Part 1: Benefits of Ultra-High Field
1. The way back and ahead: MR physics at Ultra-High Field
2. Translating UHF advances to lower field strength Part 2: Acquisition at Ultra-High Field: practical considerations
3. Practical solutions to practical constraints: Making things work at ultra-high field
4. Practical considerations on ultra-high field safety
5. Bioeffects, patience experience and occupational safety Part 3: Ultra-High Field Challenges and Technical Solutions
6. B0 inhomogeneity: Causes and coping strategies
7. B1 inhomogeneity: Physics background, RF pulse design and parallel transmission
8. RF coils for ultra-high field neuroimaging
9. Parallel imaging and reconstruction techniques
10. Motion correction Part 4: Ultra-high field Structural Imaging: Techniques for neuroanatomy
11. High-resolution T1-weighted and T2-weighted anatomical imaging
12. Brain segmentation at ultra-high field: challenges, opportunities and unmet needs
13. Phase imaging: Susceptibility-weighted imaging and Quantitative Susceptibility Mapping
14. Quantitative MRI and multi-parametric mapping Part 5: Ultra-high field Structural Imaging: Zooming in on the brain
15. Cerebellar imaging
16. Ultra-high field imaging of the medial temporal lobe
17. Imaging of the deep gray matter
18. Brain stem imaging
19. Spinal Cord Imaging Part 6: Diffusion and Perfusion imaging at Ultra-High Field20. Diffusion weighted magnetic resonance at ultra-high field
21. Ultra-high Field Brain Perfusion MRI Part 7: Ultra-High Field Functional Imaging22. BOLD fMRI: physiology and acquisition strategies
23. Sequences and contrasts for non-BOLD fMRI
24. Laminar and columnar imaging at UHF: considerations for mesoscopic scale imaging with fMRI
25. The power of gray-matter optimized fMRI at UHF for cognitive neuroscience Part 8: Techniques for Ultra-High Field Metabolic Imaging and Spectroscopy
26. MR Spectroscopy and spectroscopic imaging
27. Imaging with X-nuclei
28. Chemical Exchange Saturation Transfer MRI in the human brain at ultra-high fields Part 9: Benefits of Ultra-High Field in Clinical Applications29. Epilepsy
30. Multiple sclerosis
31. Neurovascular diseases
32. Neurodegenerative diseases
33. Parkinson's disease and Parkinson-plus syndromes
34. Alzheimer's disease and ageing
35. Oncological applications
36. Psychiatric applications at UHF Part 10: New Horizons
37. Human MR at extremely high field strengths