Subthalamic Nucleus Oscillatory Characteristics in Meige, Cervical Dystonia and Generalized Dystonia

Subthalamic Nucleus Oscillatory Characteristics in Meige, Cervical Dystonia and Generalized Dystonia

ABSTRACT Objective Deep brain stimulation offers a unique opportunity to record neural activity of the basal ganglia. While much work in dystonia has focused on the globus pallidus internus, expanding research to investigate subthalamic nucleus (STN) activity in various dystonia types is critical to...

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Main Authors: Zhu Guan‐Yu, Yin Zi‐Xiao, Chen Ying‐Chuan, Timon Merk, Thomas Binns, Ma Ruo‐Yu, Du Ting‐Ting, Liu Yu‐Ye, Xie Hu‐Tao, Shi Lin, Yang An‐Chao, Meng Fan‐Gang, Wolf‐Julian Neumann, Andrea A. Kühn, Zhang Jian‐Guo
Format: Article
Language:English
Published: Wiley 2025-05-01
Series:Annals of Clinical and Translational Neurology
Subjects:
dystonia
local field potentials (LFPs)
subthalamic nucleus (STN)
Online Access:https://doi.org/10.1002/acn3.70040
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Summary:ABSTRACT Objective Deep brain stimulation offers a unique opportunity to record neural activity of the basal ganglia. While much work in dystonia has focused on the globus pallidus internus, expanding research to investigate subthalamic nucleus (STN) activity in various dystonia types is critical to provide a comprehensive understanding of dystonia pathophysiology. Methods STN and cortex activity were recorded from 17 patients with cervical dystonia (CD), 19 with Meige syndrome, and 9 with generalized dystonia (GD) during the lead externalized period. We investigated local and network oscillatory characteristics, including power, bursts, and coherence. Additionally, we explored the relationship between these features and the severity of dystonic symptoms within each group and conducted a comparative analysis across the different dystonia types. Results Peaks of low‐frequency (4–13 Hz) and beta (14–30 Hz) power were present in the STN of all patients; most of the beta peaks are distributed in the high beta range (20–30 Hz). The CD and GD groups showed longer low‐frequency bursts and greater high beta power in STN than the Meige group. Interestingly, the CD group showed stronger STN‐cortex low‐frequency coherence, while the GD group had stronger STN‐cortex high beta coherence. Combined, low‐frequency and beta features could predict symptom severity with a performance of 73% in the CD group and 82% in the GD group. Interpretation Low‐frequency and high‐beta oscillations are present in the STN across all three types of dystonia. The distinct patterns may be associated with different underlying pathological mechanisms.
ISSN:2328-9503

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