Priors for X-ray in-line phase tomography of heterogeneous objects

Philos Trans A Math Phys Eng Sci. 2014 Jan 27;372(2010):20130129. doi: 10.1098/rsta.2013.0129. Print 2014 Mar 6.

Abstract

We present a new prior for phase retrieval from X-ray Fresnel diffraction patterns. Fresnel diffraction patterns are achieved by letting a highly coherent X-ray beam propagate in free space after interaction with an object. Previously, either homogeneous or multi-material object assumptions have been used. The advantage of the homogeneous object assumption is that the prior can be introduced in the Radon domain. Heterogeneous object priors, on the other hand, have to be applied in the object domain. Here, we let the relationship between attenuation and refractive index vary as a function of the measured attenuation index. The method is evaluated using images acquired at beamline ID19 (ESRF, Grenoble, France) of a phantom where the prior is calculated by linear interpolation and of a healing bone obtained from a rat osteotomy model. It is shown that the ratio between attenuation and refractive index in bone for different levels of mineralization follows a power law. Reconstruction was performed using the mixed approach but is compatible with other, more advanced models. We achieve more precise reconstructions than previously reported in literature. We believe that the proposed method will find application in biomedical imaging problems where the object is strongly heterogeneous, such as bone healing and biomaterials engineering.

Keywords: X-ray imaging; bone; microscopy; phase contrast; phase retrieval; tomography.

MeSH terms

  • Animals
  • Bone and Bones
  • Polyethylene Terephthalates
  • Polypropylenes
  • Rats
  • Synchrotrons
  • Tomography / instrumentation
  • Tomography / methods*
  • X-Ray Diffraction
  • X-Rays

Substances

  • Polyethylene Terephthalates
  • Polypropylenes