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Index by author

December 01, 2019; Volume 40,Issue 12

  1. Uchiyama, N.

    1. EDITOR'S CHOICEInterventional
      Identification of Vortex Cores in Cerebral Aneurysms on 4D Flow MRI
      K. Futami, T. Uno, K. Misaki, S. Tamai, I. Nambu, N. Uchiyama and M. Nakada
      American Journal of Neuroradiology December 2019, 40 (12) 2111-2116; DOI: https://doi.org/10.3174/ajnr.A6322

      The authors subjected 40 aneurysms (37 unruptured, 3 ruptured) to 4D flow MR imaging. They visualized streamlines with velocities below the threshold—that is, a percentage value of the aneurysm maximum inflow velocity—and progressively decreased the threshold to identify vortex cores as thin, streamline bundles with minimum velocities. A simple flow pattern (single vortex core) was identified in 27 aneurysms; the other 13 exhibited a complex flow pattern. The cores were stable in 32 and unstable in 8 aneurysms. Significantly more aneurysms with-than-without blebs or daughter sacs had a complex flow pattern. The identification of vortex cores on 4D flow MR imaging may help to stratify the rupture risk of unruptured cerebral aneurysms.

  2. Uno, T.

    1. EDITOR'S CHOICEInterventional
      Identification of Vortex Cores in Cerebral Aneurysms on 4D Flow MRI
      K. Futami, T. Uno, K. Misaki, S. Tamai, I. Nambu, N. Uchiyama and M. Nakada
      American Journal of Neuroradiology December 2019, 40 (12) 2111-2116; DOI: https://doi.org/10.3174/ajnr.A6322

      The authors subjected 40 aneurysms (37 unruptured, 3 ruptured) to 4D flow MR imaging. They visualized streamlines with velocities below the threshold—that is, a percentage value of the aneurysm maximum inflow velocity—and progressively decreased the threshold to identify vortex cores as thin, streamline bundles with minimum velocities. A simple flow pattern (single vortex core) was identified in 27 aneurysms; the other 13 exhibited a complex flow pattern. The cores were stable in 32 and unstable in 8 aneurysms. Significantly more aneurysms with-than-without blebs or daughter sacs had a complex flow pattern. The identification of vortex cores on 4D flow MR imaging may help to stratify the rupture risk of unruptured cerebral aneurysms.

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