Z-spectrum analysis provides proton environment data (ZAPPED): A new two-pool technique for human gray and white matter

A new technique-Z-spectrum Analysis Provides Proton Environment Data (ZAPPED)-was used to map cross-relaxing free and restricted protons in nine healthy subjects plus two brain tumor patients at 3T. First, MT data were acquired over a wide symmetric range of frequency offsets, and then a trio of quantitative biomarkers, i.e., the apparent spin-spin relaxation times (T_2,f, T_2,r) in both free and restricted proton pools as well as the restricted pool fraction F_r, were mapped by fitting the measured Z-spectra to a simple two-Lorentzian compartment model on a voxel-by-voxel basis. The mean restricted exchangeable proton fraction, F_r, was found to be 0.17 in gray matter (GM) and 0.28 in white matter (WM) in healthy subjects. Corresponding mean values for apparent spin-spin relaxation times were 785 μs (T_2,f) and 17.7 μs (T_2,r) in GM, 672 μs (T_2,f) and 23.4 μs (T_2,r) inWM. The percentages of F_f and F_r in GM are similar for all ages, whereas F_r shows a tendency to decrease with age in WM among healthy subjects. The patient ZAPPED images show higher contrast between tumor and normal tissues than traditional T₂-weighted and T₁-weighted images. The ZAPPED method provides a simple phenomenological approach to estimating fractions and apparent T₂ values of free and restricted MT-active protons, and it may offer clinical useful information.