A recently reported technique relies on magnetisation transfer (MT). A brief recap of MT follows.
As you know, radiofrequency (RF) excitation pulses have to be at the Larmor frequency of the hydrogen atom (1H): on resonance. What you may not know is that in MRI we use 1H in free water molecules; other water molecules are around, such as those attached to macromolecules and membranes (we call these 1H bound or restricted). These other 1H have a very large range of Larmor frequencies and have such a short T2 relaxation time (less than 1ms, due to their restricted mobility) that they are not visible in MR images. We can excite or saturate some of the bound water protons by applying an RF pulse off-resonance (i.e. not on the resonant frequency of free water). Then the magnetisation of these bound protons is transferred to the free 1H protons and the free 1H behave as if they have received some of the off-resonance RF pulse directly. This magnetisation exchange is called magnetisation transfer (MT). MT is usually used to provide another contrast mechanism because the effect of MT varies between tissues; if we saturate the bound/restricted 1H , varying amounts of saturation occurs in the free 1H of tissues.
Source:http://www.revisemri.com/
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