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Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease

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Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease. / Omejc, N.; Stankovski, T.; Peskar, M. et al.
In: IEEE Transactions on Neural Systems and Rehabilitation Engineering, Vol. 33, 31.12.2025, p. 488-501.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Omejc, N, Stankovski, T, Peskar, M, Kalc, M, Manganotti, P, Gramann, K, Džeroski, S & Marusic, U 2025, 'Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease', IEEE Transactions on Neural Systems and Rehabilitation Engineering, vol. 33, pp. 488-501. https://doi.org/10.1109/TNSRE.2025.3527578

APA

Omejc, N., Stankovski, T., Peskar, M., Kalc, M., Manganotti, P., Gramann, K., Džeroski, S., & Marusic, U. (2025). Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 33, 488-501. Advance online publication. https://doi.org/10.1109/TNSRE.2025.3527578

Vancouver

Omejc N, Stankovski T, Peskar M, Kalc M, Manganotti P, Gramann K et al. Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease. IEEE Transactions on Neural Systems and Rehabilitation Engineering. 2025 Dec 31;33:488-501. Epub 2025 Jan 9. doi: 10.1109/TNSRE.2025.3527578

Author

Omejc, N. ; Stankovski, T. ; Peskar, M. et al. / Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease. In: IEEE Transactions on Neural Systems and Rehabilitation Engineering. 2025 ; Vol. 33. pp. 488-501.

Bibtex

@article{d6f236b989f44fa0a98ac709e0e7155a,
title = "Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson{\textquoteright}s Disease",
abstract = "Introduction: Cortico-muscular (CM) interactions provide insights into the flow of information between neural and motor systems. Reduced CM phase connectivity has been linked to functional impairments in clinical populations. Objective: This study aimed to determine whether similar reductions occur in individuals with Parkinson{\textquoteright}s disease (PD), characterized primarily by motor impairments. Specifically, it aimed to characterize electroencephalography (EEG) and electromyography (EMG) power spectra during a motor task, assess CM phase connectivity, and explore how an additional cognitive task modulates these measures. Methodology: Fifteen individuals with early-stage PD and sixteen age-matched controls performed an isometric knee extension task, a cognitive task, and a combined dual task, while EEG (128 channels) and EMG (2x32 channels) were recorded. CM phase connectivity was analyzed through phase coherence and phase dynamics modeling. Results: The strongest CM phase coherence was observed in the lower beta band (12.5–15 Hz) over the Cz electrode and was significantly higher in healthy controls compared to individuals with PD during the motor task. The phase dynamics model additionally revealed stronger directional coupling from the Cz electrode to the active muscle, than in the reverse direction, with less pronounced phase coupling in the PD cohort. Notably, CM phase coherence exhibited distinct scalp topography and spectra characteristics compared to the EEG power spectrum, suggesting different mechanisms underlying Parkinsonian pathological beta power increase and CM phase connectivity. Lastly, despite high inter-individual variability, these metrics may prove useful for personalized assessments, particularly in people with heightened CM connectivity.",
author = "N. Omejc and T. Stankovski and M. Peskar and M. Kalc and P. Manganotti and K. Gramann and S. D{\v z}eroski and U. Marusic",
year = "2025",
month = jan,
day = "9",
doi = "10.1109/TNSRE.2025.3527578",
language = "English",
volume = "33",
pages = "488--501",
journal = "IEEE Transactions on Neural Systems and Rehabilitation Engineering",
issn = "1558-0210",
publisher = "IEEE Xplore",

}

RIS

TY - JOUR

T1 - Cortico-Muscular Phase Connectivity During an Isometric Knee Extension Task in People with Early Parkinson’s Disease

AU - Omejc, N.

AU - Stankovski, T.

AU - Peskar, M.

AU - Kalc, M.

AU - Manganotti, P.

AU - Gramann, K.

AU - Džeroski, S.

AU - Marusic, U.

PY - 2025/1/9

Y1 - 2025/1/9

N2 - Introduction: Cortico-muscular (CM) interactions provide insights into the flow of information between neural and motor systems. Reduced CM phase connectivity has been linked to functional impairments in clinical populations. Objective: This study aimed to determine whether similar reductions occur in individuals with Parkinson’s disease (PD), characterized primarily by motor impairments. Specifically, it aimed to characterize electroencephalography (EEG) and electromyography (EMG) power spectra during a motor task, assess CM phase connectivity, and explore how an additional cognitive task modulates these measures. Methodology: Fifteen individuals with early-stage PD and sixteen age-matched controls performed an isometric knee extension task, a cognitive task, and a combined dual task, while EEG (128 channels) and EMG (2x32 channels) were recorded. CM phase connectivity was analyzed through phase coherence and phase dynamics modeling. Results: The strongest CM phase coherence was observed in the lower beta band (12.5–15 Hz) over the Cz electrode and was significantly higher in healthy controls compared to individuals with PD during the motor task. The phase dynamics model additionally revealed stronger directional coupling from the Cz electrode to the active muscle, than in the reverse direction, with less pronounced phase coupling in the PD cohort. Notably, CM phase coherence exhibited distinct scalp topography and spectra characteristics compared to the EEG power spectrum, suggesting different mechanisms underlying Parkinsonian pathological beta power increase and CM phase connectivity. Lastly, despite high inter-individual variability, these metrics may prove useful for personalized assessments, particularly in people with heightened CM connectivity.

AB - Introduction: Cortico-muscular (CM) interactions provide insights into the flow of information between neural and motor systems. Reduced CM phase connectivity has been linked to functional impairments in clinical populations. Objective: This study aimed to determine whether similar reductions occur in individuals with Parkinson’s disease (PD), characterized primarily by motor impairments. Specifically, it aimed to characterize electroencephalography (EEG) and electromyography (EMG) power spectra during a motor task, assess CM phase connectivity, and explore how an additional cognitive task modulates these measures. Methodology: Fifteen individuals with early-stage PD and sixteen age-matched controls performed an isometric knee extension task, a cognitive task, and a combined dual task, while EEG (128 channels) and EMG (2x32 channels) were recorded. CM phase connectivity was analyzed through phase coherence and phase dynamics modeling. Results: The strongest CM phase coherence was observed in the lower beta band (12.5–15 Hz) over the Cz electrode and was significantly higher in healthy controls compared to individuals with PD during the motor task. The phase dynamics model additionally revealed stronger directional coupling from the Cz electrode to the active muscle, than in the reverse direction, with less pronounced phase coupling in the PD cohort. Notably, CM phase coherence exhibited distinct scalp topography and spectra characteristics compared to the EEG power spectrum, suggesting different mechanisms underlying Parkinsonian pathological beta power increase and CM phase connectivity. Lastly, despite high inter-individual variability, these metrics may prove useful for personalized assessments, particularly in people with heightened CM connectivity.

U2 - 10.1109/TNSRE.2025.3527578

DO - 10.1109/TNSRE.2025.3527578

M3 - Journal article

VL - 33

SP - 488

EP - 501

JO - IEEE Transactions on Neural Systems and Rehabilitation Engineering

JF - IEEE Transactions on Neural Systems and Rehabilitation Engineering

SN - 1558-0210

ER -