Individual differences in transcranial electrical stimulation current density

摘要

Transcranial electrical stimulation(TCES)is effective in treating many conditions,but it has not been possible to accurately forecast current density within the complex anatomy of a given subject's head.We sought to predict and verify TCES current densities and determine the variability of these current distributions in patient-specific models based on magnetic resonance imaging(MRI)data.Two experiments were performed.The first experiment estimated conductivity from MRIs and compared the current density results against actual measurements from the scalp surface of 3 subjects.In the second experiment,virtual electrodes were placed on the scalps of 18 subjects to model simulated current densities with 2 mA of virtually applied stimulation.This procedure was repeated for4 electrode locations.Current densities were then calculated for 75 brain regions.Comparison of modeled and measured external current in experiment 1 yielded a correlation of r=.93.In experiment 2,modeled individual differences were greatest near the electrodes(ten-fold differences were common),but simulated current was found in all regions of the brain.Sites that were distant from the electrodes(e.g.hypothalamus)typically showed twofold individual differences.MRI-based modeling can effectively predict current densities in individual brains.Significant variation occurs between subjects with the same applied electrode configuration.Individualized MRIbased modeling should be considered in place of the 10-20 system when accurate TCES is needed.