Dual Source Dual Energy CT





Publications in peer-reviewed journals

1. N. Takahashi et al., “Dual-energy CT iodine-subtraction virtual unenhanced technique to detect urinary stones in an iodine-filled collecting system: a phantom study”, Am J Roentgenology 190(5), 1169 (2008).

2. A. Primak et al., “Noninvasive Differentiation of Uric Acid versus Non-Uric Acid Kidney Stones Using Dual-Energy CT”, Academic Radiology 14, 1441 (2007).

3. A. Primak et al., “A Technical Solution to Avoid Partial Scan Artifacts in Cardiac MDCT”, Medical Physics 34(12), 4726 (2007).



ABSTRACT SUBMISSION

 1. X. Liu et al., “Quantitative imaging of chemical composition using dual-energy, dual-source CT”, SPIE Medical Imaging International Conference, 16 - 21 February 2008, San Diego, CA, USA.

 2. N. Takahashi et al., “Dual-energy CT iodine-subtraction “virtual non-contrast” technique for detection of urinary stones in the opacified collecting system: feasibility phantom study”, Society of Gastrointestinal Radiologists and Society of Uroradiology, April 15-20 2007, Coconut Point, Naples, FL, USA.

 3. A. Primak et al., “A Technical Solution to Avoid Partial Scan Artifacts in Myocardial Perfusion Imaging using MDCT”, 49-th AAPM Annual Meeting, July 22-26, 2007, Minneapolis Convention Center, Minneapolis, MN, USA.

 4. O.P. Dzyubak et al., “The use of CT dual-energy subtraction imaging to detect kidney stones amid iodinated contrast material”, 49-th AAPM Annual Meeting, July 22-26, 2007, Minneapolis Convention Center, Minneapolis, MN.

 5. O.P. Dzyubak et al., “The use of dual-energy CT virtual non-contrast images to discriminate hyper attenuating cysts from iodine-enhanced solid masses: A proof of concept phantom study”, RSNA, November 25-30, 2007, Chicago, IL.

 6. O.P. Dzyubak et al., “Accuracy of calcified plaque removal using dual-energy CT and three material de-composition software: A phantom study”, RSNA, November 25-30, 2007, Chicago, IL.

 7. O.P. Dzyubak et al., “Evaluation of dual-energy CT virtual non-contrast techniques for the detection of kidney stones amid iodinated contrast material”, RSNA, November 25-30, 2007, Chicago, IL.

 8. C.L. Brown et al., “Dual-Energy CT Iodine Overlay Technique for Characterization of Renal Masses as Cyst or Solid: A Phantom Feasibility Study”, RSNA, November 25-30, 2007, Chicago, IL.

 9. M.R Bruesewitz et al., “Dual Energy Computed Tomography: How Does it Work and What Can it Do?”, RSNA, November 25-30, 2007, Chicago, IL.

10. C.H. McCollough et al., “ECG-based tube current modulation: Just how much can dose be reduced?”, RSNA, November 25-30, 2007, Chicago, IL.

11. E. McDonald et al., “Use of 80 kV Tube Energy in Perfusion CT: When is it OK?”, RSNA, November 25-30, 2007, Chicago, IL.

12. A. Primak et al., “Methods to reduce or eliminate partial scan artifacts in cardiac CT”, RSNA, November 25-30, 2007, Chicago, IL.

13. N. Takahashi et al., “Dual-energy CT iodine-subtraction virtual noncontrast technique for detection of urinary stone in the iodine filled collecting system: a phantom study”, RSNA, November 25-30, 2007, Chicago, IL.

14. L. Yu et al., “Dual-source dual-energy CT (DECT) combined images can provide improved image quality relative to single-energy CT with no increase in patient dose”, RSNA, November 25-30, 2007, Chicago, IL.








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