AUTHOR=Seyyed Mousavi S. Alireza , Javadzadeh Sina , Asadi Mehrnaz , Ivry Richard B. , Sanger Terence D. 

TITLE=Behaviorally coupled oscillations reveal distinct timing roles of basal ganglia and cerebellothalamic circuits in dystonia

JOURNAL=Dystonia

VOLUME=Volume 4 - 2025

YEAR=2025

URL=https://www.frontierspartnerships.org/journals/dystonia/articles/10.3389/dyst.2025.15390

DOI=10.3389/dyst.2025.15390

ISSN=2813-2106

ABSTRACT=As part of a deep brain stimulation (DBS) procedure, direct electrophysiological recordings from thalamic and basal ganglia circuits were obtained from a pediatric participant with secondary dystonia to examine the neural mechanisms of motor timing. The participant performed a two-phase repetitive timing task that began with synchronization to a series of externally presented auditory cues, followed by a continuation phase in which the participant maintained the movement rhythm without external guidance. Simultaneous recordings from stereoelectroencephalography (sEEG) leads implanted in the globus pallidus internus (GPi), subthalamic nucleus (STN), ventral oralis (Vo), centromedian nucleus (CM), and thalamic nuclei receiving projections from the cerebellum (ventral intermediate nucleus (VIM) and centrolateral nucleus (CL)) revealed behaviorally relevant neural dynamics. Local field potentials (LFPs) from recorded nuclei exhibited strong, time-locked responses during the synchronization phase, with reduced amplitudes during the continuation phase. Time-frequency analysis showed consistent power increases around the corresponding mean of the inter-response intervals (IRIs) in both behavioral output and neural signals, suggesting frequency-specific entrainment across circuits. These findings suggest of cerebellar-thalamic and basal ganglia contributions to temporal coordination.