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Subthalamic Nucleus and Sensorimotor Cortex Activity During Speech Production.

Anna Chrabaszcz1, Wolf-Julian Neumann2, Otilia Stretcu3

  • 1Department of Psychology, University of Pittsburgh, Pittsburgh, Pennsylvania 15213.

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience
|February 1, 2019
PubMed
Summary
This summary is machine-generated.

The subthalamic nucleus (STN) encodes specific speech articulator information, with high-gamma activity preceding cortical encoding. This finding reveals subcortical contributions to speech production previously overlooked in models.

Keywords:
Parkinson's diseasedeep brain stimulationelectrocorticographysensorimotor cortexspeechsubthalamic nucleus

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Area of Science:

  • Neuroscience
  • Speech Science
  • Motor Control

Background:

  • The sensorimotor cortex's somatotopic organization for speech articulators is known.
  • Subcortical encoding of speech and articulatory features remains largely unexplored.
  • The subthalamic nucleus (STN), a basal ganglia node, is implicated in speech but its functional organization for articulators is unknown.

Purpose of the Study:

  • To investigate how speech and articulatory features are encoded at the subcortical level, specifically within the STN.
  • To compare the spatio-temporal organization of articulator-specific information in the STN and sensorimotor cortex.

Main Methods:

  • Simultaneous local field potential (LFP) recordings from the STN and electrocorticography from the sensorimotor cortex in 11 Parkinson's disease patients during deep-brain stimulation (DBS) surgery.
  • Analysis of high-gamma (60-150 Hz) power during the articulation of words with different primary articulators (tongue vs. lips).

Main Results:

  • Increased high-gamma power was observed in both the STN and sensorimotor cortex before and during speech articulation.
  • STN high-gamma activity demonstrated specificity for the primary articulator (tongue or lips), similar to the sensorimotor cortex, but without clear topography.
  • Subthalamic high-gamma activity showed greater power in dorsal locations and often preceded sensorimotor cortex activity in discriminating articulators.

Conclusions:

  • The STN contains articulator-specific speech information within its high-gamma activity.
  • The spatial and temporal organization of this information in the STN differs from that in the sensorimotor cortex.
  • These findings suggest the STN plays a significant, previously unmodeled, role in speech production at the level of vocal tract articulation.