1992
DOI: 10.1109/42.158935
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A technique for accurate magnetic resonance imaging in the presence of field inhomogeneities

Abstract: A technique for producing geometrically accurate magnetic resonance images (MRIs) with undistorted intensity in the face of high levels of static field inhomogeneity arising from either source is presented. The technique requires the acquisition of two images of the same object with altered gradients. On the basis of a knowledge of these gradients it employs an automatic postprocessing step that exploits some invariant characteristics of the distortions to produce a rectified image from the two acquired images… Show more

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Cited by 401 publications
(433 citation statements)
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“…The effects of an unknown static magnetic field inhomogeneity on a two-dimensional MR image acquired in its presence have been described mathematically (4,9). The addition of a spatially varying static magnetic field inhomogeneity, ⌬B(x, y, z), results in the spins experiencing a modified local magnetic field that changes their frequency of precession by ␥⌬B(x, y, z), where ␥ is the gyromagnetic ratio.…”
Section: Theorymentioning
confidence: 99%
See 4 more Smart Citations
“…The effects of an unknown static magnetic field inhomogeneity on a two-dimensional MR image acquired in its presence have been described mathematically (4,9). The addition of a spatially varying static magnetic field inhomogeneity, ⌬B(x, y, z), results in the spins experiencing a modified local magnetic field that changes their frequency of precession by ␥⌬B(x, y, z), where ␥ is the gyromagnetic ratio.…”
Section: Theorymentioning
confidence: 99%
“…Hence, the spatial distortion along the slice-selective axis will be significantly smaller than that occurring in-plane. Its effect is therefore generally ignored in the reversed gradient correction method for single slices (9), as it is in phase map-based correction methods (7).…”
Section: Theorymentioning
confidence: 99%
See 3 more Smart Citations