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  Differences in electric field strength between clinical and non-clinical populations induced by prefrontal tDCS: A cross-diagnostic, individual MRI-based modeling study

Mizutani-Tiebel, Y., Takahashi, S., Karali, T., Mezger, E., Bulubas, L., Papazova, I., et al. (2022). Differences in electric field strength between clinical and non-clinical populations induced by prefrontal tDCS: A cross-diagnostic, individual MRI-based modeling study. NEUROIMAGE-CLINICAL, 34: 103011. doi:10.1016/j.nicl.2022.103011.

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Mizutani-Tiebel, Yuki, Author
Takahashi, Shun, Author
Karali, Temmuz, Author
Mezger, Eva, Author
Bulubas, Lucia1, Author           
Papazova, Irina, Author
Dechantsreiter, Esther, Author
Stoecklein, Sophia, Author
Papazov, Boris, Author
Thielscher, Axel, Author
Padberg, Frank, Author
Keeser, Daniel, Author
Affiliations:
1IMPRS Translational Psychiatry, Max Planck Institute of Psychiatry, Max Planck Society, ou_3318616              

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 Abstract: Introduction: Prefrontal cortex (PFC) regions are promising targets for therapeutic applications of non-invasive brain stimulation, e.g. transcranial direct current stimulation (tDCS), which has been proposed as a novel intervention for major depressive disorder (MDD) and negative symptoms of schizophrenia (SCZ). However, the effects of tDCS vary inter-individually, and dose-response relationships have not been established. Stimulation parameters are often tested in healthy subjects and transferred to clinical populations. The current study investigates the variability of individual MRI-based electric fields (e-fields) of standard bifrontal tDCS across individual subjects and diagnoses.Method: The study included 74 subjects, i.e. 25 patients with MDD, 24 patients with SCZ, and 25 healthy controls (HC). Individual e-fields of a common tDCS protocol (i.e. 2 mA stimulation intensity, bifrontal anode-F3/ cathode-F4 montage) were modeled by two investigators using SimNIBS (2.0.1) based on structural MRI scans.Result: On a whole-brain level, the average e-field strength was significantly reduced in MDD and SCZ compared to HC, but MDD and SCZ did not differ significantly. Regions of interest (ROI) analysis for PFC subregions showed reduced e-fields in Sallet areas 8B and 9 for MDD and SCZ compared to HC, whereas there was again no difference between MDD and SCZ. Within groups, we generally observed high inter-individual variability of e-field intensities at a higher percentile of voxels.Conclusion: MRI-based e-field modeling revealed significant differences in e-field strengths between clinical and non-clinical populations in addition to a general inter-individual variability. These findings support the notion that dose-response relationships for tDCS cannot be simply transferred from healthy to clinical cohorts and need to be individually established for clinical groups. In this respect, MRI-based e-field modeling may serve as a proxy for individualized dosing.

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 Dates: 2022
 Publication Status: Published online
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Title: NEUROIMAGE-CLINICAL
Source Genre: Journal
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Pages: - Volume / Issue: 34 Sequence Number: 103011 Start / End Page: - Identifier: ISSN: 2213-1582