Proton double-quantum filtered MRI—A new method for imaging ordered tissues

Abstract

The imaging of connective tissues such as cartilage and ten dons using standard MRI techniques is hampered by their low signal relative to the surrounding tissues. ^1^H double‐quantum filtered (DQF) MRI is an imaging method that detects mole cules associated with ordered structures, while the signal from isotropic fluids is filtered out, thus creating a new type of contrast. The technique is demonstrated on an intact rat tail, where the image of the tendons is highlighted. Although the signal‐to‐noise ratio is inferior to that in gradient‐echo MRI, the contrast between the tendons and the surrounding tissues is significantly better in the DQF MRI. It is demonstrated how, by adjusting the parameters of the DQF imaging pulse se quence, one can modify the contrast and enhance the images of specific compartments within an organ. A comparison with ^2^H DQF imaging of the same tissue is also given.