Local and distant responses to single pulse electrical stimulation reflect different forms of connectivity

Local and distant responses to single pulse electrical stimulation reflect different forms of connectivity

Measuring connectivity in the human brain involves innumerable approaches using both noninvasive (fMRI, EEG) and invasive (intracranial EEG or iEEG) recording modalities, including the use of external probing stimuli, such as direct electrical stimulation. To examine how different measures of connec...

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Bibliographic Details
Published in:NeuroImage (Orlando, Fla.) Vol. 237; no. C; p. 118094
Main Authors: Crocker, Britni, Ostrowski, Lauren, Williams, Ziv M., Dougherty, Darin D., Eskandar, Emad N., Widge, Alik S., Chu, Catherine J., Cash, Sydney S., Paulk, Angelique C.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 15-08-2021
Elsevier Limited
Elsevier
Subjects:
Brain
Brain mapping
Connectivity
Convulsions & seizures
Diffusion tensor imaging
Direct electrical stimulation
EEG
Electrical stimuli
Electrodes
Epilepsy
Estimates
Functional magnetic resonance imaging
Intracranial
Magnetic resonance imaging
Medical research
Neural networks
Neuroimaging
Patients
sEEG
Seizures
Structure-function relationships
United States > US
Massachusetts
sEEG
Intracranial
Connectivity
Direct electrical stimulation
Diffusion tensor imaging
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Summary:Measuring connectivity in the human brain involves innumerable approaches using both noninvasive (fMRI, EEG) and invasive (intracranial EEG or iEEG) recording modalities, including the use of external probing stimuli, such as direct electrical stimulation. To examine how different measures of connectivity correlate with one another, we compared ‘passive’ measures of connectivity during resting state conditions to the more ‘active’ probing measures of connectivity with single pulse electrical stimulation (SPES). We measured the network engagement and spread of the cortico-cortico evoked potential (CCEP) induced by SPES at 53 out of 104 total sites across the brain, including cortical and subcortical regions, in patients with intractable epilepsy (N=11) who were undergoing intracranial recordings as a part of their clinical care for identifying seizure onset zones. We compared the CCEP network to functional, effective, and structural measures of connectivity during a resting state in each patient. Functional and effective connectivity measures included correlation or Granger causality measures applied to stereoEEG (sEEGs) recordings. Structural connectivity was derived from diffusion tensor imaging (DTI) acquired before intracranial electrode implant and monitoring (N=8). The CCEP network was most similar to the resting state voltage correlation network in channels near to the stimulation location. In contrast, the distant CCEP network was most similar to the DTI network. Other connectivity measures were not as similar to the CCEP network. These results demonstrate that different connectivity measures, including those derived from active stimulation-based probing, measure different, complementary aspects of regional interrelationships in the brain.
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USDOE
ISSN:1053-8119
1095-9572
DOI:10.1016/j.neuroimage.2021.118094