IMAGING LUNGS USING INERT FLUORINATED GASES

Rat lungs were imaged by F-19 projection MRI of hexafluoroethane, mixe d with 20% oxygen to form the inhaled gas, The 3D image had 700 mu m r esolution, and the data took 4.3 h to acquire. Free induction decays w ere collected in the presence of steady magnetic field gradients in 68 6 different directions. To take advantage of fast relaxation (T-1 = 5. 9 +/- 0.2 ms), the repetition time was 5 ms. To eliminate signal loss from magnetic field inhomogeneities, data were collected within 2 ms o f spin excitation (from 80 mu s to 2 ms after the 42-mu s pi/2 pulses) . The singular value decomposition of the transform from frequency to time domain was used to obtain projections despite the absence of data during and immediately after the RF pulses. Inert fluorinated gas ima ging may be less expensive than polarized noble gas imaging and is app ropriate for imaging steady-state rather than transient gas concentrat ions.