Age, sex, and lung volume dependence of dissolved xenon‐129 MRI gas exchange metrics
Guilhem J. Collier, Laurie J. Smith, Laura C. Saunders, Andrew J. Swift, Helen Marshall, Neil J. Stewart, Graham Norquay, Paul J. C. Hughes, A. A. Roger Thomspson, Jim M. WildAbstract
Purpose
To characterize the dependence of Xe‐MRI gas transfer metrics upon age, sex, and lung volume in a group of healthy volunteers.
Methods
Sixty‐five subjects with no history of chronic lung disease were assessed with 129Xe‐MRI using a four‐echo 3D radial spectroscopic imaging sequence and a dose of xenon titrated according to subject height that was inhaled from a lung volume of functional residual capacity (FRC). Imaging was repeated in 34 subjects at total lung capacity (TLC). Regional maps of the fractions of dissolved xenon in red blood cells (RBC), membrane (M), and airspace (Gas) were acquired at an isotropic resolution of 2 cm, from which global averages of the ratios RBC:M, RBC:Gas, and M:Gas were computed.
Results
Data from 26 males and 36 females with a median age of 43 y (range: 20–69 y) were of sufficient quality to analyze. Age (p = 0.0006) and sex (p < 0.0001) were significant predictors for RBC:M, and a linear regression showed higher values and steeper decline in males: RBC:M(Males) = −0.00362 × Age + 0.60 (p = 0.01, R2 = 0.25); RBC:M(Females) = −0.00170 × Age + 0.44 (p = 0.02, R2 = 0.15). Similarly, age and sex were significant predictors for RBC:Gas but not for M:Gas. RBC:M, M:Gas and RBC:Gas were significantly lower at TLC than at FRC (plus inhaled volume), with an average 9%, 30% and 35% decrease, respectively.
Conclusion
Expected age and sex dependence of pulmonary function concurs with 129Xe RBC:M imaging results, demonstrating that these variables must be considered when reporting Xe‐MRI metrics. Xenon doses and breathing maneuvers should be controlled due to the strong dependence of Xe‐MRI metrics upon lung volume.