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Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification.

Publication ,  Journal Article
Qiu, Z; Hu, S; Zhao, W; Sakaie, K; Sun, JEP; Griswold, MA; Jones, DK; Ma, D
Published in: Magn Reson Med
May 2024

PURPOSE: To propose a new reconstruction method for multidimensional MR fingerprinting (mdMRF) to address shading artifacts caused by physiological motion-induced measurement errors without navigating or gating. METHODS: The proposed method comprises two procedures: self-calibration and subspace reconstruction. The first procedure (self-calibration) applies temporally local matrix completion to reconstruct low-resolution images from a subset of under-sampled data extracted from the k-space center. The second procedure (subspace reconstruction) utilizes temporally global subspace reconstruction with pre-estimated temporal subspace from low-resolution images to reconstruct aliasing-free, high-resolution, and time-resolved images. After reconstruction, a customized outlier detection algorithm was employed to automatically detect and remove images corrupted by measurement errors. Feasibility, robustness, and scan efficiency were evaluated through in vivo human brain imaging experiments. RESULTS: The proposed method successfully reconstructed aliasing-free, high-resolution, and time-resolved images, where the measurement errors were accurately represented. The corrupted images were automatically and robustly detected and removed. Artifact-free T1, T2, and ADC maps were generated simultaneously. The proposed reconstruction method demonstrated robustness across different scanners, parameter settings, and subjects. A high scan efficiency of less than 20 s per slice has been achieved. CONCLUSION: The proposed reconstruction method can effectively alleviate shading artifacts caused by physiological motion-induced measurement errors. It enables simultaneous and artifact-free quantification of T1, T2, and ADC using mdMRF scans without prospective gating, with robustness and high scan efficiency.

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Published In

Magn Reson Med

DOI

EISSN

1522-2594

Publication Date

May 2024

Volume

91

Issue

5

Start / End Page

1978 / 1993

Location

United States

Related Subject Headings

  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Magnetic Resonance Imaging
  • Image Processing, Computer-Assisted
  • Humans
  • Brain
  • Artifacts
  • Algorithms
  • 4003 Biomedical engineering
  • 0903 Biomedical Engineering
 

Citation

APA
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ICMJE
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Qiu, Z., Hu, S., Zhao, W., Sakaie, K., Sun, J. E. P., Griswold, M. A., … Ma, D. (2024). Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification. Magn Reson Med, 91(5), 1978–1993. https://doi.org/10.1002/mrm.29969
Qiu, Zhilang, Siyuan Hu, Walter Zhao, Ken Sakaie, Jessie E. P. Sun, Mark A. Griswold, Derek K. Jones, and Dan Ma. “Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification.Magn Reson Med 91, no. 5 (May 2024): 1978–93. https://doi.org/10.1002/mrm.29969.
Qiu Z, Hu S, Zhao W, Sakaie K, Sun JEP, Griswold MA, et al. Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification. Magn Reson Med. 2024 May;91(5):1978–93.
Qiu, Zhilang, et al. “Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification.Magn Reson Med, vol. 91, no. 5, May 2024, pp. 1978–93. Pubmed, doi:10.1002/mrm.29969.
Qiu Z, Hu S, Zhao W, Sakaie K, Sun JEP, Griswold MA, Jones DK, Ma D. Self-calibrated subspace reconstruction for multidimensional MR fingerprinting for simultaneous relaxation and diffusion quantification. Magn Reson Med. 2024 May;91(5):1978–1993.
Journal cover image

Published In

Magn Reson Med

DOI

EISSN

1522-2594

Publication Date

May 2024

Volume

91

Issue

5

Start / End Page

1978 / 1993

Location

United States

Related Subject Headings

  • Phantoms, Imaging
  • Nuclear Medicine & Medical Imaging
  • Magnetic Resonance Imaging
  • Image Processing, Computer-Assisted
  • Humans
  • Brain
  • Artifacts
  • Algorithms
  • 4003 Biomedical engineering
  • 0903 Biomedical Engineering