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Nonlinear phase correction for navigated diffusion imaging

✍ Scribed by Karla L. Miller; John M. Pauly

Publisher
John Wiley and Sons
Year
2003
Tongue
English
Weight
908 KB
Volume
50
Category
Article
ISSN
0740-3194

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✦ Synopsis

Abstract

Motion during diffusion‐weighted imaging (DWI) introduces phase errors that can cause significant artifacts in brain images. One method of correcting these errors uses additional navigator data to measure the phase corruptions. Standard navigator methods correct for rigid‐body motion but cannot correct for nonrigid deformations of the brain related to the cardiac cycle. This work derives a generalized reconstruction that corrects for nonrigid motion based on a least‐squares formulation. Since this reconstruction has the disadvantage of being computationally expensive, an approximation is presented, called a refocusing reconstruction. The refocusing reconstruction is both efficient and straightforward. Each readout is multiplied in image space by the phase conjugate of the navigator image, and these rephased readouts are then summed. The conditions under which the refocusing reconstruction is sufficient are considered and methods to improve the quality of refocused images are discussed. In particular, synchronization of the acquisition to the cardiac cycle can provide data that is well‐conditioned to the refocusing reconstruction without incurring the large time penalty traditionally associated with cardiac gating. These methods are applied to steady‐state DWI, a promising pulse sequence that is particularly sensitive to motion‐induced phase artifacts. The refocusing reconstruction is shown to significantly improve SS‐DWI over standard rigid‐body corrections. Magn Reson Med 50:343–353, 2003. © 2003 Wiley‐Liss, Inc.

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