|Keyword||CPC||PCC||Volume||Score||Length of keyword|
|t2 mapping mri||1.9||1||4791||71|
|t2 mapping cardiac mri||1.29||0.2||8091||79|
|t2 mapping sequence||1.79||0.2||2037||45|
|t2 mapping 骨关节||0.33||0.8||9331||58|
|t2 mapping mri knee||1.58||0.3||2182||55|
|t2 mapping cardiac mri normal values||1.66||0.9||8868||69|
|t2 mapping mrt||1.38||0.7||1722||52|
|t2 mapping cmr||1.7||0.8||577||70|
|t2 mapping mri cartilage||0.29||0.8||6945||78|
|t2 mapping magic angle effect||1.17||0.9||4941||5|
|t2 mapping of right ventricular blood||0.01||0.5||7803||50|
|normal t2 mapping||1.02||0.3||7935||89|
|normal t2 mapping values||0.32||0.6||6735||49|
|cardiac t2 mapping||1.45||0.8||1187||60|
|cardiac t2 mapping off-resonance||0.19||0.1||4568||16|
T2 mapping is a magnetic resonance imaging technique used to calculate the T2 times of a certain tissue and display them voxel-vice on a parametric map. It has been used for tissue characterization of the myocardium 1-5 and has been investigated for cartilage 6,7 and other tissues 4.What is t2mapping in MRI?
T2* mapping is a magnetic resonance imaging technique used to calculate the T2* time of tissue and display them voxel-vice on a parametric map. It is used for myocardial tissue characterization 1-4 and has been investigated for other tissues 5,6.Can we map T2 to AAR using novel methods?
We tested a novel T2 mapping method to AAR. The potential benefit of this method is that the numerical output of the method is largely independent of myocardial motion, instrumental errors (eg surface coil normalisation methods).How is the T2 map of cartilage characterized?
The T2 map was displayed on a pixel-by-pixel basis (Transform; Spyglass, Savoy, III) for the cartilage itself but also for adjacent structures such as subchondral and trabecular bones. Data can be represented on a color scale; they were stored as 2-byte integers covering the range 0–32.767 ms, adapted to the cartilage T2-values observed at 8.5T.