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Non-contrast photon counting computed tomography of the head: optimized modeling of off-focal radiation to reduce calvarium-related tissue inhomogeneity

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Yayımlandı:BMC Medical Imaging vol. 25 (2025), p. 1-9
Yazar: Arwed Elias Michael
Diğer Yazarlar: Petersilka, Martin, Schoenbeck, Denise, Woeltjen, Matthias Michael, Julius Henning Niehoff, Moenninghoff, Christoph, Kurzendorfer, Tanja, Borggrefe, Jan, Goertz, Lukas, Kroeger, Jan Robert
Baskı/Yayın Bilgisi:
Springer Nature B.V.
Konular:
Siemens Healthineers
Germany
Photons
Tomography
Artifacts
Data processing
Software
Medical imaging
Brain
Image processing
Software upgrading
Radiation
Quantitative analysis
Evaluation
Patients
Qualitative analysis
Image reconstruction
Computed tomography
Tissues
Substantia alba
Inhomogeneity
Homogeneity
Image quality
Mathematical models
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Özet:BackgroundPhoton counting CT (PCCT) is a promising technique for neuroradiological CT examinations. In initial studies on non-contrast PCCT of the head (NCCT), however, artifacts close to the calvarium were noticed, which lead to an inhomogeneous representation of the brain tissue. In this study, a new software for image reconstruction to reduce artifacts is evaluated.MethodsIn the new CT software developed by the manufacturer, off-focal radiation was remodeled and is mathematically corrected in the NCCT in data processing during image formation. For the evaluation, 60 patients with an NCCT in the currently used software and 44 patients in the new software were included retrospectively. A detailed quantitative analysis using multiple regions of interest and a qualitative analysis with a reading by experienced radiologists was performed to evaluate image quality and tissue homogeneity below the calvarium.ResultsThe new software reduced the inhomogeneity of the cortical brain tissue near the calvarium. As a quantitative measure, there is a clear reduction of the signal difference of the gray and white matter at different distances from the calvarium (p < 0.001). In the qualitative analysis, the inhomogeneity of the brain tissue was reduced, and the gray-white differentiation improved (p < 0.001) in the clinically used virtual monoenergetic image at 65 keV.ConclusionsOptimized modelling and mathematical correction of the off-focal radiation in the new software led to an effective reduction of the inhomogeneity of the cortical brain tissue and thus improved image quality.
ISSN:1471-2342
DOI:10.1186/s12880-025-01718-w
Kaynak:Health & Medical Collection