Index by author
Paday Formenti, M.E.
- FELLOWS' JOURNAL CLUBAdult BrainYou have accessSWAN-Venule: An Optimized MRI Technique to Detect the Central Vein Sign in MS PlaquesM.I. Gaitán, P. Yañez, M.E. Paday Formenti, I. Calandri, E. Figueiredo, P. Sati and J. CorrealeAmerican Journal of Neuroradiology March 2020, 41 (3) 456-460; DOI: https://doi.org/10.3174/ajnr.A6437
Multiple sclerosis lesions develop around small veins that are radiologically described as the so-called central vein sign. With 7T MR imaging and magnetic susceptibility-based sequences, the central vein sign has been observed in 80%–100% of MS lesions in patients' brains. However, a lower proportion ∼50% has been reported at 3T using SWAN. The authors' aim was to assess a modified version of SWAN optimized at 3T for sensitive detection of the central vein sign. Thirty subjects with MS were scanned on a 3T clinical MR imaging system. 3D T2-weighted FLAIR and optimized 3D SWAN, called SWAN-venule, were acquired after injection of a gadolinium-based contrast agent. Overall, the central vein sign was detected in 86% of the white matter lesions (periventricular, 89%; deep white matter, 95%; and juxtacortical, 78%). The SWAN-venule technique is an optimized MR imaging sequence for highly sensitive detection of the central vein sign in MS brain lesions.
Pan, C.W.
- Adult BrainOpen AccessArtificial Intelligence in the Management of Intracranial Aneurysms: Current Status and Future PerspectivesZ. Shi, B. Hu, U.J. Schoepf, R.H. Savage, D.M. Dargis, C.W. Pan, X.L. Li, Q.Q. Ni, G.M. Lu and L.J. ZhangAmerican Journal of Neuroradiology March 2020, 41 (3) 373-379; DOI: https://doi.org/10.3174/ajnr.A6468
Pareto, D.
- Adult BrainOpen AccessRatio of T1-Weighted to T2-Weighted Signal Intensity as a Measure of Tissue Integrity: Comparison with Magnetization Transfer Ratio in Patients with Multiple SclerosisD. Pareto, A. Garcia-Vidal, M. Alberich, C. Auger, X. Montalban, M. Tintoré, J. Sastre-Garriga and À. RoviraAmerican Journal of Neuroradiology March 2020, 41 (3) 461-463; DOI: https://doi.org/10.3174/ajnr.A6481
Park, S.E.
- Adult BrainOpen AccessClinical Experience of 1-Minute Brain MRI Using a Multicontrast EPI Sequence in a Different Scan EnvironmentK.H. Ryu, H.J. Baek, S. Skare, J.I. Moon, B.H. Choi, S.E. Park, J.Y. Ha, T.B. Kim, M.J. Hwang and T. SprengerAmerican Journal of Neuroradiology March 2020, 41 (3) 424-429; DOI: https://doi.org/10.3174/ajnr.A6427
Patel, V.
- EDITOR'S CHOICEHead and Neck ImagingYou have access4D–Dynamic Contrast-Enhanced MRI for Preoperative Localization in Patients with Primary HyperparathyroidismJ.L. Becker, V. Patel, K.J. Johnson, M. Guerrero, R.R. Klein, G.F. Ranvier, R.P. Owen, P. Pawha and K. NaelAmerican Journal of Neuroradiology March 2020, 41 (3) 522-528; DOI: https://doi.org/10.3174/ajnr.A6482
The authors tested the hypothesis that recently introduced 4D dynamic contrast-enhanced MR imaging with high spatial and temporal resolution has equivalent accuracy to 4D-CT for preoperative gland localization in primary hyperparathyroidism. Fifty-four patients met the inclusion criteria: 37 had single-gland disease, and 17, multigland disease—9 with double-gland hyperplasia; 3 with 3-gland hyperplasia, and 5 with 4-gland hyperplasia. For single-gland disease, the gland was correctly located in 92% of patients, with correct identification of the side in 100% and the quadrant in 92%. For multigland disease, the glands were correctly located in 74% of patients, with correct identification of the side in 74% and the quadrant in 77%. The high spatial and temporal resolution 4D dynamic contrast-enhanced MR imaging provides excellent diagnostic performance for preoperative localization in primary hyperparathyroidism.
Patra, D.P.
- EDITOR'S CHOICEAdult BrainOpen AccessPerformance of Standardized Relative CBV for Quantifying Regional Histologic Tumor Burden in Recurrent High-Grade Glioma: Comparison against Normalized Relative CBV Using Image-Localized Stereotactic BiopsiesJ.M. Hoxworth, J.M. Eschbacher, A.C. Gonzales, K.W. Singleton, G.D. Leon, K.A. Smith, A.M. Stokes, Y. Zhou, G.L. Mazza, A.B. Porter, M.M. Mrugala, R.S. Zimmerman, B.R. Bendok, D.P. Patra, C. Krishna, J.L. Boxerman, L.C. Baxter, K.R. Swanson, C.C. Quarles, K.M. Schmainda and L.S. HuAmerican Journal of Neuroradiology March 2020, 41 (3) 408-415; DOI: https://doi.org/10.3174/ajnr.A6486
This study compares the predictive performance of relative CBV standardization against relative CBV normalization for quantifying recurrent tumor burden in high-grade gliomas relative to posttreatment radiation effects. The authors recruited 38 previously treated patients with high-grade gliomas (World Health Organization grades III or IV) undergoing surgical re-resection for recurrent tumor versus posttreatment radiation effects. They recovered 112 image-localized biopsies and quantified the percentage of histologic tumor content versus posttreatment radiation effects for each sample. They measured spatially matched normalized and standardized relative CBV metrics (mean, median) and fractional tumor burden for each biopsy. Across relative CBV metrics, fractional tumor burden showed the highest correlations with tumor content (0%–100%) for normalized and standardized values. With binary cutoffs, predictive accuracies were similar for both standardized and normalized metrics and across relative CBV metrics. Standardization of relative CBV achieves similar equivalent performance compared with normalized relative CBV and offers an important step toward workflow optimization and consensus methodology.
