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Literature DB >> 25038105

Measuring diffusion limitation with a perfusion-limited gas--hyperpolarized 129Xe gas-transfer spectroscopy in patients with idiopathic pulmonary fibrosis.

S Sivaram Kaushik¹, Matthew S Freeman², Suk W Yoon³, Maria G Liljeroth⁴, Jane V Stiles⁵, Justus E Roos⁶, W Michael Foster⁵, Craig R Rackley⁶, H P McAdams⁶, Bastiaan Driehuys⁷.

Abstract

Although xenon is classically taught to be a "perfusion-limited" gas, (129)Xe in its hyperpolarized (HP) form, when detected by magnetic resonance (MR), can probe diffusion limitation. Inhaled HP (129)Xe diffuses across the pulmonary blood-gas barrier, and, depending on its tissue environment, shifts its resonant frequency relative to the gas-phase reference (0 ppm) by 198 ppm in tissue/plasma barrier and 217 ppm in red blood cells (RBCs). In this work, we hypothesized that in patients with idiopathic pulmonary fibrosis (IPF), the ratio of (129)Xe spectroscopic signal in the RBCs vs. barrier would diminish as diffusion-limitation delayed replenishment of (129)Xe magnetization in RBCs. To test this hypothesis, (129)Xe spectra were acquired in 6 IPF subjects as well as 11 healthy volunteers to establish a normal range. The RBC:barrier ratio was 0.55 ± 0.13 in healthy volunteers but was 3.3-fold lower in IPF subjects (0.16 ± 0.03, P = 0.0002). This was caused by a 52% reduction in the RBC signal (P = 0.02) and a 58% increase in the barrier signal (P = 0.01). Furthermore, the RBC:barrier ratio strongly correlated with lung diffusing capacity for carbon monoxide (DLCO) (r = 0.89, P < 0.0001). It exhibited a moderate interscan variability (8.25%), and in healthy volunteers it decreased with greater lung inflation (r = -0.78, P = 0.005). This spectroscopic technique provides a noninvasive, global probe of diffusion limitation and gas-transfer impairment and forms the basis for developing 3D MR imaging of gas exchange.

Entities: Chemical Disease Species

Keywords: diffusion limitation; gas-transfer spectroscopy; hyperpolarized 129Xe; idiopathic pulmonary fibrosis

Mesh：

Substances：

Year: 2014 PMID： 25038105 PMCID： PMC4157168 DOI： 10.1152/japplphysiol.00326.2014

Source DB: PubMed Journal: J Appl Physiol (1985) ISSN： 0161-7567

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Review 7. Idiopathic pulmonary fibrosis: prevailing and evolving hypotheses about its pathogenesis and implications for therapy.

Review 5. The role of hyperpolarized 129xenon in MR imaging of pulmonary function.

Review 9. Functional imaging of the lungs with gas agents.

Review 10. Lung Structure and the Intrinsic Challenges of Gas Exchange.

Review 5. The role of hyperpolarized ¹²⁹xenon in MR imaging of pulmonary function.