Waveform changes with the evolution of beta bursts in the human subthalamic nucleus.
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BORIS DOI
Publisher DOI
PubMed ID
32682236
Description
OBJECTIVE
Phasic bursts of beta band synchronisation have been linked to motor impairment in Parkinson's disease (PD). However, little is known about what terminates bursts.
METHODS
We used the Hilbert-Huang transform to investigate beta bursts in the local field potential recorded from the subthalamic nucleus in nine patients with PD on and off levodopa.
RESULTS
The sharpness of the beta waveform extrema fell as burst amplitude dropped. Conversely, an index of phase slips between waveform extrema, and the power of concurrent theta activity increased as burst amplitude fell. Theta activity was also increased on levodopa when beta bursts were attenuated. These phenomena were associated with reduction in coupling between beta phase and high gamma activity amplitude. We discuss how these findings may suggest that beta burst termination is associated with relative desynchronization of the beta drive, increase in competing theta activity and increased phase slips in the beta activity.
CONCLUSIONS
We characterise the dynamical nature of beta bursts, thereby permitting inferences about underlying activities and, in particular, about why bursts terminate.
SIGNIFICANCE
Understanding the dynamical nature of beta bursts may help point to interventions that can cause their termination and potentially treat motor impairment in PD.
Phasic bursts of beta band synchronisation have been linked to motor impairment in Parkinson's disease (PD). However, little is known about what terminates bursts.
METHODS
We used the Hilbert-Huang transform to investigate beta bursts in the local field potential recorded from the subthalamic nucleus in nine patients with PD on and off levodopa.
RESULTS
The sharpness of the beta waveform extrema fell as burst amplitude dropped. Conversely, an index of phase slips between waveform extrema, and the power of concurrent theta activity increased as burst amplitude fell. Theta activity was also increased on levodopa when beta bursts were attenuated. These phenomena were associated with reduction in coupling between beta phase and high gamma activity amplitude. We discuss how these findings may suggest that beta burst termination is associated with relative desynchronization of the beta drive, increase in competing theta activity and increased phase slips in the beta activity.
CONCLUSIONS
We characterise the dynamical nature of beta bursts, thereby permitting inferences about underlying activities and, in particular, about why bursts terminate.
SIGNIFICANCE
Understanding the dynamical nature of beta bursts may help point to interventions that can cause their termination and potentially treat motor impairment in PD.
Date of Publication
2020-09
Publication Type
Article
Subject(s)
Keyword(s)
Basal ganglia Beta bursts Local field potentials Motor network Subthalamic nucleus
Language(s)
en
Contributor(s)
Yeh, Chien-Hung | |
Al-Fatly, Bassam | |
Kühn, Andrea A | |
Meidahl, Anders C | |
Tan, Huiling | |
Brown, Peter |
Additional Credits
Series
Clinical neurophysiology
Publisher
Elsevier
ISSN
1388-2457
Access(Rights)
restricted