Elsevier

Academic Radiology

Volume 7, Issue 8, August 2000, Pages 607-614
Academic Radiology

Original Investigation
Fast iterative algorithm for metal artifact reduction in X-ray CT*

https://doi.org/10.1016/S1076-6332(00)80576-0Get rights and content

Rationale and Objectives.

The reduction of metal artifacts in x-ray computed tomography (CT) has important clinical applications. An iterative method adapted from the expectation maximization (EM) formula for emission CT was shown to be effective for metal artifact reduction, but its computational speed is slow. The goal of this project was to accelerate that iterative method for metal artifact reduction.

Materials and Methods.

Using the row-action/ordered-subset (EM) formula for emission CT as a basis, the authors developed a fast iterative algorithm for metal artifact reduction. In each iteration of this algorithm, both reprojection from an intermediate image and backprojection from discrepancy data are performed.

Results.

The feasibility of the fast iterative algorithm was demonstrated in numerical and phantom experiments. In comparison with the nonaccelerated iterative algorithm, the speed of iterative metal artifact reduction is improved by an order of magnitude given image quality in terms of visual inspection, I-divergence in the projection domain, and the euclidean distance in the image domain.

Conclusion.

The fast iterative algorithm corrects intermediate reconstruction according to subsets of projections and produces satisfactory image quality at a much faster speed than the previously published iterative algorithm. This algorithm has important potential in clinical applications, such as orthopedic, oncologic, and dental imaging.

References (17)

  • LewittRM et al.

    Image reconstruction from projections. III. Projection completion methods

    Optik

    (1978)
  • JosephPM et al.

    Method for correcting bone induced artifacts in computed tomography scanners

    J Comput Assist Tomogr

    (1978)
  • HinderlingT et al.

    Computed tomography reconstruction from hollow projections: an application to in vivo evaluation of artificial hip joints

    J Comput Assist Tomogr

    (1979)
  • KalenderWA et al.

    Reduction of CT artifacts caused by metallic implants

    Radiology

    (1987)
  • MedoffBP et al.

    Iterative convolution backprojection algorithms for image reconstruction from limited data

    J Opt Soc Am

    (1983)
  • GloverGH et al.

    An algorithm for the reduction of metal clip artifacts in CT reconstructions

    Med Phys

    (1981)
  • WangG et al.

    Iterative deblurring for metal artifact reduction

    IEEE Trans Med Imaging

    (1996)
  • RobertsonDD et al.

    Total hip prosthesis metal-artifact suppression using iterative deblurring reconstruction

    J Comput Assist Tomogr

    (1997)
There are more references available in the full text version of this article.

Cited by (0)

*

Supported in part by grants DK50184, DC03590, HD30169, and NS35368 from the National Institutes of Health.

View full text
Copyright © 2000 Published by Elsevier Inc.