Magnetic Resonance Scanning and Epilepsy

1. Magnetic Resonance Imaging in Epilepsy: The Central Clinical Research Questions.- 2. The Anatomical Bases of the Epilepsies and MRI: Implications for MRI.- 3. Brain Structure in Epilepsy: The Crucial Role of MRI.- 4. MR Spectroscopy in Epilepsy.- 5. Mesial Temporal Lobe Structures: Anatomy.- 6. Magnetic Resonance Imaging of Hippocampal Sclerosis: Reliability of Visual Diagnosis and Implications for Surgical Treatment.- 7. Volumetric MRI Studies of the Hippocampus.- 8. Advances in Morphometric and Volumetric Analysis in Temporal Lobe Epilepsy.- 9. The Role of MRI Volumetric Studies in the Investigation of Patients with Intractable Epilepsy.- 10. The Future Role for MR Imaging in Epilepsy: Morphometry and Volume Analysis.- 11. Quantitative Relaxometry of Hippocampal Sclerosis.- 12. The Significance of T2 Changes in the Hippocampus.- 13. Investigation of Effects of Vigabatrin with Magnetic Resonance Imaging and Spectroscopy In Vivo.- 14. MR of Epilepsy: Three Observations.- 15. Cortical Dysplasia and Heterotopias.- 16. Cortical Dysgenesis in Adults with Epilepsy.- 17. Hemimegalencephaly.- 18. Agenesis of the Corpus Callosum.- 19. The Congenital Bilateral Peri-sylvian Syndrome: Imaging Findings.- 20. Focal Cortical Dysplasia in Temporal Lobe Epilepsy: The Role of Magnetic Resonance Imaging.- 21. MR in Congenital and Hereditary Metabolic Disorders Associated with Epilepsy.- 22. MRI in the Delineation of Genetic Metabolic Disorders.- 23. Minimal Developmental Disturbances in Epilepsy and MRI.- 24. Correlation of MRI and EEG.- 25. Principles of Stereotaxy Applied to MRI and EEG.- 26. MRI Stereotactic Placement of Intracranial Electrodes.- 27. Frameless Stereotaxy: Technical Aspects.- 28. Correlation of MRI and MEG.- 29. Volumetric Magnetic Resonance Imaging: Impact on Neuropsychological Studies.- 30. MRI and Intellectual Decline in Epilepsy.- 31. MRI and SPECT in Epilepsy Surgery.- 32. MR-Directed Stereotactic Resections and Per-operative Screening Using Low-Field MRI.- 33. Non-malignant Tumoural Lesions:.- 34. Vascular Anomalies in Epilepsy: MRI Contribution.- 35. Magnetic Resonance and Neocortical Epilepsy Atrophies.- 36. Application of Spectroscopy to Epilepsy.- 37. Proton MR Spectroscopic Imaging in the Investigation of Patients with Temporal Lobe Epilepsy.- 38. Proton MR Spectroscopy in the Evaluation of Mesial Temporal Sclerosis.- 39. The Potential of Proton MR Spectroscopy for Monitoring: Pathological Alterations of Human Cerebral Metabolism In Vivo.- 40. Quantitative Proton MR Spectroscopy of the Human Brain.- 41. Image-Guided Proton MR Spectroscopy in Epilepsy.- 42. Techniques for Localisation and Signal Improvement in In Vivo Proton and Phosphorus MR Spectroscopy.- 43. Proton Observation of 13C-Labelled Metabolites.- 44. Use of Combined 13C -, 19F - and 31P-MR Spectroscopy in Research on Brain Metabolism.- 45. Malignant Tumoural Lesions Investigated by MRS.- 46. Analysis of Cortical Patterns.- 47. Digital Image Processing for Epilepsy.- 48. An MRI-Based Probabilistic Atlas of Neuroanatomy.- 49. Other Methods: Functional Imaging, Magnetisation Transfer, and Relaxation Times.- 50. MR Imaging of Diffusion.- 51. Fast Imaging and Serial Scanning.- 52. NMR Studies of Brain Activation.- 53. Differential Diagnosis of Human Intracranial Tumors In Vivo Using 1H MR Spectroscopic Imaging and Feature Space for Spectral Pattern Recognition.