Purpose: To investigate the effect of incorporating T1 as a function of wash-out breath number (T1 (n)) on estimation of fractional ventilation (r) using hyperpolarized 129 Xe multiple breath wash-out (MBWO) imaging in rats.
Methods: MBWO imaging was performed in 8 healthy mechanically ventilated rats at several inter-image delay times (τ) and tidal volumes (TV). r maps were calculated from the imaging data using a model of T1 (n) (assuming that the longitudinal relaxation rate of 129 Xe in the lung is directly proportional to pA O2 ) and compared to r maps obtained by assuming a fixed T1 measured before wash-out breaths (r').
Results: Fractional ventilation was overestimated by up to 19.3% when T1 was fixed. An inverse relationship between bias (Δr) and ventilation was observed at all τ and TV. Additionally, Δr significantly increased when TV was decreased (F statistic F(2,7) = 48.97, P < 10-4 ). Histograms from r' maps were significantly more skewed toward lower values as compared to r histograms at all τ and TV (P < 0.05) except TV = Vdose - 1 mL.
Conclusion: Analysis of hyperpolarized 129 Xe MBWO imaging using a model incorporating T1 (n) corrects for an overestimating bias in the mapping of fractional ventilation in mechanically ventilated rats introduced by assuming a fixed T1 .
Keywords: hyperpolarized; lung; multiple breath wash-out; ventilation; xenon.
© 2018 International Society for Magnetic Resonance in Medicine.