Movement context modulates neuronal activity in motor and limbic-associative domains of the human parkinsonian subthalamic nucleus

Odeya Marmor*, Pnina Rappel, Dan Valsky, Atira S. Bick, David Arkadir, Eduard Linetsky, Or Peled, Idit Tamir, Hagai Bergman, Zvi Israel, Renana Eitan

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

9 Scopus citations

Abstract

The subthalamic nucleus (STN), a preferred target for treating movement disorders, has a crucial role in inhibition and execution of movement. To better understand the mechanism of movement regulation in the STN of Parkinson's disease patients, we compared the same movement with different context, facilitation vs. inhibition context. We recorded subthalamic multiunit activity intra-operatively while parkinsonian patients (off medications, n = 43 patients, 173 recording sites) performed increasingly complex oddball paradigms with frequent and deviant tones: first, passive listening to tone series with no movement (‘None-Go’ task, n = 7, 28 recording sites); second, pressing a button after every tone (‘All-Go’ task, n = 7, 26 recording sites); and third, pressing a button only for frequent tones, thus adding inhibition of movement following deviant tones (‘Go-NoGo’ task, n = 29, 119 recording sites). The STN responded mainly to movement-involving tasks. In the limbic-associative STN, evoked response to the deviant tone (inhibitory cue) was not significantly different between the Go-NoGo and the All-Go task. However, the evoked response to the frequent tone (go cue) in the Go-NoGo task was significantly reduced. The reduction was mainly prominent in the negative component of the evoked response amplitude aligned to the press. Successful movement inhibition was correlated with higher baseline activity. We suggest that the STN in Parkinson's disease patients adapts to movement inhibition context by selectively decreasing the amplitude of neuronal activity. Thus, the STN enables movement inhibition not by increasing responses to the inhibitory cue but by reducing responses to the release cue. The negative component of the evoked response probably facilitates movement and a higher baseline activity enables successful inhibition of movement. These discharge modulations were found in the ventromedial, non-motor domain of the STN and therefore suggest a significant role of the limbic- associative STN domains in movement planning and in global movement regulation.

Original languageEnglish
Article number104716
JournalNeurobiology of Disease
Volume136
DOIs
StatePublished - Mar 2020

Bibliographical note

Publisher Copyright:
© 2019

Keywords

  • Deep brain stimulation
  • Movement inhibition
  • Movement planning
  • Multiunit activity
  • Parkinson's disease
  • Subthalamic nucleus

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