Non-invasive Modulation of Deep Brain Nuclei by Temporal Interference Stimulation
Temporal interference (TI) is a form of stimulation that epitomizes an innovative and non-invasive approach for profound neuromodulation of the brain, a technique that has been validated in mice. Yet, the thin cranial bone structure of mice has a marginal influence on the effect of the TI technique and may not effectively showcase its effectiveness in larger animals. Based on this, we carried out TI stimulation experiments on rats. Following the TI intervention, analysis of electrophysiological data and immunofluorescence staining indicated the generation of a stimulation focus within the nucleus accumbens (depth, 8.5 mm) in rats. Our findings affirm the viability of the TI methodology in the presence of thick cranial bones, furnishing efficacious parameters for profound stimulation with TI administered under such conditions. This experiment not only sheds light on the intervention effects of TI deep in the brain but also furnishes robust evidence in support of its prospective clinical utility.
Finite element simulation; Local field potentials; Noninvasive brain stimulation; Temporal interference; c-Fos.
© 2025. Center for Excellence in Brain Science and Intelligence Technology, Chinese Academy of Sciences.
Conflict of interest: The authors declare that there are no conflicts of interest.
- Lurii S, Florian M, Valeriia B, Marija M, Diana K, Daniel R, et al. Multipair phase-modulated temporal interference electrical stimulation combined with fMRI. 2023, bioRxiv 571679. https://doi.org/10.1101/2023.12.21.571679 .