Patton, T.J.
- Patient SafetyOpen AccessNephrogenic Systemic Fibrosis Risk Assessment and Skin Biopsy Quantification in Patients with Renal Disease following Gadobenate Contrast AdministrationE. Kanal, T.J. Patton, I. Krefting and C. WangAmerican Journal of Neuroradiology March 2020, 41 (3) 393-399; DOI: https://doi.org/10.3174/ajnr.A6448
Pawha, P.
- EDITOR'S CHOICEHead and Neck ImagingYou have access4D–Dynamic Contrast-Enhanced MRI for Preoperative Localization in Patients with Primary HyperparathyroidismJ.L. Becker, V. Patel, K.J. Johnson, M. Guerrero, R.R. Klein, G.F. Ranvier, R.P. Owen, P. Pawha and K. NaelAmerican Journal of Neuroradiology March 2020, 41 (3) 522-528; DOI: https://doi.org/10.3174/ajnr.A6482
The authors tested the hypothesis that recently introduced 4D dynamic contrast-enhanced MR imaging with high spatial and temporal resolution has equivalent accuracy to 4D-CT for preoperative gland localization in primary hyperparathyroidism. Fifty-four patients met the inclusion criteria: 37 had single-gland disease, and 17, multigland disease—9 with double-gland hyperplasia; 3 with 3-gland hyperplasia, and 5 with 4-gland hyperplasia. For single-gland disease, the gland was correctly located in 92% of patients, with correct identification of the side in 100% and the quadrant in 92%. For multigland disease, the glands were correctly located in 74% of patients, with correct identification of the side in 74% and the quadrant in 77%. The high spatial and temporal resolution 4D dynamic contrast-enhanced MR imaging provides excellent diagnostic performance for preoperative localization in primary hyperparathyroidism.
- Patient SafetyYou have accessReduction of Radiation Dose and Scanning Time While Preserving Diagnostic Yield: A Comparison of Battery-Powered and Manual Bone Biopsy SystemsS. Kihira, C. Koo, A. Lee, A. Aggarwal, P. Pawha and A. DoshiAmerican Journal of Neuroradiology March 2020, 41 (3) 387-392; DOI: https://doi.org/10.3174/ajnr.A6428
Porter, A.B.
- EDITOR'S CHOICEAdult BrainOpen AccessPerformance of Standardized Relative CBV for Quantifying Regional Histologic Tumor Burden in Recurrent High-Grade Glioma: Comparison against Normalized Relative CBV Using Image-Localized Stereotactic BiopsiesJ.M. Hoxworth, J.M. Eschbacher, A.C. Gonzales, K.W. Singleton, G.D. Leon, K.A. Smith, A.M. Stokes, Y. Zhou, G.L. Mazza, A.B. Porter, M.M. Mrugala, R.S. Zimmerman, B.R. Bendok, D.P. Patra, C. Krishna, J.L. Boxerman, L.C. Baxter, K.R. Swanson, C.C. Quarles, K.M. Schmainda and L.S. HuAmerican Journal of Neuroradiology March 2020, 41 (3) 408-415; DOI: https://doi.org/10.3174/ajnr.A6486
This study compares the predictive performance of relative CBV standardization against relative CBV normalization for quantifying recurrent tumor burden in high-grade gliomas relative to posttreatment radiation effects. The authors recruited 38 previously treated patients with high-grade gliomas (World Health Organization grades III or IV) undergoing surgical re-resection for recurrent tumor versus posttreatment radiation effects. They recovered 112 image-localized biopsies and quantified the percentage of histologic tumor content versus posttreatment radiation effects for each sample. They measured spatially matched normalized and standardized relative CBV metrics (mean, median) and fractional tumor burden for each biopsy. Across relative CBV metrics, fractional tumor burden showed the highest correlations with tumor content (0%–100%) for normalized and standardized values. With binary cutoffs, predictive accuracies were similar for both standardized and normalized metrics and across relative CBV metrics. Standardization of relative CBV achieves similar equivalent performance compared with normalized relative CBV and offers an important step toward workflow optimization and consensus methodology.
Pourier, V.E.C.
- Extracranial VascularYou have accessGadolinium Enhancement of the Aneurysm Wall in Extracranial Carotid Artery AneurysmsC.J.H.C.M. van Laarhoven, M.L. Rots, V.E.C. Pourier, N.K.N. Jorritsma, T. Leiner, J. Hendrikse, M.D.I. Vergouwen and G.J. de BorstAmerican Journal of Neuroradiology March 2020, 41 (3) 501-507; DOI: https://doi.org/10.3174/ajnr.A6442
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