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Cortical and Corticomuscular Beta‐Gamma Phase‐Amplitude Coupling During Different Locomotion States and the Effects of Levodopa in Parkinson's Disease

Haifeng Zhao, Shenglin Hao, Peiran Zhang, Shenghong He, Laura Wehmeyer, Ziyi Feng, Lu Xu, Shikun Zhan, Wei Liu, Xiaoxiao Zhang, Marie‐Laure Welter, Dianyou Li, Bomin Sun, Yong Lü, Huiling Tan, Chunyan Cao

2025Movement Disorders8 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Phase-amplitude coupling (PAC) in the beta-gamma range has emerged as a promising electrophysiological biomarker of Parkinson's disease (PD). OBJECTIVE: This study aims to investigate how levodopa and locomotion modulate cortical (central electroencephalogram [cEEG]) and corticomuscular (cEEG-gEMG [gastrocnemius electromyography]) beta-gamma PAC in patients with PD. METHODS: Thirty patients with PD underwent simultaneous cEEG and gEMG recordings during sitting, standing, and free walking in both off and on dopaminergic states. Spectral features and PAC analyses were conducted to assess the effects of levodopa, locomotion, and their associations with motor symptoms. RESULTS: In the off levodopa state, patients showed prolonged gait cycle intervals and shorter step lengths, correlating with higher Movement Disorder Society-revised Unified Parkinson's Disease Rating Scale Part III (UPDRS-III) scores. The cEEG beta-gamma PAC during sitting and standing, and cEEG-gEMG beta-gamma PAC during walking, positively correlated with UPDRS-III in the off levodopa state. The cEEG alpha/low beta-gamma and cEEG-gEMG low beta-gamma PAC increased from on to off levodopa while walking, with the latter correlating with reduced step length. Step event-related PAC analysis unveiled a dynamic enhancement of alpha/beta cEEG-gamma gEMG PAC around heel strikes in on levodopa compared with off. CONCLUSIONS: Both cortical and corticomuscular beta-gamma PACs are modulated by levodopa and locomotion, with low beta-gamma corticomuscular PAC specifically linked to gait dysfunction. Moreover, the levodopa-related enhancement of alpha/beta-gamma PAC during heel strikes highlights the functional relevance of dopaminergic modulation during gait. These findings highlight the potential of PAC as a biomarker for PD, particularly in the development of gait phase-locked adaptive deep brain stimulation strategies for patients with PD guided by noninvasive PAC monitoring. © 2025 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Topics & Concepts

Parkinson's diseaseLevodopaBETA (programming language)NeurosciencePhysical medicine and rehabilitationDegenerative diseasePsychologyDiseaseMedicineCentral nervous system diseaseInternal medicineComputer scienceProgramming languageNeurological disorders and treatmentsTranscranial Magnetic Stimulation StudiesMuscle activation and electromyography studies