Artifacts induced by concomitant magnetic field in fast spin-echo imaging

Xiaohong Joe Zhou, Steve G. Tan, Matt A. Bernstein

Research output: Contribution to journalArticle

34 Scopus citations

Abstract

It has been observed that fast spin-echo (FSE) images with a large field of view (>40 cm) in certain directions exhibit unusual ghosting artifacts that cannot be eliminated with existing ghost removal methods. These artifacts have been related to a higher-order magnetic field perturbation (known as the concomitant field, or Maxwell field) concomitant to the linear imaging gradient, in accordance with the Maxwell equations Δ̄ · B̄ = 0 and Δ̄ x B̄ ≃ 0̄. Several methods have been developed to eliminate or minimize the effects of the concomitant magnetic field by redesigning the FSE pulse sequences. In the slice-selection direction, the gradient waveforms are made symmetrical about the refocusing RF pulses wherever possible. Surrounding the first refocusing pulse, such symmetry cannot be achieved due to the slice-refocusing gradient, which is often combined with the left crusher. In this case, it is shown how crusher gradients can be reshaped to nullify the phase due to the concomitant field. In the phase-encoding direction, the gradient amplitude is reduced and its duration is prolonged. Artifacts due to the readout gradient are eliminated by reshaping the prephasing lobe, while keeping its area fixed. In all the three directions, the gradient waveforms are adjusted so that they have minimal overlap. Selected methods have been implemented on a clinical scanner, and typically reduce the ghost intensities in phantom and human images by a factor of 3.

Original languageEnglish (US)
Pages (from-to)582-591
Number of pages10
JournalMagnetic Resonance in Medicine
Volume40
Issue number4
DOIs
StatePublished - Oct 1 1998

Keywords

  • Artifacts
  • Concomitant field
  • Fast spin echo
  • Maxwell terms
  • Phase errors

ASJC Scopus subject areas

  • Radiology Nuclear Medicine and imaging

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