FAST functional connectivity implicates P300 in working memory deficits in Alzheimer’s disease

Om Roy*, Yashar Moshfeghi, Agustin Ibanez, Francisco Lopera, Mario A Parra, Keith Smith

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

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Abstract

Measuring transient functional connectivity is an important challenge in Electroencephalogram (EEG) research. Here, the rich potential for insightful, discriminative information of brain activity offered by high temporal resolution is confounded by the inherent noise of the medium and the spurious nature of correlations computed over short temporal windows. We propose a novel methodology to overcome these problems called Filter Average Short-Term (FAST) functional connectivity. First, long-term, stable, functional connectivity is averaged across an entire study cohort for a given pair of Visual Short Term Memory (VSTM) tasks. The resulting average connectivity matrix, containing information on the strongest general connections for the tasks, is used as a filter to analyse the transient hightemporal resolution functional connectivity of individual subjects. In simulations, we show that this method accurately discriminates differences in noisy Event-Related Potentials (ERPs) between two conditions where standard connectivity and other comparable methods fail. We then apply this to analyse activity related to visual short-term memory binding deficits in two cohorts of familial and sporadic Alzheimer’s disease. Reproducible significant differences were found in the binding task with no significant difference in the shape task in the P300 ERP range. This allows new sensitive measurements of transient functional connectivity, which can be implemented to obtain results of clinical significance.
Original languageEnglish
Number of pages11
JournalNetwork Neuroscience
Early online date13 Aug 2024
DOIs
Publication statusE-pub ahead of print - 13 Aug 2024

Keywords

  • FAST functional connectivity
  • electroencephalogram (EEG)
  • P300
  • memory deficits
  • Alzheimer's disease
  • network science

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