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Autor(en) / Beteiligte
Titel
Fast kVp‐switching dual energy contrast‐enhanced thorax and cardiac CT: A phantom study on the accuracy of iodine concentration and effective atomic number measurement
Ist Teil von
  • Medical physics (Lancaster), 2017-09, Vol.44 (9), p.4724-4735
Ort / Verlag
United States
Erscheinungsjahr
2017
Quelle
Wiley Online Library Journals Frontfile Complete
Beschreibungen/Notizen
  • Purpose To assess the effect of vessel diameter and exposure parameters on the estimation accuracy of concentration and effective atomic number (Zeff) of iodine (I) in contrast‐enhanced thorax and cardiac dual‐energy CT using a modern fast kVp‐switching CT scanner. Methods A standard semi‐anthropomorphic cardiac CT phantom devised to simulate the human chest at three different body habitus i.e., medium‐sized, large‐sized, and obese, was scanned using a fast kVp‐switching Revolution‐GSI GE CT scanner. Five cylindrical, 10 mm diameter, vials were filled with solutions prepared by diluting I contrast at five concentrations (2.5, 5, 10, 15, and 20 mg I/ml). To simulate small vessels, pipette tips with a diameter ranging from 5 mm to 0.5 mm were employed. The vials and pipette tips were accommodated within the semi‐anthropomorphic phantom. CT acquisitions were performed in the fast kVp‐switching dual‐energy mode at six different CTDIw values. Acquisitions were also performed at 80, 100, 120, and 140 kVp. Images were acquired at 64 × 0.625 mm beam collimation and reconstructed at 2.5 mm using all available reconstruction filter kernels. Virtual monochromatic spectral (VMS) images, iodine concentration (IMeas), and Zeff maps were reconstructed. Hounsfield unit as a function of energy (HUkeV) in VMS and single‐kVp (HUkVp), IMeas and Zeff were measured at each CTDIw. The effect of vessel diameter on IMeas and Zeff was investigated. Measured HUkeV and Zeff were compared to theoretically estimated values and IMeas were compared to nominal (INom) values. Results In 10 mm diameter vessels, HUkeV values were accurate to 18% for the medium‐sized, 22% for the large‐sized and 39% for the obese phantoms. IMeas was underestimated by up to 10% for the medium‐sized, 26% for the large‐sized and 33% for the obese phantom. IMeas error decreased with increasing CTDIw from ±0.799 mg/ml at 8.61 mGy to ±0.082 mg/ml at 32.01 mGy. The percentage difference between measured and theoretically estimated Zeff ranged from −3.9% to −14.5%. In pipette tip vessels, IMeas was found to depend on the kernel employed. At the standard kernel, IMeas, for INom = 20 mg/ml, was reduced with vessel diameter from 19.25 ± 0.39 mg/ml, at 10 mm, to 2.52 ± 0.31 mg/ml, at 1 mm. Linear regression between IMeas and INom resulted in IMeas/INom factors of 0.925 for 5 mm, 0.815 for 4 mm, 0.651 for 3 mm, 0.377 for 2 mm, and 0.129 for 1 mm vessel diameter. Measured Zeff values were underestimated when vessel diameter was decreased from 5 mm to 1 mm by 27% for the 20 mg I/ml and 21% for the 2.5 mg I/ml. Conclusions HUkeV, IMeas, and Zeff depend on several parameters such as body size, vessel size, exposure parameters, and reconstruction kernel. The limiting spatial resolution of the CT system results in considerable underestimation of HUkVp, IMeas, and Zeff in vessels smaller than 5 mm diameter. The underestimation of I uptake may be experimentally corrected, if the diameter of the investigated vessel is measured and the correction factors produced in this study are employed.
Sprache
Englisch
Identifikatoren
ISSN: 0094-2405
eISSN: 2473-4209
DOI: 10.1002/mp.12437
Titel-ID: cdi_proquest_miscellaneous_1914847758

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