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IEEE Trans Med Imaging · Nov 2011
Motion-induced phase error estimation and correction in 3D diffusion tensor imaging.
- Anh T Van, Diego Hernando, and Bradley P Sutton.
- Department of Electrical and Computer Engineering, University of Illinois at Urbana-Champaign, USA.
- IEEE Trans Med Imaging. 2011 Nov 1;30(11):1933-40.
AbstractA multishot data acquisition strategy is one way to mitigate B0 distortion and T2∗ blurring for high-resolution diffusion-weighted magnetic resonance imaging experiments. However, different object motions that take place during different shots cause phase inconsistencies in the data, leading to significant image artifacts. This work proposes a maximum likelihood estimation and k-space correction of motion-induced phase errors in 3D multishot diffusion tensor imaging. The proposed error estimation is robust, unbiased, and approaches the Cramer-Rao lower bound. For rigid body motion, the proposed correction effectively removes motion-induced phase errors regardless of the k-space trajectory used and gives comparable performance to the more computationally expensive 3D iterative nonlinear phase error correction method. The method has been extended to handle multichannel data collected using phased-array coils. Simulation and in vivo data are shown to demonstrate the performance of the method.
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