Persistence of Basal Ganglia Oscillatory Activity During Tremor Attenuation by Movement in Parkinson's Disease Patients

Miguel Wilken; Daniela S Andres; Gianfranco Bianchi; Mark Hallett; Marcelo Merello

doi:10.1002/mds.29679

Persistence of Basal Ganglia Oscillatory Activity During Tremor Attenuation by Movement in Parkinson's Disease Patients

Mov Disord. 2024 May;39(5):768-777. doi: 10.1002/mds.29679. Epub 2024 Feb 28.

Authors

Miguel Wilken^{1

2}, Daniela S Andres^{3

4}, Gianfranco Bianchi^{3

4}, Mark Hallett⁵, Marcelo Merello^{1

6}

Affiliations

¹ Movement Disorders, Neurology Department, Raúl Carrea Institute for Neurological Research (FLENI), Buenos Aires, Argentina.
² Clinical Neurophysiology, Neurology Department, Raúl Carrea Institute for Neurological Research (FLENI), Buenos Aires, Argentina.
³ Laboratory of Neuroengineering, Science and Technology School, National University of San Martín (UNSAM), Buenos Aires, Argentina.
⁴ Institute of Emergent Technologies and Applied Science, National Council on Scientific and Technical Research, National University of San Martin, Buenos Aires, Argentina.
⁵ National Institute of Neurological Disorders and Stroke (NINDS), National Institutes of Health (NIH), Bethesda, Maryland, USA.
⁶ Argentine National Scientific and Technical Research Council (CONICET), Buenos Aires, Argentina.

PMID: 38415321
DOI: 10.1002/mds.29679

Abstract

Background: One of the characteristics of parkinsonian tremor is that its amplitude decreases with movement. Current models suggest an interaction between basal ganglia (BG) and cerebello-thalamo-cortical circuits in parkinsonian tremor pathophysiology.

Objective: We aimed to correlate central oscillation in the BG with electromyographic activity during re-emergent tremor in order to detect changes in BG oscillatory activity when tremor is attenuated by movement.

Methods: We performed a prospective, observational study on consecutive parkinsonian patients who underwent deep brain stimulation surgery and presented re-emergent tremor. Coherence analysis between subthalamic nucleus/globus pallidus internus (STN/GPi) tremorous activity measured by microrecording (MER) and electromyogram (EMG) from flexor and extensor wrist muscles during rest, posture, and re-emergent tremor pause was performed during surgery. The statistical significance level of the MER-EMG coherence was determined using surrogate data analysis, and the directionality of information transfer between BG and muscle was performed using entropy transfer analysis.

Results: We analyzed 148 MERs with tremor-like activity from 6 patients which were evaluated against the simultaneous EMGs, resulting in 296 correlations. Of these, 26 presented a significant level of coherence at tremor frequency, throughout rest and posture, with a complete EMG stop in between. During the pause, all recordings showed sustained MER peaks at tremor frequency (±1.5 Hz). Information flows preferentially from BG to muscle during rest and posture, with a loss of directionality during the pause.

Conclusions: Our results suggest that oscillatory activity in STN/GPi functionally linked to tremor sustains firing frequency during re-emergent tremor pause, thus suggesting no direct role of the BG circuit on tremor attenuation due to voluntary movements. © 2024 International Parkinson and Movement Disorder Society.

Keywords: EMG; Parkinson's disease; basal ganglia; microrecording (MER); tremor.

Publication types

Observational Study

MeSH terms

Aged
Basal Ganglia* / physiopathology
Deep Brain Stimulation* / methods
Electromyography*
Female
Globus Pallidus / physiopathology
Humans
Male
Middle Aged
Movement* / physiology
Muscle, Skeletal / physiopathology
Parkinson Disease* / physiopathology
Prospective Studies
Subthalamic Nucleus* / physiopathology
Tremor* / physiopathology