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MR imaging with spatially variable resolution

✍ Scribed by Yue Cao; David N. Levin

Publisher
John Wiley and Sons
Year
1992
Tongue
English
Weight
836 KB
Volume
2
Category
Article
ISSN
1053-1807

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✦ Synopsis

Abstract

In some situations it may be advantageous to produce β€œlocally focused” magnetic resonance images that have nonuniform spatial resolution matching the expected local rate of spatial variation in the object. Because such an image has fewer pixels than a conventional image with uniformly high resolution, it can be reconstructed from fewer signals, acquired in less time. This can be done by using a highly convergent representation of the image as a sum of orthonormal functions with slow (fast) spatial variation in relatively homogeneous (heterogeneous) parts of the object. Since this series is shorter than a conventional truncated Fourier series, its terms can be calculated from a subset of the usual array of phase‐encoded signals. The optimal choice of these phase encodings, which are usually scattered nonuniformly in k space, results in minimization of noise in the reconstructed image. The technique is illustrated by applying it to simulated data and to data from images of phantoms.

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