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Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition.

Publication ,  Journal Article
Kaushik, SS; Robertson, SH; Freeman, MS; He, M; Kelly, KT; Roos, JE; Rackley, CR; Foster, WM; McAdams, HP; Driehuys, B
Published in: Magn Reson Med
April 2016

PURPOSE: We sought to develop and test a clinically feasible 1-point Dixon, three-dimensional (3D) radial acquisition strategy to create isotropic 3D MR images of (129)Xe in the airspaces, barrier, and red blood cells (RBCs) in a single breath. The approach was evaluated in healthy volunteers and subjects with idiopathic pulmonary fibrosis (IPF). METHODS: A calibration scan determined the echo time at which (129)Xe in RBCs and barrier were 90° out of phase. At this TE, interleaved dissolved and gas-phase images were acquired using a 3D radial acquisition and were reconstructed separately using the NUFFT algorithm. The dissolved-phase image was phase-shifted to cast RBC and barrier signal into the real and imaginary channels such that the image-derived RBC:barrier ratio matched that from spectroscopy. The RBC and barrier images were further corrected for regional field inhomogeneity using a phase map created from the gas-phase (129)Xe image. RESULTS: Healthy volunteers exhibited largely uniform (129)Xe-barrier and (129)Xe-RBC images. By contrast, (129)Xe-RBC images in IPF subjects exhibited significant signal voids. These voids correlated qualitatively with regions of fibrosis visible on CT. CONCLUSIONS: This study illustrates the feasibility of acquiring single-breath, 3D isotropic images of (129)Xe in the airspaces, barrier, and RBCs using a 1-point Dixon 3D radial acquisition.

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Published In

Magn Reson Med

DOI

EISSN

1522-2594

Publication Date

April 2016

Volume

75

Issue

4

Start / End Page

1434 / 1443

Location

United States

Related Subject Headings

  • Young Adult
  • Xenon Isotopes
  • Nuclear Medicine & Medical Imaging
  • Middle Aged
  • Male
  • Magnetic Resonance Imaging
  • Lung
  • Imaging, Three-Dimensional
  • Humans
  • Female
 

Citation

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Chicago
ICMJE
MLA
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Kaushik, S. S., Robertson, S. H., Freeman, M. S., He, M., Kelly, K. T., Roos, J. E., … Driehuys, B. (2016). Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition. Magn Reson Med, 75(4), 1434–1443. https://doi.org/10.1002/mrm.25675
Kaushik, S Sivaram, Scott H. Robertson, Matthew S. Freeman, Mu He, Kevin T. Kelly, Justus E. Roos, Craig R. Rackley, W Michael Foster, H Page McAdams, and Bastiaan Driehuys. “Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition.Magn Reson Med 75, no. 4 (April 2016): 1434–43. https://doi.org/10.1002/mrm.25675.
Kaushik SS, Robertson SH, Freeman MS, He M, Kelly KT, Roos JE, et al. Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition. Magn Reson Med. 2016 Apr;75(4):1434–43.
Kaushik, S. Sivaram, et al. “Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition.Magn Reson Med, vol. 75, no. 4, Apr. 2016, pp. 1434–43. Pubmed, doi:10.1002/mrm.25675.
Kaushik SS, Robertson SH, Freeman MS, He M, Kelly KT, Roos JE, Rackley CR, Foster WM, McAdams HP, Driehuys B. Single-breath clinical imaging of hyperpolarized (129)Xe in the airspaces, barrier, and red blood cells using an interleaved 3D radial 1-point Dixon acquisition. Magn Reson Med. 2016 Apr;75(4):1434–1443.
Journal cover image

Published In

Magn Reson Med

DOI

EISSN

1522-2594

Publication Date

April 2016

Volume

75

Issue

4

Start / End Page

1434 / 1443

Location

United States

Related Subject Headings

  • Young Adult
  • Xenon Isotopes
  • Nuclear Medicine & Medical Imaging
  • Middle Aged
  • Male
  • Magnetic Resonance Imaging
  • Lung
  • Imaging, Three-Dimensional
  • Humans
  • Female