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. 2021 Apr;85(4):1924-1937.
doi: 10.1002/mrm.28554. Epub 2020 Dec 6.

On the signal-to-noise ratio benefit of spiral acquisition in diffusion MRI

Yoojin Lee  1   2 Bertram J Wilm  1 David O Brunner  1 Simon Gross  1 Thomas Schmid  1 Zoltan Nagy  2 Klaas P Pruessmann  1
Affiliations

On the signal-to-noise ratio benefit of spiral acquisition in diffusion MRI

Yoojin Lee et al. Magn Reson Med. 2021 Apr.

Abstract

Purpose: Spiral readouts combine several favorable properties that promise superior net sensitivity for diffusion imaging. The purpose of this study is to verify the signal-to-noise ratio (SNR) benefit of spiral acquisition in comparison with current echo-planar imaging (EPI) schemes.

Methods: Diffusion-weighted in vivo brain data from three subjects were acquired with a single-shot spiral sequence and several variants of single-shot EPI, including full-Fourier and partial-Fourier readouts as well as different diffusion-encoding schemes. Image reconstruction was based on an expanded signal model including field dynamics obtained by concurrent field monitoring. The effective resolution of each sequence was matched to that of full-Fourier EPI with 1 mm nominal resolution. SNR maps were generated by determining the noise statistics of the raw data and analyzing the propagation of equivalent synthetic noise through image reconstruction. Using the same approach, maps of noise amplification due to parallel imaging (g-factor) were calculated for different acceleration factors.

Results: Relative to full-Fourier EPI at b = 0 s/mm2 , spiral acquisition yielded SNR gains of 42-88% and 40-89% in white and gray matter, respectively, depending on the diffusion-encoding scheme. Relative to partial-Fourier EPI, the gains were 36-44% and 34-42%. Spiral g-factor maps exhibited less spatial variation and lower maxima than their EPI counterparts.

Conclusion: Spiral readouts achieve significant SNR gains in the order of 40-80% over EPI in diffusion imaging at 3T. Combining systematic effects of shorter echo time, readout efficiency, and favorable g-factor behavior, similar benefits are expected across clinical and neurosciences uses of diffusion imaging.

Keywords: diffusion MRI; echo-planar imaging; g-factor; point spread function; signal-to-noise ratio; spiral readout.

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References

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