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Neuroradiology
Published in: Neuroradiology 5/2024

Open Access 27-02-2024 | Subdural Hematoma | Diagnostic Neuroradiology

Imaging of intracranial hemorrhage in photon counting computed tomography using virtual monoenergetic images

Authors: Denise Schoenbeck, Alexander Sacha, Julius Henning Niehoff, Christoph Moenninghoff, Jan Borggrefe, Sebastian Horstmeier, Alexey Surov, Iram Shahzadi, Ulrich Knappe, Jan Robert Kroeger, Arwed Elias Michael

Published in: Neuroradiology | Issue 5/2024

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Abstract

Purpose

To determine the optimal virtual monoenergetic image (VMI) for detecting and assessing intracranial hemorrhage in unenhanced photon counting CT of the head based on the evaluation of quantitative and qualitative image quality parameters.

Methods

Sixty-three patients with acute intracranial hemorrhage and unenhanced CT of the head were retrospectively included. In these patients, 35 intraparenchymal, 39 intraventricular, 30 subarachnoidal, and 43 subdural hemorrhages were selected. VMIs were reconstructed using all available monoenergetic reconstruction levels (40–190 keV). Multiple regions of interest measurements were used for evaluation of the overall image quality, and signal, noise, signal-to-noise-ratio (SNR), and contrast-to-noise-ratio (CNR) of intracranial hemorrhage. Based on the results of the quantitative analysis, specific VMIs were rated by five radiologists on a 5-point Likert scale.

Results

Signal, noise, SNR, and CNR differed significantly between different VMIs (p < 0.001). Maximum CNR for intracranial hemorrhage was reached in VMI with keV levels > 120 keV (intraparenchymal 143 keV, intraventricular 164 keV, subarachnoidal 124 keV, and subdural hemorrhage 133 keV). In reading, no relevant superiority in the detection of hemorrhage could be demonstrated using VMIs above 66 keV.

Conclusion

For the detection of hemorrhage in unenhanced CT of the head, the quantitative analysis of the present study on photon counting CT is generally consistent with the findings from dual-energy CT, suggesting keV levels just above 120 keV and higher depending on the location of the hemorrhage.
However, on the basis of the qualitative analyses, no reliable statement can yet be made as to whether an additional VMI with higher keV is truly beneficial in everyday clinical practice.
Appendix
Available only for authorised users
Literature
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Michael AE, Boriesosdick J, Schoenbeck D, Woeltjen MM, Saeed S, Kroeger JR, Horstmeier S, Lennartz S, Borggrefe J, Niehoff JH (2022) Image-quality assessment of polyenergetic and virtual monoenergetic reconstructions of unenhanced CT scans of the head: initial experiences with the first photon-counting CT approved for clinical use. Diagnostics 12:265CrossRefPubMedPubMedCentral
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Bodanapally UK, Archer-Arroyo KL, Dreizin D, Shanmuganathan K, Schwartzbauer G, Li G, Fleiter TR (2019) Dual-energy computed tomography imaging of head: virtual high-energy monochromatic (190 keV) images are more reliable than standard 120 kV images for detecting traumatic intracranial hemorrhages. J Neurotrauma 36:1375–1381. https://​doi.​org/​10.​1089/​neu.​2018.​5985CrossRefPubMed
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Metadata
Title
Imaging of intracranial hemorrhage in photon counting computed tomography using virtual monoenergetic images
Authors
Denise Schoenbeck
Alexander Sacha
Julius Henning Niehoff
Christoph Moenninghoff
Jan Borggrefe
Sebastian Horstmeier
Alexey Surov
Iram Shahzadi
Ulrich Knappe
Jan Robert Kroeger
Arwed Elias Michael
Publication date
27-02-2024
Publisher
Springer Berlin Heidelberg
Published in
Neuroradiology / Issue 5/2024
Print ISSN: 0028-3940
Electronic ISSN: 1432-1920
DOI
https://doi.org/10.1007/s00234-024-03308-z

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