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Journal Abstract Search

186 related items for PubMed ID: 30259102

  • 1. Characterization of renal stone composition by using fast kilovoltage switching dual-energy computed tomography compared to laboratory stone analysis: a pilot study.
    Rompsaithong U, Jongjitaree K, Korpraphong P, Woranisarakul V, Taweemonkongsap T, Nualyong C, Chotikawanich E.
    Abdom Radiol (NY); 2019 Mar; 44(3):1027-1032. PubMed ID: 30259102
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  • 3. Efficacy of single-source rapid kV-switching dual-energy CT for characterization of non-uric acid renal stones: a prospective ex vivo study using anthropomorphic phantom.
    Cannella R, Shahait M, Furlan A, Zhang F, Bigley JD, Averch TD, Borhani AA.
    Abdom Radiol (NY); 2020 Apr; 45(4):1092-1099. PubMed ID: 31385007
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  • 6. Renal stones composition in vivo determination: comparison between 100/Sn140 kV dual-energy CT and 120 kV single-energy CT.
    Bonatti M, Lombardo F, Zamboni GA, Pernter P, Pycha A, Mucelli RP, Bonatti G.
    Urolithiasis; 2017 Jun; 45(3):255-261. PubMed ID: 27393276
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  • 11. Feasibility of discriminating uric acid from non-uric acid renal stones using consecutive spatially registered low- and high-energy scans obtained on a conventional CT scanner.
    Leng S, Shiung M, Ai S, Qu M, Vrtiska TJ, Grant KL, Krauss B, Schmidt B, Lieske JC, McCollough CH.
    AJR Am J Roentgenol; 2015 Jan; 204(1):92-7. PubMed ID: 25539242
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  • 12. Comparison of Four Dual-Energy CT Scanner Technologies for Determining Renal Stone Composition: A Phantom Approach.
    Pourvaziri A, Parakh A, Cao J, Locascio J, Eisner B, Sahani D, Kambadakone A.
    Radiology; 2022 Sep; 304(3):580-589. PubMed ID: 35638928
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  • 13. The role of third-generation dual-source dual-energy computed tomography in characterizing the composition of renal stones with infrared spectroscopy as the reference standard.
    Shalini S, Arunachalam VK, Varatharajaperumal RK, Mehta P, S T, Cherian M.
    Pol J Radiol; 2022 Sep; 87():e172-e176. PubMed ID: 35505858
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  • 14. Determination of renal stone composition with dual-energy CT: in vivo analysis and comparison with x-ray diffraction.
    Hidas G, Eliahou R, Duvdevani M, Coulon P, Lemaitre L, Gofrit ON, Pode D, Sosna J.
    Radiology; 2010 Nov; 257(2):394-401. PubMed ID: 20807846
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  • 16. Dual-Energy Computed Tomography for Stone Type Assessment: A Pilot Study of Dual-Energy Computed Tomography with Five Indices.
    Rudenko V, Serova N, Kapanadze L, Taratkin M, Okhunov Z, Leonard SP, Ritter M, Kriegmair M, Snurnitsyna O, Kozlov V, Laukhtina E, Arshiev M, Aleksandrova K, Salomon G, Enikeev D, Glybochko P.
    J Endourol; 2020 Sep; 34(9):893-899. PubMed ID: 32368943
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  • 17. Dual-energy vs conventional computed tomography in determining stone composition.
    Wisenbaugh ES, Paden RG, Silva AC, Humphreys MR.
    Urology; 2014 Jun; 83(6):1243-7. PubMed ID: 24548708
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  • 19. Can a dual-energy computed tomography predict unsuitable stone components for extracorporeal shock wave lithotripsy?
    Ahn SH, Oh TH, Seo IY.
    Korean J Urol; 2015 Sep; 56(9):644-9. PubMed ID: 26366277
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  • 20. Dual energy can accurately differentiate uric acid-containing urinary calculi from calcium stones.
    Spek A, Strittmatter F, Graser A, Kufer P, Stief C, Staehler M.
    World J Urol; 2016 Sep; 34(9):1297-302. PubMed ID: 26749082
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