Aditya Kumar Kasinadhuni1, Munish Chauhan2, Christopher Anderson1, Michael Schär3, Aprinda Indahlastari2, Paul Carney1, Rosalind Sadleir2, and Thomas Mareci1
1University of Florida, Gainesville, FL, United States, 2Arizona State University, Tempe, AZ, United States, 3Johns Hopkins University, Baltimore, MD, United States
Magnetic resonance electrical impedance tomography
(MREIT) relies on phase changes resulting from electric-current-induced magnetic
fields in the direction of static magnetic field of an MRI scanner. Therefore
MREIT can be employed to estimate conductivity/current density within the
object being imaged. Characterizing current density in the brain is vital to
improving our understanding of neuromodulation techniques like transcranial direct
current stimulation (tDCS). In this study, to our knowledge, we performed the
first MREIT brain scans of healthy human volunteers to localize the current-induced
magnetic field generated by tDCS-like currents. These measurements allow
estimation of current density in the human brain.
