In vivo lung morphometry with hyperpolarized 3He diffusion MRI: Reproducibility and the role of diffusion‐sensitizing gradient direction
JD Quirk, YV Chang… - Magnetic resonance in …, 2015 - Wiley Online Library
JD Quirk, YV Chang, DA Yablonskiy
Magnetic resonance in medicine, 2015•Wiley Online LibraryPurpose Lung morphometry with hyperpolarized gas diffusion MRI is a highly sensitive
technique for the noninvasive measurement of acinar microstructural parameters
traditionally only accessible by histology. The goal of this work is to establish the
reproducibility of these measurements in healthy volunteers and their dependence on the
direction of the applied diffusion‐sensitizing gradient. Methods Hyperpolarized helium‐3
(3He) lung morphometry MRI was performed on a total of five healthy subjects. Two subjects …
technique for the noninvasive measurement of acinar microstructural parameters
traditionally only accessible by histology. The goal of this work is to establish the
reproducibility of these measurements in healthy volunteers and their dependence on the
direction of the applied diffusion‐sensitizing gradient. Methods Hyperpolarized helium‐3
(3He) lung morphometry MRI was performed on a total of five healthy subjects. Two subjects …
Purpose
Lung morphometry with hyperpolarized gas diffusion MRI is a highly sensitive technique for the noninvasive measurement of acinar microstructural parameters traditionally only accessible by histology. The goal of this work is to establish the reproducibility of these measurements in healthy volunteers and their dependence on the direction of the applied diffusion‐sensitizing gradient.
Methods
Hyperpolarized helium‐3 (3He) lung morphometry MRI was performed on a total of five healthy subjects. Two subjects received duplicate imaging on the same day and three subjects received duplicate imaging after a 4‐month or 27‐month delay to assess reproducibility. Four subjects repeated the measurement during the same session with different diffusion‐sensitizing gradient directions to determine the effect on the parameter estimates.
Results
The 3He lung morphometry measurements were reproducible over the short term and long term (e.g., % coefficient of variation [CV] of mean chord length, Lm = 2.1% and 2.9%, respectively) and across different diffusion gradient directions (Lm % CV = 2.6%). Results also show independence of field inhomogeneity effects at 1.5T.
Conclusion
3He lung morphometry is a reproducible technique for measuring acinar microstructure and is effectively independent of the choice of diffusion gradient direction. This provides confidence for the use of this technique to compare populations and treatment efficacy. Magn Reson Med 73:1252–1257, 2015. © 2014 Wiley Periodicals, Inc.
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