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Index by author

March 01, 2019; Volume 40,Issue 3

  1. Donahue, J.H.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Neuroimaging-Based Classification Algorithm for Predicting 1p/19q-Codeletion Status in IDH-Mutant Lower Grade Gliomas
      P.P. Batchala, T.J.E. Muttikkal, J.H. Donahue, J.T. Patrie, D. Schiff, C.E. Fadul, E.K. Mrachek, M.-B. Lopes, R. Jain and S.H. Patel
      American Journal of Neuroradiology March 2019, 40 (3) 426-432; DOI: https://doi.org/10.3174/ajnr.A5957

      One hundred two IDH-mutant lower grade gliomas with preoperative MR imaging and known 1p/19q status from The Cancer Genome Atlas composed a training dataset. Two neuroradiologists in consensus analyzed the training dataset for various imaging features: tumor or cyst texture, margins, cortical infiltration, T2-FLAIR mismatch, tumor cyst, T2* susceptibility, hydrocephalus, midline shift, maximum dimension, primary lobe, necrosis, enhancement, edema, and gliomatosis. Statistical analysis of the training data produced a multivariate classification model for codeletion prediction based on a subset of MR imaging features and patient age. Training dataset analysis produced a 2-step classification algorithm with 86.3% codeletion prediction accuracy, based on the following: 1) the presence of the T2-FLAIR mismatch sign, which was 100% predictive of noncodeleted lowergrade gliomas; and 2)a logistic regression model based on texture, patient age, T2* susceptibility, primary lobe, and hydrocephalus. Independent validation ofthe classification algorithm rendered codeletion prediction accuracies of 81.1% and 79.2% in 2 independent readers.

  2. Dueck, A.C.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Open Access
      Accurate Patient-Specific Machine Learning Models of Glioblastoma Invasion Using Transfer Learning
      L.S. Hu, H. Yoon, J.M. Eschbacher, L.C. Baxter, A.C. Dueck, A. Nespodzany, K.A. Smith, P. Nakaji, Y. Xu, L. Wang, J.P. Karis, A.J. Hawkins-Daarud, K.W. Singleton, P.R. Jackson, B.J. Anderies, B.R. Bendok, R.S. Zimmerman, C. Quarles, A.B. Porter-Umphrey, M.M. Mrugala, A. Sharma, J.M. Hoxworth, M.G. Sattur, N. Sanai, P.E. Koulemberis, C. Krishna, J.R. Mitchell, T. Wu, N.L. Tran, K.R. Swanson and J. Li
      American Journal of Neuroradiology March 2019, 40 (3) 418-425; DOI: https://doi.org/10.3174/ajnr.A5981

      The authors evaluated tumor cell density using a transfer learning method that generates individualized patient models, grounded in the wealth of population data, while also detecting and adjusting for interpatient variabilities based on each patient's own histologic data. They collected 82 image-recorded biopsy samples, from 18 patients with primary GBM. With multivariate modeling, transfer learning improved performance (r = 0.88) compared with one-model-fits-all (r = 0.39). They conclude that transfer learning significantly improves predictive modeling performance for quantifying tumor cell density in glioblastoma.

  3. Dunet, V.

    1. Adult Brain
      Focal Hypoperfusion in Acute Ischemic Stroke Perfusion CT: Clinical and Radiologic Predictors and Accuracy for Infarct Prediction
      O. Bill, N.M. Inácio, D. Lambrou, M. Wintermark, G. Ntaios, V. Dunet and P. Michel
      American Journal of Neuroradiology March 2019, 40 (3) 483-489; DOI: https://doi.org/10.3174/ajnr.A5984

  4. Dwyer, M.G.

    1. Adult Brain
      A Serial 10-Year Follow-Up Study of Atrophied Brain Lesion Volume and Disability Progression in Patients with Relapsing-Remitting MS
      R. Zivadinov, D. Horakova, N. Bergsland, J. Hagemeier, D.P. Ramasamy, T. Uher, M. Vaneckova, E. Havrdova and M.G. Dwyer
      American Journal of Neuroradiology March 2019, 40 (3) 446-452; DOI: https://doi.org/10.3174/ajnr.A5987

  5. Elsayed, M.

    1. Head and Neck Imaging
      Diagnostic Utility of Optic Nerve Measurements with MRI in Patients with Optic Nerve Atrophy
      B. Zhao, N. Torun, M. Elsayed, A.-D. Cheng, A. Brook, Y.-M. Chang and R.A. Bhadelia
      American Journal of Neuroradiology March 2019, 40 (3) 558-561; DOI: https://doi.org/10.3174/ajnr.A5975

