PLoS ONE (Jan 2019)

3D grating-based X-ray phase-contrast computed tomography for high-resolution quantitative assessment of cartilage: An experimental feasibility study with 3T MRI, 7T MRI and biomechanical correlation.

  • Julia Herzen,
  • Dimitrios C Karampinos,
  • Peter Foehr,
  • Lorenz Birnbacher,
  • Manuel Viermetz,
  • Rainer Burgkart,
  • Thomas Baum,
  • Fabian Lohoefer,
  • Moritz Wildgruber,
  • Franz Schilling,
  • Marian Willner,
  • Mathias Marschner,
  • Peter B Noël,
  • Ernst J Rummeny,
  • Franz Pfeiffer,
  • Pia M Jungmann

DOI
https://doi.org/10.1371/journal.pone.0212106
Journal volume & issue
Vol. 14, no. 2
p. e0212106

Abstract

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ObjectiveAim of this study was, to demonstrate the feasibility of high-resolution grating-based X-ray phase-contrast computed tomography (PCCT) for quantitative assessment of cartilage.Materials and methodsIn an experimental setup, 12 osteochondral samples were harvested from n = 6 bovine knees (n = 2 each). From each knee, one cartilage sample was degraded using 2.5% Trypsin. In addition to PCCT and biomechanical cartilage stiffness measurements, 3T and 7T MRI was performed including MSME SE T2 and ME GE T2* mapping sequences for relaxationtime measurements. Paired t-tests and receiver operating characteristics (ROC) curves were used for statistical analyses.ResultsPCCT provided high-resolution images for improved morphological cartilage evaluation as compared to 3T and 7T MRI. Quantitative analyses revealed significant differences between the superficial and the deep cartilage layer for T2 mapping as well as for PCCT (P0.05). MRI and stiffness measurements showed significant differences between healthy and degraded osteochondral samples. Accuracy in the prediction of cartilage degradation was excellent for MRI and biomechanical analyses.ConclusionIn conclusion, high-resolution grating-based X-ray PCCT cartilage imaging is feasible. In addition to MRI and biomechanical analyses it provides complementary, water content independent, information for improved morphological and quantitative characterization of articular cartilage ultrastructure.