Multistage classification identifies altered cortical phase- and amplitude-coupling in Multiple Sclerosis
| Autor: | Markus Siegel, J. Tuennerhoff, Ulf Ziemann, Marcus Siems |
|---|---|
| Rok vydání: | 2021 |
| Předmět: |
medicine.diagnostic_test
business.industry Cognitive Neuroscience Bootstrap aggregating Multiple sclerosis Central nervous system Magnetoencephalography medicine.disease Electrophysiology medicine.anatomical_structure Neurology Demyelinating disease medicine Premovement neuronal activity Cognitive decline business Neuroscience |
| Zdroj: | NeuroImage. 264 |
| ISSN: | 1095-9572 |
| Popis: | Distinguishing groups of subjects or experimental conditions in a high-dimensional feature space is a common goal in modern neuroimaging studies. Successful classification depends on the selection of relevant features as not every neuronal signal component or parameter is informative about the research question at hand. Here, we developed a novel unsupervised multistage analysis approach that combines dimensionality reduction, bootstrap aggregating and multivariate classification to select relevant neuronal features. We tested the approach by identifying changes of brain-wide electrophysiological coupling in Multiple Sclerosis. Multiple Sclerosis is a demyelinating disease of the central nervous system that can result in cognitive decline and physical disability. However, related changes in large-scale brain interactions remain poorly understood and corresponding non-invasive biomarkers are sparse. We thus compared brain-wide phase- and amplitude-coupling of frequency specific neuronal activity in relapsing-remitting Multiple Sclerosis patients (n = 17) and healthy controls (n = 17) using magnetoencephalography. Our analysis approach allowed us to identify systematic and non-redundant changes of both phase- and amplitude-coupling in the diseased brain. Changes included both, increased and decreased neuronal coupling in wide-spread, bilateral neuronal networks across a broad range of frequencies. These changes allowed to successfully classify patients and controls with an accuracy of 84%. Furthermore, classification confidence predicted behavioral scores of disease severity. In sum, our results unravel systematic changes of large-scale phase- and amplitude coupling in Multiple Sclerosis. Furthermore, our results establish a new analysis approach to efficiently contrast high-dimensional neuroimaging data between experimental groups or conditions.HighlightsA novel multistage approach to analyze high-dimensional neuronal coupling data.Application to MEG recordings in relapsing-remitting Multiple Sclerosis patients.Identification of altered phase- and amplitude-coupling in Multiple Sclerosis.Classification of patients and controls with 84% accuracy.Classification confidence predicts behavioral scores of disease severity. |
| Databáze: | OpenAIRE |
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