PLoS Computational Biology (Sep 2021)

Basis profile curve identification to understand electrical stimulation effects in human brain networks.

  • Kai J Miller,
  • Klaus-Robert Müller,
  • Dora Hermes

DOI
https://doi.org/10.1371/journal.pcbi.1008710
Journal volume & issue
Vol. 17, no. 9
p. e1008710

Abstract

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Brain networks can be explored by delivering brief pulses of electrical current in one area while measuring voltage responses in other areas. We propose a convergent paradigm to study brain dynamics, focusing on a single brain site to observe the average effect of stimulating each of many other brain sites. Viewed in this manner, visually-apparent motifs in the temporal response shape emerge from adjacent stimulation sites. This work constructs and illustrates a data-driven approach to determine characteristic spatiotemporal structure in these response shapes, summarized by a set of unique "basis profile curves" (BPCs). Each BPC may be mapped back to underlying anatomy in a natural way, quantifying projection strength from each stimulation site using simple metrics. Our technique is demonstrated for an array of implanted brain surface electrodes in a human patient. This framework enables straightforward interpretation of single-pulse brain stimulation data, and can be applied generically to explore the diverse milieu of interactions that comprise the connectome.