  6. Enzinger, C.

    1. Adult Brain
      Open Access
      Quantitative Susceptibility Mapping to Assess Cerebral Vascular Compliance
      C. Birkl, C. Langkammer, P. Sati, C. Enzinger, F. Fazekas and S. Ropele
      American Journal of Neuroradiology March 2019, 40 (3) 460-463; DOI: https://doi.org/10.3174/ajnr.A5933

  7. Eschbacher, J.M.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Open Access
      Accurate Patient-Specific Machine Learning Models of Glioblastoma Invasion Using Transfer Learning
      L.S. Hu, H. Yoon, J.M. Eschbacher, L.C. Baxter, A.C. Dueck, A. Nespodzany, K.A. Smith, P. Nakaji, Y. Xu, L. Wang, J.P. Karis, A.J. Hawkins-Daarud, K.W. Singleton, P.R. Jackson, B.J. Anderies, B.R. Bendok, R.S. Zimmerman, C. Quarles, A.B. Porter-Umphrey, M.M. Mrugala, A. Sharma, J.M. Hoxworth, M.G. Sattur, N. Sanai, P.E. Koulemberis, C. Krishna, J.R. Mitchell, T. Wu, N.L. Tran, K.R. Swanson and J. Li
      American Journal of Neuroradiology March 2019, 40 (3) 418-425; DOI: https://doi.org/10.3174/ajnr.A5981

      The authors evaluated tumor cell density using a transfer learning method that generates individualized patient models, grounded in the wealth of population data, while also detecting and adjusting for interpatient variabilities based on each patient's own histologic data. They collected 82 image-recorded biopsy samples, from 18 patients with primary GBM. With multivariate modeling, transfer learning improved performance (r = 0.88) compared with one-model-fits-all (r = 0.39). They conclude that transfer learning significantly improves predictive modeling performance for quantifying tumor cell density in glioblastoma.

  8. Fadul, C.E.

    1. FELLOWS' JOURNAL CLUBAdult Brain
      Neuroimaging-Based Classification Algorithm for Predicting 1p/19q-Codeletion Status in IDH-Mutant Lower Grade Gliomas
      P.P. Batchala, T.J.E. Muttikkal, J.H. Donahue, J.T. Patrie, D. Schiff, C.E. Fadul, E.K. Mrachek, M.-B. Lopes, R. Jain and S.H. Patel
      American Journal of Neuroradiology March 2019, 40 (3) 426-432; DOI: https://doi.org/10.3174/ajnr.A5957

      One hundred two IDH-mutant lower grade gliomas with preoperative MR imaging and known 1p/19q status from The Cancer Genome Atlas composed a training dataset. Two neuroradiologists in consensus analyzed the training dataset for various imaging features: tumor or cyst texture, margins, cortical infiltration, T2-FLAIR mismatch, tumor cyst, T2* susceptibility, hydrocephalus, midline shift, maximum dimension, primary lobe, necrosis, enhancement, edema, and gliomatosis. Statistical analysis of the training data produced a multivariate classification model for codeletion prediction based on a subset of MR imaging features and patient age. Training dataset analysis produced a 2-step classification algorithm with 86.3% codeletion prediction accuracy, based on the following: 1) the presence of the T2-FLAIR mismatch sign, which was 100% predictive of noncodeleted lowergrade gliomas; and 2)a logistic regression model based on texture, patient age, T2* susceptibility, primary lobe, and hydrocephalus. Independent validation ofthe classification algorithm rendered codeletion prediction accuracies of 81.1% and 79.2% in 2 independent readers.

  9. Fahlstrom, M.

    1. Adult Brain
      Aqueductal CSF Stroke Volume Is Increased in Patients with Idiopathic Normal Pressure Hydrocephalus and Decreases after Shunt Surgery
      J. Shanks, K. Markenroth Bloch, K. Laurell, K.G. Cesarini, M. Fahlström, E.-M. Larsson and J. Virhammar
      American Journal of Neuroradiology March 2019, 40 (3) 453-459; DOI: https://doi.org/10.3174/ajnr.A5972

  10. Faustin, A.

    1. EDITOR'S CHOICEAdult Brain
      Open Access
      3T MRI Whole-Brain Microscopy Discrimination of Subcortical Anatomy, Part 1: Brain Stem
      M.J. Hoch, M.T. Bruno, A. Faustin, N. Cruz, L. Crandall, T. Wisniewski, O. Devinsky and T.M. Shepherd
      American Journal of Neuroradiology March 2019, 40 (3) 401-407; DOI: https://doi.org/10.3174/ajnr.A5956

      The authors applied an optimized TSE T2 sequence to washed postmortem brain samples to reveal exquisite and reproducible brain stem anatomic MR imaging contrast comparable with histologic atlases. Direct TSE MR imaging sequence discrimination of brain stem anatomy can help validate other MR imaging contrasts, such as diffusion tractography, or serve as a structural template for extracting quantitative MR imaging data in future postmortem investigations.

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