European Radiology Experimental (Dec 2019)

Optimising dual-energy CT scan parameters for virtual non-calcium imaging of the bone marrow: a phantom study

  • Felix C. Müller,
  • Henrik Børgesen,
  • Kasper Gosvig,
  • Anders Rodell,
  • Christian Booz,
  • Bernhard Schmidt,
  • Bernhard Krauss,
  • Mikael Boesen

DOI
https://doi.org/10.1186/s41747-019-0125-2
Journal volume & issue
Vol. 3, no. 1
pp. 1 – 8

Abstract

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Abstract Background We investigated the influence of dose, spectral separation, pitch, rotation time, and reconstruction kernel on accuracy and image noise of virtual non-calcium images using a bone marrow phantom. Methods The phantom was developed at our institution and scanned using a third-generation dual-source dual-energy CT scanner at five different spectral separations by varying the tube-voltage combinations (70 kV/Sn150 kV, 80 kV/Sn150 kV, 90 kV/Sn150 kV, and 100 kV/Sn150 kV, all with 0.6-mm tin filter [Sn]; 80 kV/140 kV without tin filter) at six different doses (volume computed tomography dose index from 1 to 80 mGy). In separate experiments, rotation times, pitch, and reconstruction kernels were varied at a constant dose and tube voltage. Accuracy was determined by measuring the mean error between virtual non-calcium values in the fluid within and outside of the bone. Image noise was defined as the standard deviation of virtual non-calcium values. Results Spectral separation, dose, rotation time, or pitch did not significantly correlate (p > 0.083) with mean error. Increased spectral separation (r s-0.96, p < 0.001) and increased dose (r s-0.98, p < 0.001) correlated significantly with decreased image noise. Increasing sharpness of the reconstruction kernel correlated with mean error (r s 0.83, p = 0.015) and image noise (r s 1.0, p < 0.001). Conclusions Increased dose and increased spectral separation significantly lowered image noise in virtual non-calcium images but did not affect the accuracy. Virtual non-calcium reconstructions with similar accuracy and image noise could be achieved at a lower tube-voltage difference by increasing the dose.

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