Document detail
ID

oai:pubmedcentral.nih.gov:9541...

Topic
Regular Issue Articles
Author
Olson, Joseph W. Nakhmani, Arie Irwin, Zachary T. Edwards, Lloyd J. Gonzalez, Christopher L. Wade, Melissa H. Black, Sarah D. Awad, Mohammad Z. Kuhman, Daniel J. Hurt, Christopher P. Guthrie, Bart L. Walker, Harrison C.
Langue
en
Editor

John Wiley & Sons, Inc.

Category

Wiley-Blackwell Online Open

Year

2022

listing date

12/1/2023

Keywords
parkinson spectral hand beta stn power foot rest pd
Metrics

Abstract

BACKGROUND: Dystonia is an understudied motor feature of Parkinson's disease (PD).

Although considerable efforts have focused on brain oscillations related to the cardinal symptoms of PD, whether dystonia is associated with specific electrophysiological features is unclear.

OBJECTIVE: The objective of this study was to investigate subcortical and cortical field potentials at rest and during contralateral hand and foot movements in patients with PD with and without dystonia.

METHODS: We examined the prevalence and distribution of dystonia in patients with PD undergoing deep brain stimulation surgery.

During surgery, we recorded intracranial electrophysiology from the motor cortex and directional electrodes in the subthalamic nucleus (STN) both at rest and during self‐paced repetitive contralateral hand and foot movements.

Wavelet transforms and mixed models characterized changes in spectral content in patients with and without dystonia.

RESULTS: Dystonia was highly prevalent at enrollment (61%) and occurred most commonly in the foot.

Regardless of dystonia status, cortical recordings display beta (13–30 Hz) desynchronization during movements versus rest, while STN signals show increased power in low frequencies (6.0 ± 3.3 and 4.2 ± 2.9 Hz peak frequencies for hand and foot movements, respectively).

Patients with PD with dystonia during deep brain stimulation surgery displayed greater M1 beta power at rest and STN low‐frequency power during movements versus those without dystonia.

CONCLUSIONS: Spectral power in motor cortex and STN field potentials differs markedly during repetitive limb movements, with cortical beta desynchronization and subcortical low‐frequency synchronization, especially in patients with PD with dystonia.

Greater knowledge on field potential dynamics in human motor circuits can inform dystonia pathophysiology in PD and guide novel approaches to therapy.

© 2022 The Authors.

Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society

Olson, Joseph W.,Nakhmani, Arie,Irwin, Zachary T.,Edwards, Lloyd J.,Gonzalez, Christopher L.,Wade, Melissa H.,Black, Sarah D.,Awad, Mohammad Z.,Kuhman, Daniel J.,Hurt, Christopher P.,Guthrie, Bart L.,Walker, Harrison C., 2022, Cortical and Subthalamic Nucleus Spectral Changes During Limb Movements in Parkinson's Disease Patients with and Without Dystonia, John Wiley & Sons, Inc.

Document

Open Open

Share

Source

Articles recommended by ES/IODE AI

Psychosocial distress in young adults surviving hematological malignancies: a pilot study
adolescents and young adults (aya)... cancer survivor psychosocial distress quality of life sequelae anxiety survivors study reported distress cancer adult psychosocial