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Evaluation of Regional Lung Function in Pulmonary Fibrosis with Xenon-129 MRI

Jaime F. Mata, Steven Guan, Kun Qing, Nicholas J. Tustison, Yun M. Shim, John P. Mugler, Talissa A. Altes, Jhosep Huaromo, Borna Mehrad

2021Tomography22 citationsDOIOpen Access PDF

Abstract

Idiopathic pulmonary fibrosis, a pattern of interstitial lung disease, is often clinically unpredictable in its progression. This paper presents hyperpolarized Xenon-129 chemical shift imaging as a noninvasive, nonradioactive method of probing lung physiology as well as anatomy to monitor subtle changes in subjects with IPF. Twenty subjects, nine healthy and eleven IPF, underwent HP Xe-129 ventilation MRI and 3D-SBCSI. Spirometry was performed on all subjects before imaging, and DLCO and hematocrit were measured in IPF subjects after imaging. Images were post-processed in MATLAB and segmented using ANTs. IPF subjects exhibited, on average, higher Tissue/Gas ratios and lower RBC/Gas ratios compared with healthy subjects, and quantitative maps were more heterogeneous in IPF subjects. The higher ratios are likely due to fibrosis and thickening of the pulmonary interstitium. T2* relaxation was longer in IPF subjects and corresponded with hematocrit scores, although the mechanism is not well understood. A lower chemical shift in the red blood cell spectroscopic peak correlated well with a higher Tissue/RBC ratio and may be explained by reduced blood oxygenation. Tissue/RBC also correlated well, spatially, with areas of fibrosis in HRCT images. These results may help us understand the underlying mechanism behind gas exchange impairment and disease progression.

Topics & Concepts

DLCOIdiopathic pulmonary fibrosisMedicineSpirometryHematocritLungDiffusing capacityInterstitial lung diseaseOxygenationCardiologyFibrosisPathologyPulmonary function testingVentilation (architecture)Internal medicineRadiologyLung functionMechanical engineeringAsthmaEngineeringAtomic and Subatomic Physics ResearchInterstitial Lung Diseases and Idiopathic Pulmonary FibrosisUltrasound and Hyperthermia Applications