Analytic consistency and neural correlates of peak alpha frequency in the study of pain
Several studies have found evidence of reduced resting-state peak alpha frequency (PAF) in populations with pain. However, the stability of PAF from different analytic pipelines used to study pain has not been determined and underlying neural correlates of PAF have not been validated in humans. For...
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Veröffentlicht in: | Journal of neuroscience methods 2022-02, Vol.368, p.109460-109460, Article 109460 |
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Zusammenfassung: | Several studies have found evidence of reduced resting-state peak alpha frequency (PAF) in populations with pain. However, the stability of PAF from different analytic pipelines used to study pain has not been determined and underlying neural correlates of PAF have not been validated in humans.
For the first time we compare analytic pipelines and the relationship of PAF to activity in the whole brain and thalamus, a hypothesized generator of PAF. We collected resting-state functional magnetic resonance imaging (rs-fMRI) data and subsequently 64 channel resting-state electroencephalographic (EEG) from 47 healthy men, controls from an ongoing study of chronic prostatitis (a pain condition affecting men). We identified important variations in EEG processing for PAF from a review of 17 papers investigating the relationship between pain and PAF. We tested three progressively complex pre-processing pipelines and varied four postprocessing variables (epoch length, alpha band, calculation method, and region-of-interest [ROI]) that were inconsistent across the literature.
We found a single principal component, well-represented by the average PAF across all electrodes (grand-average PAF), explained > 95% of the variance across participants. We also found the grand-average PAF was highly correlated among the pre-processing pipelines and primarily impacted by calculation method and ROI. Across methods, interindividual differences in PAF were correlated with rs-fMRI-estimated activity in the thalamus, insula, cingulate, and sensory cortices.
These results suggest PAF is a relatively stable marker with respect to common pre and post-processing methods used in pain research and reflects interindividual differences in thalamic and salience network function.
•Electroencephalography (EEG) processing pipelines vary widely in pain research.•Pain populations are heterogeneous and so are relationships with neural markers.•Potential EEG pain marker is robust against many common pre-processing differences.•EEG pain marker sensitive to calculation method and EEG region-of-interest.•EEG pain marker correlated with underlying activity in pain-related brain regions. |
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ISSN: | 0165-0270 1872-678X |
DOI: | 10.1016/j.jneumeth.2021.109460 |