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Electromagnetic fields in the human body due to switched transverse gradient coils in MRI

journal contribution
posted on 2023-05-16, 15:20 authored by While, PT, Lawrence ForbesLawrence Forbes
Magnetic resonance imaging scans impose large gradient magnetic fields on the patient. Modern imaging techniques require this magnetic field to be switched rapidly for good resolution. However, it is believed that this can also lead to the unwanted side effect of peripheral nerve stimulation, which proves to be a limiting factor to the advancement of MRI technology. This paper establishes an analytical model for the fields produced within an MRI scanner by transverse gradient coils of known current density. Expressions are obtained for the magnetic induction vector and the electric field vector, as well as for the surface charge and current densities that are induced on the patient's body. The expressions obtained are general enough to allow the study of any combination of gradient coils whose behaviour can be approximated by Fourier series. For a realistic example coil current density and switching function, it is found that spikes of surface charge density are induced on the patient's body as the gradient field is switched, as well as loops of surface current density that mimic the coil current density. For a 10 mT m-1 gradient field with a rise time of 100 μs, the magnitude of the radial electric field at the body is found to be 10.3 V m-1. It is also found that there is a finite limit to radial electric field strength as rise time approaches zero. © 2004 IOP Publishing Ltd.

History

Publication title

Physics in Medicine and Biology

Volume

49

Issue

13

Pagination

2779-2798

ISSN

0031-9155

Department/School

School of Natural Sciences

Publisher

Institute of Physics Publishing

Place of publication

UK

Repository Status

  • Restricted

Socio-economic Objectives

Expanding knowledge in the mathematical sciences

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