An integrated index of 14 EEG biomarkers (mAChR index) discriminated scopolamine-induced cognitive impairment from baseline with 90% cross-validated accuracy, significantly outperforming the single-best biomarker.
Does integrating multiple EEG biomarkers using machine learning improve the detection of scopolamine-induced cholinergic deficits and Alzheimer's disease compared to single biomarkers?
Integrating multiple EEG biomarkers using machine learning significantly enhances the accuracy of detecting cholinergic interventions and Alzheimer's disease pathophysiology, providing a robust surrogate endpoint for clinical trials.
Absolute Event Rate: 90% vs 79%
p-value: p=9 * 10^-29
Monitoring effects of disease or therapeutic intervention on brain function is increasingly important for clinical trials, albeit hampered by inter-individual variability and subtle effects. Here, we apply complementary biomarker algorithms to electroencephalography (EEG) recordings to capture the brain's multi-faceted signature of disease or pharmacological intervention and use machine learning to improve classification performance. Using data from healthy subjects receiving scopolamine we developed an index of the muscarinic acetylcholine receptor antagonist (mAChR) consisting of 14 EEG biomarkers. This mAChR index yielded higher classification performance than any single EEG biomarker with cross-validated accuracy, sensitivity, specificity and precision ranging from 88-92%. The mAChR index also discriminated healthy elderly from patients with Alzheimer's disease (AD); however, an index optimized for AD pathophysiology provided a better classification. We conclude that integrating multiple EEG biomarkers can enhance the accuracy of identifying disease or drug interventions, which is essential for clinical trials.
Simpraga et al. (Wed,) conducted a other in Healthy volunteers and Alzheimer's disease (n=158). Scopolamine vs. Placebo or Baseline was evaluated on Cross-validated classification accuracy of the mAChR index (baseline vs peak scopolamine) (p=9 * 10^-29). An integrated index of 14 EEG biomarkers (mAChR index) discriminated scopolamine-induced cognitive impairment from baseline with 90% cross-validated accuracy, significantly outperforming the single-best biomarker.