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A computational study on the optimization of transcranial temporal interfering stimulation with high-definition electrodes using unsupervised neural networksopen access

Authors
Sangkyu BahnChany LeeBo-Yeong Kang
Issue Date
Apr-2023
Publisher
John Wiley & Sons Inc.
Keywords
noninvasive deep brain stimulation; optimization; transcranial temporal interference stimulation; unsupervised neural network
Citation
Human Brain Mapping, v.44, no.5, pp.1829 - 1845
Journal Title
Human Brain Mapping
Volume
44
Number
5
Start Page
1829
End Page
1845
URI
http://scholarworks.bwise.kr/kbri/handle/2023.sw.kbri/174
DOI
10.21203/rs.3.rs-957062/v1
ISSN
1065-9471
Abstract
Transcranial temporal interfering stimulation (tTIS) can focally stimulate deep parts of the brain related to specific functions using beats at two high frequencies that do not individually affect the human brain. However, the complexity and nonlinearity of the simulation limit it in terms of calculation time and optimization precision. We propose a method to quickly optimize the interfering current value of high-definition electrodes, which can finely stimulate the deep part of the brain, using an unsupervised neural network (USNN) for tTIS. We linked a network that generates the values of electrode currents to another network, which is constructed to compute the interference exposure, for optimization by comparing the generated stimulus with the target stimulus. Further, a computational study was conducted using 16 realistic head models. We also compared tTIS with transcranial alternating current stimulation (tACS), in terms of performance and characteristics. The proposed method generated the strongest stimulation at the target, even when targeting deep areas or performing multi-target stimulation. The high-definition tTISl was less affected than tACS by target depth, and mis-stimulation was reduced compared with the case of using two-pair inferential stimulation in deep region. The optimization of the electrode currents for the target stimulus could be performed in 3 min. Using the proposed USNN for tTIS, we demonstrated that the electrode currents of tTIS can be optimized quickly and accurately. Moreover, we confirmed the possibility of precisely stimulating the deep parts of the brain via transcranial electrical stimulation.
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