3a) and reorientation (RON) in at‐risk adults, despite preserved behavioral performance.

## Full-text entities

- **Diseases:** Cognitive Decline (MESH:D003072), neurocognitive disorders (MESH:D019965), attentional decline (MESH:D001289)

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12537827/full.md

## References

35 references — full list in the complete paper: https://tomesphere.com/paper/PMC12537827/full.md

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Source: https://tomesphere.com/paper/PMC12537827