Measurements and modeling of long range 3He diffusion in the lung using a “slice-washout” method

In healthy lung tissue, pulsed-gradient-spin-echo (PGSE) methods reveal apparent diffusion coefficients (ADC) of the order 0.20 cm2 s−1; for diffusion times of ≈2 ms. For these short diffusion times the ADC is only sensitive to structures approximately (2Dt)1/2 ≈ 0.6 mm in size. Recent work, using magnetic tagging of the longitudinal magnetization has revealed much smaller ADC values for longer length scales. In this work, the in vivo ADC from within the air-spaces, was measured using a new technique. The signal from a series of images was analyzed from a slice that was repeatedly imaged. Diffusion tends to “top-up” the non-renewable polarization within the slice, which leads to a non-exponential decay in image signal. Image data were compared to 1D finite-difference simulations of diffusion to calculate a long range ADC value. The results yield values of the order 0.034 cm2 s−1, which are nearly an order of magnitude smaller than those reported by PGSE measurements at shorter diffusion times.