Pulmonary MRI with hyperpolarized xenon‐129 demonstrates novel alterations in gas transfer across the air‐blood barrier in asthma

Abstract

AbstractBackgroundIndividuals with asthma can vary widely in clinical presentation, severity, and pathobiology. Hyperpolarized xenon‐129 (Xe129) MRI is a novel imaging method to provide 3‐D mapping of both ventilation and gas exchange in the human lung.PurposeTo evaluate the functional changes in adults with asthma as compared to healthy controls using Xe129 MRI.MethodsAll subjects (20 controls and 20 asthmatics) underwent lung function measurements and Xe129 MRI on the same day. Outcome measures included the pulmonary ventilation defect and transfer of inspired Xe129 into two soluble compartments: tissue and blood. Ten asthmatics underwent Xe129 MRI before and after bronchodilator to test whether gas transfer measures change with bronchodilator effects.ResultsInitial analysis of the results revealed striking differences in gas transfer measures based on age, hence we compared outcomes in younger (n = 24, ≤ 35 years) versus older (n = 16, > 45 years) asthmatics and controls. The younger asthmatics exhibited significantly lower Xe129 gas uptake by lung tissue (Asthmatic: 0.98% ± 0.24%, Control: 1.17% ± 0.12%, P = 0.035), and higher Xe129 gas transfer from tissue to the blood (Asthmatic: 0.40 ± 0.10, Control: 0.31% ± 0.03%, P = 0.035) than the younger controls. No significant difference in Xe129 gas transfer was observed in the older group between asthmatics and controls (P > 0.05). No significant change in Xe129 transfer was observed before and after bronchodilator treatment.ConclusionsBy using Xe129 MRI, we discovered heterogeneous alterations of gas transfer that have associations with age. This finding suggests a heretofore unrecognized physiological derangement in the gas/tissue/blood interface in young adults with asthma that deserves further study.