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Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex.

Publication ,  Journal Article
Wongsarnpigoon, A; Grill, WM
Published in: Journal of neural engineering
December 2011

Epidural electrical stimulation (ECS) of the motor cortex is a developing therapy for neurological disorders. Both placement and programming of ECS systems may affect the therapeutic outcome, but the treatment parameters that will maximize therapeutic outcomes and minimize side effects are not known. We delivered ECS to the motor cortex of anesthetized cats and investigated the effects of electrode placement and stimulation parameters on thresholds for evoking motor responses in the contralateral forelimb. Thresholds were inversely related to stimulation frequency and the number of pulses per stimulus train. Thresholds were lower over the forelimb representation in motor cortex (primary site) than surrounding sites (secondary sites), and thresholds at sites <4 mm away from the primary site were significantly lower than at sites >4 mm away. Electrode location and montage influenced the effects of polarity on thresholds: monopolar anodic and cathodic thresholds were not significantly different over the primary site, cathodic thresholds were significantly lower than anodic thresholds over secondary sites and bipolar thresholds were significantly lower with the anode over the primary site than with the cathode over the primary site. A majority of bipolar thresholds were either between or equal to the respective monopolar thresholds, but several bipolar thresholds were greater than or less than the monopolar thresholds of both the anode and cathode. During bipolar stimulation, thresholds were influenced by both electric field superposition and indirect, synaptically mediated interactions. These results demonstrate the influence of stimulation parameters and electrode location during cortical stimulation, and these effects should be considered during the programming of systems for therapeutic cortical stimulation.

Duke Scholars

Published In

Journal of neural engineering

DOI

EISSN

1741-2552

ISSN

1741-2560

Publication Date

December 2011

Volume

8

Issue

6

Start / End Page

066016

Related Subject Headings

  • Motor Cortex
  • Evoked Potentials, Motor
  • Epidural Space
  • Electrodes, Implanted
  • Electric Stimulation
  • Cats
  • Biomedical Engineering
  • Animals
  • 4003 Biomedical engineering
  • 3209 Neurosciences
 

Citation

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ICMJE
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Wongsarnpigoon, A., & Grill, W. M. (2011). Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex. Journal of Neural Engineering, 8(6), 066016. https://doi.org/10.1088/1741-2560/8/6/066016
Wongsarnpigoon, Amorn, and Warren M. Grill. “Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex.Journal of Neural Engineering 8, no. 6 (December 2011): 066016. https://doi.org/10.1088/1741-2560/8/6/066016.
Wongsarnpigoon A, Grill WM. Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex. Journal of neural engineering. 2011 Dec;8(6):066016.
Wongsarnpigoon, Amorn, and Warren M. Grill. “Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex.Journal of Neural Engineering, vol. 8, no. 6, Dec. 2011, p. 066016. Epmc, doi:10.1088/1741-2560/8/6/066016.
Wongsarnpigoon A, Grill WM. Effects of stimulation parameters and electrode location on thresholds for epidural stimulation of cat motor cortex. Journal of neural engineering. 2011 Dec;8(6):066016.
Journal cover image

Published In

Journal of neural engineering

DOI

EISSN

1741-2552

ISSN

1741-2560

Publication Date

December 2011

Volume

8

Issue

6

Start / End Page

066016

Related Subject Headings

  • Motor Cortex
  • Evoked Potentials, Motor
  • Epidural Space
  • Electrodes, Implanted
  • Electric Stimulation
  • Cats
  • Biomedical Engineering
  • Animals
  • 4003 Biomedical engineering
  • 3209 Neurosciences