Utility of EEG measures of brain function in patients with acute stroke

Author:

Wu Jennifer1,Srinivasan Ramesh2,Burke Quinlan Erin13,Solodkin Ana13,Small Steven L.3,Cramer Steven C.13

Affiliation:

1. Department of Anatomy and Neurobiology, University of California, Irvine, California;

2. Department of Cognitive Sciences, University of California, Irvine, California; and

3. Department of Neurology, University of California, Irvine, California

Abstract

EEG has been used to study acute stroke for decades; however, because of several limitations EEG-based measures rarely inform clinical decision-making in this setting. Recent advances in EEG hardware, recording electrodes, and EEG software could overcome these limitations. The present study examined how well dense-array (256 electrodes) EEG, acquired with a saline-lead net and analyzed with whole brain partial least squares (PLS) modeling, captured extent of acute stroke behavioral deficits and varied in relation to acute brain injury. In 24 patients admitted for acute ischemic stroke, 3 min of resting-state EEG was acquired at bedside, including in the ER and ICU. Traditional quantitative EEG measures (power in a specific lead, in any frequency band) showed a modest association with behavioral deficits [NIH Stroke Scale (NIHSS) score] in bivariate models. However, PLS models of delta or beta power across whole brain correlated strongly with NIHSS score ( R2 = 0.85–0.90) and remained robust when further analyzed with cross-validation models ( R2 = 0.72–0.73). Larger infarct volume was associated with higher delta power, bilaterally; the contralesional findings were not attributable to mass effect, indicating that EEG captures significant information about acute stroke effects not available from MRI. We conclude that 1) dense-array EEG data are feasible as a bedside measure of brain function in patients with acute stroke; 2) high-dimension EEG data are strongly correlated with acute stroke behavioral deficits and are superior to traditional single-lead metrics in this regard; and 3) EEG captures significant information about acute stroke injury not available from structural brain imaging.

Publisher

American Physiological Society

Subject

Physiology,General Neuroscience

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