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- Marta Parazzini, Serena Fiocchi, Ilaria Liorni, Elena Rossi, Filippo Cogiamanian, Maurizio Vergari, Alberto Priori, and Paolo Ravazzani.
- CNR Consiglio Nazionale delle Ricerche, Istituto di Elettronica e di Ingegneria dell'Informazione e delle Telecomunicazioni IEIIT, 20133 Milano, Italy. Electronic address: marta.parazzini@ieiit.cnr.it.
- Clin Neurophysiol. 2014 Nov 1; 125 (11): 2260-2270.
ObjectiveNon-invasive transcutaneous spinal direct current stimulation (tsDCS) induces changes in spinal cord function in humans. Nonetheless, the current density (J) spatial distributions generated by tsDCS are unknown. This work aimed to estimate the J distributions in the spinal cord during tsDCS.MethodsComputational electromagnetics techniques were applied to realistic human models, based on high-resolution MRI of healthy volunteers (a 26-years-old female adult model "Ella"; a 14years-old male adolescent model "Louis"; an 11years old female adolescent model "Billie"). Three electrode montages were modeled. In all cases, the anode was always over the spinal process of the tenth thoracic vertebra and the cathode was placed: (A) above the right arm; (B) over the umbilicus; (C) over Cz. The injected current was 3mA. The electrodes were conductors within rectangular sponges.ResultsDespite inter-individual differences, the J tends to be primarily directed longitudinally along the spinal cord and cauda equina with the region of higher amplitude influenced by the reference electrode position; on transversal sections, the J amplitude distributions were quite uniform.ConclusionsOur modeling approach reveals that the J generated by tsDCS reaches the spinal cord, with a current spread also to the muscle on the back and the spinal nerve.SignificanceThis study is a first step in better understanding the mechanisms underlying tsDCS.Copyright © 2014 International Federation of Clinical Neurophysiology. Published by Elsevier Ireland Ltd. All rights reserved.
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