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Acute effects of deep brain stimulation on brain function in obsessive-compulsive disorder

Authors :
Katrin A. Bangel
Melisse Bais
Nadine Eijsker
P. Richard Schuurman
Pepijn van den Munckhof
Martijn Figee
Dirk J.A. Smit
Damiaan Denys
Netherlands Institute for Neuroscience (NIN)
Source :
Clinical Neurophysiology, 148, 109-117. Elsevier Ireland Ltd
Publication Year :
2023

Abstract

OBJECTIVE: Deep brain stimulation (DBS) is an effective treatment for refractory obsessive-compulsive disorder (OCD) yet neural markers of optimized stimulation parameters are largely unknown. We aimed to describe (sub-)cortical electrophysiological responses to acute DBS at various voltages in OCD. METHODS: We explored how DBS doses between 3-5 V delivered to the ventral anterior limb of the internal capsule of five OCD patients affected electroencephalograms and intracranial local field potentials (LFPs). We focused on theta power/ phase-stability, given their previously established role in DBS for OCD. RESULTS: Cortical theta power and theta phase-stability did not increase significantly with DBS voltage. DBS-induced theta power peaks were seen at the previously defined individualized therapeutic voltage. Although LFP power generally increased with DBS voltages, this occurred mostly in frequency peaks that overlapped with stimulation artifacts limiting its interpretability. Though highly idiosyncratic, three subjects showed significant acute DBS effects on electroencephalogram theta power and four subjects showed significant carry-over effects (pre-vs post DBS, unstimulated) on LFP and electroencephalogram theta power. CONCLUSIONS: Our findings challenge the presence of a consistent dose-response relationship between stimulation voltage and brain activity. SIGNIFICANCE: Theta power may be investigated further as a neurophysiological marker to aid personalized DBS voltage optimization in OCD.

Details

Language :
English
ISSN :
13882457
Volume :
148
Database :
OpenAIRE
Journal :
Clinical Neurophysiology
Accession number :
edsair.doi.dedup.....f339c70bdd77f778f58a9b0ad7b3ba47
Full Text :
https://doi.org/10.1016/j.clinph.2022.12.012