Transverse relaxation rates of pulmonary dissolved‐phase Hyperpolarized 129Xe as a biomarker of lung injury in idiopathic pulmonary fibrosis

Purpose The MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field inhomogeneity present in the lung. This work improves measurements of these properties using a model‐based image reconstruction to characterize the...

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Published in	Magnetic resonance in medicine Vol. 84; no. 4; pp. 1857 - 1867
Main Authors	Kammerman, Jeff, Hahn, Andrew D., Cadman, Robert V., Malkus, Annelise, Mummy, David, Fain, Sean B.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc 01.10.2020
Subjects	Biomarkers Chemical equilibrium Compartments Decay rate Echoes Erythrocytes Fibrosis hyperpolarized idiopathic pulmonary fibrosis Image processing Image quality Image reconstruction Inhalation Inhomogeneity lung Lung diseases Lungs Magnetic resonance imaging Medical imaging model‐based reconstruction MRI Optimization Properties (attributes) Pulmonary fibrosis R 2 Respiration Signal quality Spectroscopy xenon Xenon 129
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ISSN	0740-3194 1522-2594 1522-2594
DOI	10.1002/mrm.28246

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Abstract	Purpose The MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field inhomogeneity present in the lung. This work improves measurements of these properties using a model‐based image reconstruction to characterize the R2∗ decay rates of dissolved‐phase HP 129Xe in healthy subjects and patients with idiopathic pulmonary fibrosis (IPF). Methods Whole‐lung MRS and 3D radial MRI with four gradient echoes were performed after inhalation of HP 129Xe in healthy subjects and patients with IPF. A model‐based image reconstruction formulated as a regularized optimization problem was solved iteratively to measure regional signal intensity in the gas, barrier, and red blood cell (RBC) compartments, while simultaneously measuring their chemical shifts and R2∗ decay rates. Results The estimation of spectral properties reduced artifacts in images of HP 129Xe in the gas, barrier, and RBC compartments and improved image SNR by over 20%. R2∗ decay rates of the RBC and barrier compartments were lower in patients with IPF compared to healthy subjects (P < 0.001 and P = 0.005, respectively) and correlated to DLCO (R = 0.71 and 0.64, respectively). Chemical shift of the RBC component measured with whole‐lung spectroscopy was significantly different between IPF and normal subjects (P = 0.022). Conclusion Estimates for R2∗ in both barrier and RBC dissolved‐phase HP 129Xe compartments using a regional signal model improved image quality for dissolved‐phase images and provided additional biomarkers of lung injury in IPF.
AbstractList	Purpose The MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field inhomogeneity present in the lung. This work improves measurements of these properties using a model‐based image reconstruction to characterize the R2∗ decay rates of dissolved‐phase HP 129Xe in healthy subjects and patients with idiopathic pulmonary fibrosis (IPF). Methods Whole‐lung MRS and 3D radial MRI with four gradient echoes were performed after inhalation of HP 129Xe in healthy subjects and patients with IPF. A model‐based image reconstruction formulated as a regularized optimization problem was solved iteratively to measure regional signal intensity in the gas, barrier, and red blood cell (RBC) compartments, while simultaneously measuring their chemical shifts and R2∗ decay rates. Results The estimation of spectral properties reduced artifacts in images of HP 129Xe in the gas, barrier, and RBC compartments and improved image SNR by over 20%. R2∗ decay rates of the RBC and barrier compartments were lower in patients with IPF compared to healthy subjects (P < 0.001 and P = 0.005, respectively) and correlated to DLCO (R = 0.71 and 0.64, respectively). Chemical shift of the RBC component measured with whole‐lung spectroscopy was significantly different between IPF and normal subjects (P = 0.022). Conclusion Estimates for R2∗ in both barrier and RBC dissolved‐phase HP 129Xe compartments using a regional signal model improved image quality for dissolved‐phase images and provided additional biomarkers of lung injury in