| 摘要 |
An endogenous source of magnetic resonance image contrast of biological tissues is provided by modeling a conventional magnetization transfer (CMT) spectrum using z-spectral data and generating magnetization transfer ratio maps from the magnetization transfer spectrum at a frequency of interest. A contribution by the CMT spectrum from the z-spectral data is removed and a direct water saturation component is modeled using the z-spectral data with removed CMT spectrum (z-spectral). When this modeled direct water saturation component contribution is removed from the z-spectral, then the remaining z-spectra reflects new contrast due to chemical exchange saturation transfer (CEST) and magnetization transfer/exchange effect from aliphatic protons probably associated with labile proteins, peptides and lipids, named as novel magnetization transfer (NMT). This technique can be used to illustrate subtle changes in biological tissue as a result of diseases states, provide better visibility of brain white matter plaques, provide improved CEST contrast, provide better visualization of proteins, peptides, and lipids in biological tissue using NMT contrast, improve segmentation of white matter and gray matter in brain images, and the like.
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