European Radiology Experimental (Jul 2019)

Imaging features in post-mortem x-ray dark-field chest radiographs and correlation with conventional x-ray and CT

  • Alexander A. Fingerle,
  • Fabio De Marco,
  • Jana Andrejewski,
  • Konstantin Willer,
  • Lukas B. Gromann,
  • Wolfgang Noichl,
  • Fabian Kriner,
  • Florian Fischer,
  • Christian Braun,
  • Hanns-Ingo Maack,
  • Thomas Pralow,
  • Thomas Koehler,
  • Peter B. Noël,
  • Felix Meurer,
  • Dominik Deniffel,
  • Andreas P. Sauter,
  • Bernhard Haller,
  • Daniela Pfeiffer,
  • Ernst J. Rummeny,
  • Julia Herzen,
  • Franz Pfeiffer

DOI
https://doi.org/10.1186/s41747-019-0104-7
Journal volume & issue
Vol. 3, no. 1
pp. 1 – 12

Abstract

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Abstract Background Although x-ray dark-field imaging has been intensively investigated for lung imaging in different animal models, there is very limited data about imaging features in the human lungs. Therefore, in this work, a reader study on nine post-mortem human chest x-ray dark-field radiographs was performed to evaluate dark-field signal strength in the lungs, intraobserver and interobserver agreement, and image quality and to correlate with findings of conventional x-ray and CT. Methods In this prospective work, chest x-ray dark-field radiography with a tube voltage of 70 kVp was performed post-mortem on nine humans (3 females, 6 males, age range 52–88 years). Visual quantification of dark-field and transmission signals in the lungs was performed by three radiologists. Results were compared to findings on conventional x-rays and 256-slice computed tomography. Image quality was evaluated. For ordinal data, median, range, and dot plots with medians and 95% confidence intervals are presented; intraobserver and interobserver agreement were determined using weighted Cohen κ. Results Dark-field signal grading showed significant differences between upper and middle (p = 0.004–0.016, readers 1–3) as well as upper and lower zones (p = 0.004–0.016, readers 1–2). Median transmission grading was indifferent between all lung regions. Intraobserver and interobserver agreements were substantial to almost perfect for grading of both dark-field (κ = 0.793–0.971 and κ = 0.828–0.893) and transmission images (κ = 0.790–0.918 and κ = 0.700–0.772). Pulmonary infiltrates correlated with areas of reduced dark-field signal. Image quality was rated good for dark-field images. Conclusions Chest x-ray dark-field images provide information of the lungs complementary to conventional x-ray and allow reliable visual quantification of dark-field signal strength.

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