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Regularization method for phase-constrained parallel MRI

Corresponding Author

Martin Blaimer

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

Correspondence to: Martin Blaimer, Research Center Magnetic Resonance Bavaria (MRB), Am Hubland, 97074 Würzburg, Germany. E-mail: [email protected]Search for more papers by this author

Peter M. Jakob,

Peter M. Jakob

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

Search for more papers by this author

Felix A. Breuer,

Felix A. Breuer

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

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Martin Blaimer,

Corresponding Author

Martin Blaimer

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

Correspondence to: Martin Blaimer, Research Center Magnetic Resonance Bavaria (MRB), Am Hubland, 97074 Würzburg, Germany. E-mail: [email protected]Search for more papers by this author

Peter M. Jakob,

Peter M. Jakob

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

Search for more papers by this author

Felix A. Breuer,

Felix A. Breuer

Research Center Magnetic-Resonance-Bavaria (MRB), Würzburg, Germany

Search for more papers by this author

First published: 31 July 2013

https://doi.org/10.1002/mrm.24896

Citations: 16

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Abstract

Purpose

To implement a regularization method for the phase-constrained generalized partially parallel acquisitions (GRAPPA) algorithm to reduce image artifacts caused by data inconsistencies.

Methods

Phase-constrained GRAPPA reconstructions are implemented through the use of virtual coils. To that end, synthetic virtual coils are generated by using complex conjugate symmetric signals from the actual coils. Regularization is achieved by applying coefficient-based penalty factors during the GRAPPA calibration procedure. Different penalizing factors are applied for the actual and virtual coils. The method is tested in vivo using T2-weighted turbo spin echo (TSE) images.

Results

T2 signal decay perturbs conjugate k-space symmetry and produces artifacts in phase-constrained parallel MRI reconstructions of T2-weighted TSE images. Using the proposed regularization method, artifacts are suppressed at the cost of noise amplification. However, there is still a significant SNR gain compared with conventional GRAPPA.

Conclusion

The proposed regularization method is an efficient approach for artifact suppression and maintains the SNR benefit of phase-constrained parallel MRI over conventional parallel MRI. Magn Reson Med 72:166–171, 2014. © 2013 Wiley Periodicals, Inc.

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Volume72, Issue1

July 2014

Pages 166-171

Regularization method for phase-constrained parallel MRI

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Conclusion

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Regularization method for phase-constrained parallel MRI

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