EEG microstate complexity for aiding early diagnosis of Alzheimer’s disease

Author:

Tait Luke,Tamagnini Francesco,Stothart George,Barvas Edoardo,Monaldini Chiara,Frusciante Roberto,Volpini Mirco,Guttmann Susanna,Coulthard Elizabeth,Brown Jon T.,Kazanina Nina,Goodfellow Marc

Abstract

AbstractThe dynamics of the resting brain exhibit transitions between a small number of discrete networks, each remaining stable for tens to hundreds of milliseconds. These functional microstates are thought to be the building blocks of spontaneous consciousness. The electroencephalogram (EEG) is a useful tool for imaging microstates, and EEG microstate analysis can potentially give insight into altered brain dynamics underpinning cognitive impairment in disorders such as Alzheimer’s disease (AD). Since EEG is non-invasive and relatively inexpensive, EEG microstates have the potential to be useful clinical tools for aiding early diagnosis of AD. In this study, EEG was collected from two independent cohorts of probable AD and cognitively healthy control participants, and a cohort of mild cognitive impairment (MCI) patients with four-year clinical follow-up. The microstate associated with the frontoparietal working-memory/attention network was altered in AD due to parietal inactivation. Using a novel measure of complexity, we found microstate transitioning was slower and less complex in AD. When combined with a spectral EEG measure, microstate complexity could classify AD with sensitivity and specificity > 80%, which was tested on an independent cohort, and could predict progression from MCI to AD in a small preliminary test cohort of 11 participants. EEG microstates therefore have potential to be a non-invasive functional biomarker of AD.

Funder

Alzheimer's Society

Garfield Weston Foundation

University of Bristol

Engineering and Physical Sciences Research Council

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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