Summary of current challenges for DT imaging
| Current Challenges | Current Solutions | Future Directions | |
|---|---|---|---|
| Acquisition | Low resolution | Higher static/gradient field | |
| PROPELLER | |||
| Parallel acquisition | |||
| Distortions by EPI | Postprocessing corrections | PROPELLER | |
| Parallel acquisition | |||
| Cardiac/CSF pulsation | Cardiac triggering | Cardiac triggering in routine practice | |
| Robust estimate of the DT | More averages | Higher static field | |
| Optimized sequence parameters | |||
| Increased number of DW directions | |||
| Postprocessing and analysis | Subjectivity of the ROI approach | Training of the neurologist | Registration to standard space |
| Histogram analysis | |||
| Correlations of DT derived metrics with clinical histopathology | ROI and histogram analysis of MD and FA maps | Include analysis of eigenvalues | |
| Focus on systems that have a functional significance (ie, specific fiber tracts) | |||
| Voxel based assessment after normalization to standard space to avoid a priori hypotheses | |||
| Acquisition and analysis | Crossing/merging fibers | Multicompartment models | |
| Q-space formalism | |||
| High angular resolution |
Note:—PROPELLER indicates periodically rotated overlapping parallel lines with enhanced reconstruction; EPI, echo-planar imaging; DT, diffusion tensor; DW, diffusion-weighted; ROI, region of interest; MD, mean diffusivity; FA, fractional anisotropy.