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Index by author

July 01, 2019; Volume 40,Issue 7

  1. Coulette, S.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Diagnosis and Prediction of Relapses in Susac Syndrome: A New Use for MR Postcontrast FLAIR Leptomeningeal Enhancement
      S. Coulette, A. Lecler, E. Saragoussi, K. Zuber, J. Savatovsky, R. Deschamps, O. Gout, C. Sabben, J. Aboab, A. Affortit, F. Charbonneau and M. Obadia
      American Journal of Neuroradiology July 2019, 40 (7) 1184-1190; DOI: https://doi.org/10.3174/ajnr.A6103

      From January 2011 to December 2017, nine consecutive patients with Susac syndrome and a control group of 73 patients with multiple sclerosis or clinically isolated syndrome were included. Two neuroradiologists blinded to the clinical and ophthalmologic data independently reviewed MRIs and assessed leptomeningeal enhancement and parenchymal abnormalities. Follow-up MRIs of patients with Susac syndrome were reviewed and compared with clinical and retinal fluorescein angiographic data evaluated by an independent ophthalmologist. Patients with Susac syndrome were significantly more likely to present with leptomeningeal enhancement: 5/9 (56%) versus 6/73 (8%) in the control group. They had a significantly higher leptomeningeal enhancement burden with ≥3 lesions in 5/9 patients versus 0/73. Regions of leptomeningeal enhancement were significantly more likely to be located in the posterior fossa. The authors conclude that leptomeningeal enhancement occurs frequently in Susac syndrome and could be helpful for diagnosis and prediction of clinical relapse.

  2. Couture, P.

    1. Spine
      Quantification of DTI in the Pediatric Spinal Cord: Application to Clinical Evaluation in a Healthy Patient Population
      B.B. Reynolds, S. By, Q.R. Weinberg, A.A. Witt, A.T. Newton, H.R. Feiler, B. Ramkorun, D.B. Clayton, P. Couture, J.E. Martus, M. Adams, J.C. Wellons, S.A. Smith and A. Bhatia
      American Journal of Neuroradiology July 2019, 40 (7) 1236-1241; DOI: https://doi.org/10.3174/ajnr.A6104

  3. Crandall, L.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Open Access
      3T MRI Whole-Brain Microscopy Discrimination of Subcortical Anatomy, Part 2: Basal Forebrain
      M.J. Hoch, M.T. Bruno, A. Faustin, N. Cruz, A.Y. Mogilner, L. Crandall, T. Wisniewski, O. Devinsky and T.M. Shepherd
      American Journal of Neuroradiology July 2019, 40 (7) 1095-1105; DOI: https://doi.org/10.3174/ajnr.A6088

      The authors applied an optimized TSE T2 sequence to washed whole postmortem brain samples (n=13) to demonstrate and characterize the detailed anatomy of the basal forebrain using a clinical 3T MR imaging scanner. Theyidentified most basal ganglia and diencephalon structures using serial axial, coronal, and sagittal planes relative to the intercommissural plane. Specific oblique image orientations demonstrated the positions and anatomic relationships for selected structures of interest to functional neurosurgery.

  4. Crawford, K.

    1. Assessment of Explicitly Stated Interval Change on Noncontrast Head CT Radiology Reports
      M. Braileanu, K. Crawford, S.R. Key and M.E. Mullins
      American Journal of Neuroradiology July 2019, 40 (7) 1091-1094; DOI: https://doi.org/10.3174/ajnr.A6081

  5. Criado-hidalgo, E.

    1. Spine
      Subject-Specific Studies of CSF Bulk Flow Patterns in the Spinal Canal: Implications for the Dispersion of Solute Particles in Intrathecal Drug Delivery
      W. Coenen, C. Gutiérrez-Montes, S. Sincomb, E. Criado-Hidalgo, K. Wei, K. King, V. Haughton, C. Martínez-Bazán, A.L. Sánchez and J. C. Lasheras
      American Journal of Neuroradiology July 2019, 40 (7) 1242-1249; DOI: https://doi.org/10.3174/ajnr.A6097

