Hae Won Shin

TL;DR: The results provide evidence for SFG playing a functional role in working memory and suggest that SFG may coordinate working memory through low‐frequency oscillations thus bolstering the feasibility of using intracranial electric stimulation for restoring cognitive function.

TL;DR: This approach allows for the analysis of iEEG data, single channel or multiple channels, during DCS, a crucial step in advancing the understanding of the effects of periodic stimulation and developing new therapies.

TL;DR: The results support the causal role of SFG in working memory and suggest that SFG may coordinate working memory through low-frequency oscillations thus bolstering the feasibility of targeting oscillations for restoring cognitive function.

TL;DR: It is found that in-phase stimulation results in improvements in performance compared to sham stimulation, and the idea that phase lag may play a key role in information transmission across brain regions is supported.

TL;DR: It is found that in-phase stimulation resulted in improvement in performance compared to sham stimulation and intracranially stimulating both regions simultaneously in participants undergoing invasive monitoring, and the results support the idea that phase lag may play a key role in information transmission across brain regions.