Coil Design for Neuromuscular Magnetic Stimulation Based on a Detailed 3-D Thigh Model

Stefan M. Goetz, Thomas Weyh, Ibrahim A.A. Afinowi, Hans Georg Herzog

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Magnetic stimulation is gaining importance as an alternative to electrical stimulation in neurorehabilitation because it offers deep penetration and low pain. However, presently available equipment is not ideal for this purpose and sometimes even unsuitable. Furthermore, it is not known what physical conditions a coil has to provide for efficient stimulation. To solve these two problems, we set up a detailed 3-D computational model of the thigh to evaluate various coil designs with previously reported experimental performance. Comparison of the stimulation results with known experimental performance shows that a high absolute electric field seems to be sufficient for effective stimulation. Coil-generated field gradients, in contrast, do apparently not play a role. As a more appropriate metric, the electromagnetic coupling between different coil designs and the muscles of the thigh is found to be characteristic and explains the previously reported experimental performance differences. Furthermore, it is a good predictor for the achievable muscle torque (more than 99% correlation), whereas the gradient fails in this context. Accordingly, the model is able to test the performance of coils virtually and reveal both general relationships as well as design rules. In addition, the coupling factor formalism predicts a theoretical maximum level of the possible field induction and thus a guideline for potential improvements in the future.

Original languageEnglish
Article number6714424
JournalIEEE Transactions on Magnetics
Volume50
Issue number6
DOIs
StatePublished - 1 Jun 2014

Keywords

  • Activation mechanism
  • coil design
  • electromagnetic coupling
  • magnetic field design
  • magnetic stimulation
  • neuromuscular stimulation
  • rehabilitation engineering

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