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Journal Abstract Search

366 related items for PubMed ID: 28448413

  • 21. Material density iodine images in dual-energy CT: Detection and characterization of hypervascular liver lesions compared to magnetic resonance imaging.
    Muenzel D, Lo GC, Yu HS, Parakh A, Patino M, Kambadakone A, Rummeny EJ, Sahani DV.
    Eur J Radiol; 2017 Oct; 95():300-306. PubMed ID: 28987684
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  • 22. Dual-source 128-slice MDCT neck: radiation dose and image quality estimation of three different protocols.
    Paul J, Mbalisike EC, Nour-Eldin NE, Vogl TJ.
    Eur J Radiol; 2013 May; 82(5):787-96. PubMed ID: 23265177
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  • 23. Tumour response in non-small-cell lung cancer patients treated with chemoradiotherapy - Can spectral CT predict recurrence?
    Fehrenbach U, Feldhaus F, Kahn J, Böning G, Maurer MH, Renz D, Frost N, Streitparth F.
    J Med Imaging Radiat Oncol; 2019 Oct; 63(5):641-649. PubMed ID: 31282130
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  • 24. Feasibility of Dual-Energy Computed Tomography Imaging of Gadolinium-Based Contrast Agents and Its Application in Computed Tomography Cystography: An Exploratory Study to Assess an Alternative Option When Iodinated Contrast Agents Are Contraindicated.
    Nogel SJ, Ren L, Yu L, Takahashi N, Froemming AT.
    J Comput Assist Tomogr; 2019 Oct; 45(5):691-695. PubMed ID: 34407061
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  • 25. Dual-energy liver CT: effect of monochromatic imaging on lesion detection, conspicuity, and contrast-to-noise ratio of hypervascular lesions on late arterial phase.
    Shuman WP, Green DE, Busey JM, Mitsumori LM, Choi E, Koprowicz KM, Kanal KM.
    AJR Am J Roentgenol; 2014 Sep; 203(3):601-6. PubMed ID: 25148163
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  • 28. Preoperative Prediction of Cervical Nodal Metastasis in Papillary Thyroid Carcinoma: Value of Quantitative Dual-Energy CT Parameters and Qualitative Morphologic Features.
    Wu YY, Wei C, Wang CB, Li NY, Zhang P, Dong JN.
    AJR Am J Roentgenol; 2021 May; 216(5):1335-1343. PubMed ID: 33760651
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  • 29. Predictive factors for treatment response using dual-energy computed tomography in patients with advanced lung adenocarcinoma.
    Hong SR, Hur J, Moon YW, Han K, Chang S, Kim JY, Im DJ, Suh YJ, Hong YJ, Lee HJ, Kim YJ, Choi BW.
    Eur J Radiol; 2018 Apr; 101():118-123. PubMed ID: 29571784
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  • 30. Deep learning-based virtual noncontrast CT for volumetric modulated arc therapy planning: Comparison with a dual-energy CT-based approach.
    Koike Y, Ohira S, Akino Y, Sagawa T, Yagi M, Ueda Y, Miyazaki M, Sumida I, Teshima T, Ogawa K.
    Med Phys; 2020 Feb; 47(2):371-379. PubMed ID: 31733105
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  • 32. Comparison of Radiation Dose and Image Quality of Contrast-Enhanced Dual-Source CT of the Chest: Single-Versus Dual-Energy and Second-Versus Third-Generation Technology.
    Lenga L, Leithner D, Peterke JL, Albrecht MH, Gudauskas T, D'Angelo T, Booz C, Hammerstingl R, Vogl TJ, Martin SS, Wichmann JL.
    AJR Am J Roentgenol; 2019 Apr; 212(4):741-747. PubMed ID: 30699006
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  • 35. Optimization of kiloelectron volt settings in cerebral and cervical dual-energy CT angiography determined with virtual monoenergetic imaging.
    Schneider D, Apfaltrer P, Sudarski S, Nance JW, Haubenreisser H, Fink C, Schoenberg SO, Henzler T.
    Acad Radiol; 2014 Apr; 21(4):431-6. PubMed ID: 24594412
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  • 36. Dual-energy CT iodine maps as an alternative quantitative imaging biomarker to abdominal CT perfusion: determination of appropriate trigger delays for acquisition using bolus tracking.
    Skornitzke S, Fritz F, Mayer P, Koell M, Hansen J, Pahn G, Hackert T, Kauczor HU, Stiller W.
    Br J Radiol; 2018 May; 91(1085):20170351. PubMed ID: 29446319
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