Archive/Mapping the Global Trajectory and Key Trends of Temporal Interference Stimulation
Mapping the Global Trajectory and Key Trends of Temporal Interference Stimulation
Li Qi, Zhishun Gao, Xiaomin Pan et al.
25. Juni 2026
en

Abstract

Since its inception in 2017, temporal interference stimulation (TIS) has attracted increasing attention as a novel neuromodulation approach with the potential to non-invasively target deep brain structures. As the field moves from initial biophysical validation toward broader experimental and translational applications, a macroscopic understanding of its developmental trajectory and thematic evolution is needed. In this study, we systematically mapped the scientific landscape of TIS research using bibliometric methods to characterize its knowledge structure, core themes, and emerging frontiers. The analysis shows that TIS research has expanded rapidly from foundational animal studies and biophysical mechanism validation toward computational head modeling, individualized electric field optimization, and early human applications. Current research is increasingly focused on cross-species scaling, stimulation dosimetry, comparative advantages over other neuromodulation techniques, precise targeting strategies, and potential physiological risks such as high-frequency conduction block. Overall, TIS is evolving from an exploratory biophysical concept into a promising but technically and physiologically complex neuromodulation tool. Overcoming current engineering and translational barriers, particularly through individualized modeling, rigorous optimization, and well-designed human studies, will be essential for establishing TIS as a reliable therapeutic intervention.

IPC Classification

B60H01

Keywords

mappingglobaltrajectorytrendstemporalinterferencestimulationbioengineeringsinceinception2017attractedincreasingattentionnovelneuromodulationapproachpotentialnon-invasivelytargetdeepbrainstructuresfield
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