|Type of sequence||Philips||Siemens||GE||Hitachi||Toshiba|
In certain cases, the steady state can be detrimental, namely for obtaining T1 weighted sequences. To resolve this problem, gradients and/or RF pulses (spoilers) are used to eliminate residual transverse magnetization.
In this type of echo gradient sequence, image weighting will depend on:
These sequences allows for fast 3D imaging during short apnea (10 to 20 seconds). They are used in angiography after gadolinium injection, possibly completed by a prior acquisition to allow subtraction. This type of sequence is also used in intra-voxel water-fat mixture imaging, by choosing in phase and out of phase TEs (cf. Chemical shift artifact of the second type). Like all other gradient echo sequences, these are also sensitive to magnetic susceptibility artifacts.
The spoiing RF pulse consists in randomly varying the excitation pulse phase at each repetition.
A spoiling gradient has 2 components:
For a given flip angle and relaxation time T1, there is an optimal TR to obtain the maximum signal after a series of excitation pulse . The relationship between flip angle and optimal TR follows the Ernst angle formula: