Saved in:
Bibliographic Details
Main Authors: Inoue, Taiga, Otsuru, Naofumi, Hirata, Akimasa
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.23290
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866917045411512320
author Inoue, Taiga
Otsuru, Naofumi
Hirata, Akimasa
author_facet Inoue, Taiga
Otsuru, Naofumi
Hirata, Akimasa
contents This study evaluated transcranial temporal interference stimulation (tTIS) for focal targeting of the insula and hippocampus, which are clinically relevant yet anatomically difficult to stimulate. Individualized and group-level electrode optimizations were compared to determine whether generalized montages can provide reliable targeting with reduced modeling demands. Sixty high-resolution head models (30 individuals and their mirrored counterparts) were constructed from T1- and T2-weighted MRI. Electric fields (EFs) were computed using the scalar-potential finite-difference method. Electrode montages and current ratios were optimized to minimize the root-mean-square error between simulated and target EF envelope (EFE) distributions, with a threshold of 0.3 V/m. Subsampling analysis was performed to estimate the number of models required for stable group-level outcomes. For the insula, a montage combining T7-P7 and Fp1-Fp2 achieved the highest focality, comparable to individualized results with reduced variability. For the hippocampus, the F7-T7 and T8-P8 montage gave the best group-level focality, though individualized optimization improved off-target suppression. Stable group-level patterns were obtained using 20 models for the insula and 9 for the hippocampus. Optimal tTIS montages depend on target depth. Group-level optimization suffices for cortical regions like the insula, whereas individualized tuning remains preferable for deeper targets such as the hippocampus.
format Preprint
id arxiv_https___arxiv_org_abs_2510_23290
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Group-Level and Personalized Optimization for the Insula and Hippocampus Focal Electric Field in Transcranial Temporal Interferential Stimulation: A Computational Study
Inoue, Taiga
Otsuru, Naofumi
Hirata, Akimasa
Medical Physics
This study evaluated transcranial temporal interference stimulation (tTIS) for focal targeting of the insula and hippocampus, which are clinically relevant yet anatomically difficult to stimulate. Individualized and group-level electrode optimizations were compared to determine whether generalized montages can provide reliable targeting with reduced modeling demands. Sixty high-resolution head models (30 individuals and their mirrored counterparts) were constructed from T1- and T2-weighted MRI. Electric fields (EFs) were computed using the scalar-potential finite-difference method. Electrode montages and current ratios were optimized to minimize the root-mean-square error between simulated and target EF envelope (EFE) distributions, with a threshold of 0.3 V/m. Subsampling analysis was performed to estimate the number of models required for stable group-level outcomes. For the insula, a montage combining T7-P7 and Fp1-Fp2 achieved the highest focality, comparable to individualized results with reduced variability. For the hippocampus, the F7-T7 and T8-P8 montage gave the best group-level focality, though individualized optimization improved off-target suppression. Stable group-level patterns were obtained using 20 models for the insula and 9 for the hippocampus. Optimal tTIS montages depend on target depth. Group-level optimization suffices for cortical regions like the insula, whereas individualized tuning remains preferable for deeper targets such as the hippocampus.
title Group-Level and Personalized Optimization for the Insula and Hippocampus Focal Electric Field in Transcranial Temporal Interferential Stimulation: A Computational Study
topic Medical Physics
url https://arxiv.org/abs/2510.23290