Scientific Reports (Apr 2018)

Tilted grating phase-contrast computed tomography using statistical iterative reconstruction

  • Lorenz Birnbacher,
  • Manuel Viermetz,
  • Wolfgang Noichl,
  • Sebastian Allner,
  • Andreas Fehringer,
  • Mathias Marschner,
  • Maximilian von Teuffenbach,
  • Marian Willner,
  • Klaus Achterhold,
  • Peter B. Noël,
  • Thomas Koehler,
  • Julia Herzen,
  • Franz Pfeiffer

DOI
https://doi.org/10.1038/s41598-018-25075-7
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 8

Abstract

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Abstract Grating-based phase-contrast computed tomography (GBPC-CT) enables increased soft tissue differentiation, but often suffers from streak artifacts when performing high-sensitivity GBPC-CT of biomedical samples. Current GBPC-CT setups consist of one-dimensional gratings and hence allow to measure only the differential phase-contrast (DPC) signal perpendicular to the direction of the grating lines. Having access to the full two-dimensional DPC signal can strongly reduce streak artefacts showing up as characteristic horizontal lines in the reconstructed images. GBPC-CT with gratings tilted by 45° around the optical axis, combining opposed projections, and reconstructing with filtered backprojection is one method to retrieve the full three-dimensional DPC signal. This approach improves the quality of the tomographic data as already demonstrated at a synchrotron facility. However, additional processing and interpolation is necessary, and the approach fails when dealing with cone-beam geometry setups. In this work, we employ the tilted grating configuration with a laboratory GBPC-CT setup with cone-beam geometry and use statistical iterative reconstruction (SIR) with a forward model accounting for diagonal grating alignment. Our results show a strong reduction of streak artefacts and significant increase in image quality. In contrast to the prior approach our proposed method can be used in a laboratory environment due to its cone-beam compatibility.