E-Poster Orals

EPV006 - CORTICAL MAPPING IN CONVENTIONAL AND HIGH DOSE SPINAL CORD STIMULATION: AN EXPLORATORY POWER SPECTRUM AND FUNCTIONAL CONNECTIVITY ANALYSIS WITH ELECTROENCEPHALOGRAPHY (ID 205)

Session Name
E-Poster Orals
Presenter
  • Lisa Goudman, Belgium
Authors
  • Lisa Goudman, Belgium
  • Bengt Linderoth, Sweden
  • Maarten Moens, Belgium
Presentation Number
EPV006
Presentation Topic
04a. Movement Disorders

Abstract

Introduction

Spinal cord stimulation (SCS) is considered an effective pain-relieving treatment for patients with Failed Back Surgery Syndrome (FBSS). Despite the clinical effectiveness, it is unknown whether the altered functional connectivity in such patients, as compared to healthy persons, can be influenced by SCS. Therefore, the goal of this study is to evaluate whether brain connectivity assessed by EEG differs between baseline and SCS in patients with FBSS.

Methods/Materials

Eight patients with FBSS underwent a resting-state EEG protocol before SCS, 1.5 months and 2.5 months after receiving SCS. At each frequency band, power spectrums were compared for no SCS, conventional (CON) SCS and High Dose (HD) SCS. Functional connectivity, with the aid of eConnectome was also calculated.

Results

Significant differences in the average power density spectrum over the whole scalp were observed between no SCS, CON SCS and HD SCS in delta, theta and beta frequency bands (p < 0.01). The average power spectrum for CON SCS was significantly lower than the average power spectrum for HD SCS. Marked increases in strength of the information flow between electrode pair FC3-TP9 in the beta frequency band (p = 0.006) were found in favor of HD SCS.

Discussion

This exploratory study revealed differences in the power spectrum in the delta, theta and beta frequency bands between no SCS, CON SCS, and HD SCS. Additionally, increased strength between electrode pair FC3-TP9 was found during HD SCS, as compared to CON SCS and no SCS treatment. Both types of SCS probably have other predominant bottom-up mechanisms of action whereby HD SCS seems to activate the brain, in contrast to the inhibition by CON SCS.

Conclusions

The differences in power spectrum and connectivity between the three conditions lead to the hypothesis that HD SCS differs from CON SCS on average power spectrum, suggesting that HD SCS may have a higher contribution on the excitatory bottom-up pathway.

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