IPF. PurposeThe MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field inhomogeneity present in the lung. This work improves measurements of these properties using a model‐based image reconstruction to characterize the R2∗ decay rates of dissolved‐phase HP 129Xe in healthy subjects and patients with idiopathic pulmonary fibrosis (IPF).MethodsWhole‐lung MRS and 3D radial MRI with four gradient echoes were performed after inhalation of HP 129Xe in healthy subjects and patients with IPF. A model‐based image reconstruction formulated as a regularized optimization problem was solved iteratively to measure regional signal intensity in the gas, barrier, and red blood cell (RBC) compartments, while simultaneously measuring their chemical shifts and R2∗ decay rates.ResultsThe estimation of spectral properties reduced artifacts in images of HP 129Xe in the gas, barrier, and RBC compartments and improved image SNR by over 20%. R2∗ decay rates of the RBC and barrier compartments were lower in patients with IPF compared to healthy subjects (P < 0.001 and P = 0.005, respectively) and correlated to DLCO (R = 0.71 and 0.64, respectively). Chemical shift of the RBC component measured with whole‐lung spectroscopy was significantly different between IPF and normal subjects (P = 0.022).ConclusionEstimates for R2∗ in both barrier and RBC dissolved‐phase HP 129Xe compartments using a regional signal model improved image quality for dissolved‐phase images and provided additional biomarkers of lung injury in IPF.
Author	Hahn, Andrew D. Fain, Sean B. Malkus, Annelise Mummy, David Cadman, Robert V. Kammerman, Jeff
AuthorAffiliation	3 Department of Radiology, Duke University Medical Center, Durham, NC, USA 5 Department of Biomedical Engineering, University of Wisconsin, Madison, WI, USA 4 Department of Radiology, University of Wisconsin, Madison, WI, USA 2 Center for In Vivo Microscopy, Duke University Medical Center, Durham, NC, USA 1 Department of Medical Physics, Univsersity of Wisconsin, Madison, WI, USA
AuthorAffiliation_xml	– name: 3 Department of Radiology, Duke University Medical Center, Durham, NC, USA – name: 1 Department of Medical Physics, Univsersity of Wisconsin, Madison, WI, USA – name: 5 Department of Biomedical Engineering, University of Wisconsin, Madison, WI, USA – name: 4 Department of Radiology, University of Wisconsin, Madison, WI, USA – name: 2 Center for In Vivo Microscopy, Duke University Medical Center, Durham, NC, USA
Author_xml	– sequence: 1 givenname: Jeff orcidid: 0000-0003-4780-9360 surname: Kammerman fullname: Kammerman, Jeff organization: Univsersity of Wisconsin – sequence: 2 givenname: Andrew D. orcidid: 0000-0002-0246-2108 surname: Hahn fullname: Hahn, Andrew D. organization: Univsersity of Wisconsin – sequence: 3 givenname: Robert V. surname: Cadman fullname: Cadman, Robert V. organization: Univsersity of Wisconsin – sequence: 4 givenname: Annelise surname: Malkus fullname: Malkus, Annelise organization: Univsersity of Wisconsin – sequence: 5 givenname: David orcidid: 0000-0001-7885-109X surname: Mummy fullname: Mummy, David organization: Duke University Medical Center – sequence: 6 givenname: Sean B. orcidid: 0000-0001-5461-0646 surname: Fain fullname: Fain, Sean B. email: sfain@wisc.edu organization: University of Wisconsin
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Snippet	Purpose The MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field... PurposeThe MR properties (chemical shifts and R2∗ decay rates) of dissolved‐phase hyperpolarized (HP) 129Xe are confounded by the large magnetic field...
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SubjectTerms	Biomarkers Chemical equilibrium Compartments Decay rate Echoes Erythrocytes Fibrosis hyperpolarized idiopathic pulmonary fibrosis Image processing Image quality Image reconstruction Inhalation Inhomogeneity lung Lung diseases Lungs Magnetic resonance imaging Medical imaging model‐based reconstruction MRI Optimization Properties (attributes) Pulmonary fibrosis R 2 Respiration Signal quality Spectroscopy xenon Xenon 129
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Title	Transverse relaxation rates of pulmonary dissolved‐phase Hyperpolarized 129Xe as a biomarker of lung injury in idiopathic pulmonary fibrosis
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