  6. Cruz, J.P.

    1. LETTER
      Polymer Embolism from Bioactive and Hydrogel Coil Embolization Technology: Considerations for Product Development
      A.M. Chopra, J.P. Cruz and Y.C. Hu
      American Journal of Neuroradiology July 2019, 40 (7) E34-E35; DOI: https://doi.org/10.3174/ajnr.A6083

  7. Cruz, N.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Open Access
      3T MRI Whole-Brain Microscopy Discrimination of Subcortical Anatomy, Part 2: Basal Forebrain
      M.J. Hoch, M.T. Bruno, A. Faustin, N. Cruz, A.Y. Mogilner, L. Crandall, T. Wisniewski, O. Devinsky and T.M. Shepherd
      American Journal of Neuroradiology July 2019, 40 (7) 1095-1105; DOI: https://doi.org/10.3174/ajnr.A6088

      The authors applied an optimized TSE T2 sequence to washed whole postmortem brain samples (n=13) to demonstrate and characterize the detailed anatomy of the basal forebrain using a clinical 3T MR imaging scanner. Theyidentified most basal ganglia and diencephalon structures using serial axial, coronal, and sagittal planes relative to the intercommissural plane. Specific oblique image orientations demonstrated the positions and anatomic relationships for selected structures of interest to functional neurosurgery.

  8. Dadar, M.

    1. EDITOR'S CHOICEAdult Brain
      Open Access
      Comparison of Multiple Sclerosis Cortical Lesion Types Detected by Multicontrast 3T and 7T MRI
      J. Maranzano, M. Dadar, D.A. Rudko, D. De Nigris, C. Elliott, J.S. Gati, S.A. Morrow, R.S. Menon, D.L. Collins, D.L. Arnold and S. Narayanan
      American Journal of Neuroradiology July 2019, 40 (7) 1162-1169; DOI: https://doi.org/10.3174/ajnr.A6099

      The aim of the authors was: 1) to compare multicontrast cortical lesion detection using 3T and 7T MR imaging, 2) to compare cortical lesion type frequency in relapsing-remitting and secondary-progressive MS, and 3) to assess whether detectability is related to the magnetization transfer ratio, an imaging marker sensitive to myelin content. Multicontrast 3T and 7T MR images from 10 patients with relapsing-remitting MS and 10 with secondary-progressive MS were evaluated with the following 3T contrasts: 3D-T1-weighted, quantitative T1, FLAIR and magnetization-transfer, and 2D proton density- and T2-weighted. The following 7T contrasts were used: 3D-T1-weighted, quantitative T1, and 2D-T2*-weighted. Cortical lesion counts at 7T were the following: 720 total cortical lesions, 420 leukocortical lesions (58%), 27 intracortical lesions (4%), and 273 subpial lesions (38%). Cortical lesion counts at 3T were the following: 424 total cortical, 393 leukocortical (93%), 0intracortical, and 31 subpial (7%) lesions. Total, intracortical, and subpial 3T lesion counts were significantly lower than the 7Tcounts. The authors conclude that detection of leukocortical lesions at 3T is comparable with that at 7T MR imaging. Imaging at 3T is less sensitive to intracortical and subpial lesions.

  9. Damania, D.

    1. Extracranial Vascular
      Comparison of Carotid Endarterectomy and Stenting for Symptomatic Internal Carotid Artery Near-Occlusion
      J. Kim, S. Male, D. Damania, B.S. Jahromi and R.P. Tummala
      American Journal of Neuroradiology July 2019, 40 (7) 1207-1212; DOI: https://doi.org/10.3174/ajnr.A6085

  10. Dammann, P.

    1. Adult Brain
      Wall Contrast Enhancement of Thrombosed Intracranial Aneurysms at 7T MRI
      T. Sato, T. Matsushige, B. Chen, O. Gembruch, P. Dammann, R. Jabbarli, M. Forsting, A. Junker, S. Maderwald, H.H. Quick, M.E. Ladd, U. Sure and K.H. Wrede
      American Journal of Neuroradiology July 2019, 40 (7) 1106-1111; DOI: https://doi.org/10.3174/ajnr.A6084
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