Visual-cognitive-motor tasks and resting-state EEG revealed frequency-specific alterations in oscillatory dynamics among chronic pain patients, reflecting impaired working-memory processing.
Observational
Do visual-cognitive-motor tasks alter EEG oscillatory dynamics differently in chronic pain patients compared to healthy controls?
Chronic pain is associated with frequency-specific alterations in resting and cognitive-associated EEG oscillatory dynamics, suggesting impaired visual working-memory processing.
Chronic pain (CP) represents a multidimensional condition in which cognitive and emotional factors shape the individual experience from perception to action. The purpose of this study was to characterize the functional significance of alterations in neural oscillatory dynamics underlying the transition from resting-state to cognitive load across distinct CP phenotypes. Continuous electroencephalographic data were acquired from patients with headache, migraine, and spine-related pain, as well as healthy controls, during rest and three visual-cognitive-motor (VCM) tasks: reaction time, working memory, and associative learning. First, within CP subgroups, we examined cognitive-load-related changes in oscillatory activity. In migraine patients, alpha/beta power attenuation induced during cognitive processing correlated with higher reported pain intensity. Relative to the spine-related pain group, migraine patients exhibited increased occipital alpha and gamma band activity during working memory and associative learning conditions, as a possible neurophysiological signature of cortical hyperexcitability. By comparing a subset of headache patients to healthy controls, we found elevated resting-state delta and gamma activity in the patient group. Under cognitive load conditions, headache patients showed higher power across delta, theta, beta, and gamma frequency bands. Delta and theta activity elicited during the working memory task correlated negatively with pain intensity. Our results demonstrate that the experience of chronic pain is accompanied by frequency-specific alterations in both resting and cognitive-associated oscillatory dynamics, reflecting impaired visual working-memory processing and top-down modulation of behaviorally relevant stimuli.
Chertic et al. (Wed,) conducted a observational in Chronic pain. Visual-cognitive-motor tasks vs. Resting-state / Healthy controls was evaluated on Changes in oscillatory activity (EEG spectral analysis). Visual-cognitive-motor tasks and resting-state EEG revealed frequency-specific alterations in oscillatory dynamics among chronic pain patients, reflecting impaired working-memory processing.
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