Lung ventilation‐ and perfusion‐weighted Fourier decomposition magnetic resonance imaging: In vivo validation with hyperpolarized ³He and dynamic contrast‐enhanced MRI

Abstract: The purpose of this work was to validate ventilation-weighted (VW) and perfusion-weighted (QW) Fourier decomposition (FD) magnetic resonance imaging (MRI) with hyperpolarized (3)He MRI and dynamic contrast-enhanced perfusion (DCE) MRI in a controlled animal experiment. Three healthy pigs were studied on 1.5-T MR scanner. For FD MRI, the VW and QW images were obtained by postprocessing of time-resolved lung image sets. DCE acquisitions were performed immediately after contrast agent injection. (3)He MRI data we… Show more

“…Moreover, recent studies have also demonstrated the reproducibility of FDMRI ventilation-weighted and perfusionweighted images in healthy volunteers (32). Finally FDMRI-to-3 He MRI comparisons in animals showed similar regional abnormalities including pulmonary embolism, atelectasis, and air trapping (30).…”

“…Although rapid (8-15 seconds acquisition time) and well tolerated, inhaled noble gas MRI is dependent on polarized gas and multinuclear magnetic resonance imaging hardware. An alternative approach that exploits Fourier decomposition of free-breathing pulmonary MRI (FDMRI) was first developed by Bauman et al (27) at 1.5 T. This method provides a way to generate quantitative pulmonary maps of ventilation and perfusion using fast pulmonary MRI acquisitions of free-breathing 1 H MRI and nonrigid registration (27)(28)(29)(30)(31)(32)(33). FDMRI was recently compared and validated with single-photon emission computed tomography (SPECT)-CT (28) and 3 He MRI (30) in a porcine model.…”

Free-breathing Pulmonary 1H and Hyperpolarized 3He MRI

“…Moreover, recent studies have also demonstrated the reproducibility of FDMRI ventilation-weighted and perfusionweighted images in healthy volunteers (32). Finally FDMRI-to-3 He MRI comparisons in animals showed similar regional abnormalities including pulmonary embolism, atelectasis, and air trapping (30).…”

“…Although rapid (8-15 seconds acquisition time) and well tolerated, inhaled noble gas MRI is dependent on polarized gas and multinuclear magnetic resonance imaging hardware. An alternative approach that exploits Fourier decomposition of free-breathing pulmonary MRI (FDMRI) was first developed by Bauman et al (27) at 1.5 T. This method provides a way to generate quantitative pulmonary maps of ventilation and perfusion using fast pulmonary MRI acquisitions of free-breathing 1 H MRI and nonrigid registration (27)(28)(29)(30)(31)(32)(33). FDMRI was recently compared and validated with single-photon emission computed tomography (SPECT)-CT (28) and 3 He MRI (30) in a porcine model.…”

Free-breathing Pulmonary 1H and Hyperpolarized 3He MRI

“…Another newly developed technique relies on the periodical signal changes of free-breathing bSSFP sequences at high temporal resolution induced by respiration and pulsatory blood inflow [66]. A mathematical Fourier decomposition separates these different frequency peaks and allows for the calculation of ventilation and perfusion maps.…”

Imaging of Cystic Fibrosis Lung Disease and Clinical Interpretation

“…The technique has been compared to HP 3 He and DCE-MRI in a controlled experiment in pigs. 93 Baseline FD, 3 He and DCE MRI in healthy animals showed homogeneous ventilation and perfusion. Pulmonary embolism was then artificially produced, and FD and DCE MRI perfusion measurements were repeated.…”

CHAPTER 17. Magnetic Resonance Imaging in Respiratory Diseases: From Diagnosis to Pharmaceutical Research and Development