Table 1.
Conventional and optional sequences for MRI in MS patients.
| Contrast | Contrast mechanism | Sequence | Relevance for MS |
|---|---|---|---|
| T2-weighted | T2 (spin–spin or “transverse”) relaxation | (fast) spin echo or FLAIR, 2D or 3D | Detection of white matter abnormalities |
| T1-weighted | T1 (spin-lattice or “longitudinal”) relaxation | 2D (fast) spin echo at lower field strength, 3D gradient echo at higher field strengths (≥3 T) | Detection of acute contrast enhancing lesions, assessment of more severe tissue damage (“black holes” and atrophy) |
| DIR | Two consecutive inversion radiofrequency pulses act as a T1-filter | 2D or 3D (fast) spin echo | Detection of cortical lesions |
| Susceptibility-based imaging | Paramagnetic shifts due to iron deposits and deoxygenized blood | T2∗-weighted gradient echo sequences, with different acquisition modalities, such as 3D spoiled gradient echo or 3D echo planar imaging (low flip angle, echo time 20–30 ms) | Detection of central vein in MS lesions and iron rims |
| Magnetization transfer | Proportion of macromolecular bound protons and rate of exchange with tissue water | 3D spoiled gradient echo (low flip angle, short echo time) sequence needs to be performed with and without MT saturation pulse | Reduced MT ratio is considered as a marker for demyelination |
| Diffusion weighted | Restriction of water mobility and orientational effects | Spin echo sequence with diffusion sensitizing gradient and echo planar readout | Sensitive for microstructural damage, higher diffusion models offer more specific assessment |
Abbreviations: 2D, two-dimensional; 3D, three-dimensional; DIR, double inversion recovery; FLAIR, fluid-attenuated inversion recovery; MRI, magnetic resonance imaging; MS, multiple sclerosis; MT, magnetization transfer.