Extent of tube-current reduction using sinogram affirmed iterative reconstruction in pediatric computed tomography: phantom study

Pediatr Radiol. 2019 Jan;49(1):51-56. doi: 10.1007/s00247-018-4260-3. Epub 2018 Sep 26.

Abstract

Background: Iterative image reconstruction techniques can produce diagnostic-quality computed tomography (CT) images with lower radiation dose.

Objective: To quantify the reduction in x-ray tube-current setting and optimize pediatric CT scans using different strengths of an iterative reconstruction technique.

Materials and methods: The head, chest and abdomen regions of an anthropomorphic phantom representing a 5-year-old patient were scanned using standard CT protocols. Images were reconstructed using filtered back projection and different strengths of a sinogram affirmed iterative reconstruction technique. Repeated measurements of contrast-to-noise ratios in the lungs, bone and soft-tissue regions of the phantom were carried out. Maximum increase in contrast-to-noise ratio with iterative reconstruction strength was identified and a tube-current reduction factor was calculated. Head scans were repeated with reduced tube current and compared to filtered back projection images.

Results: Iterative reconstruction strength of 3 for head and chest images and 4 for abdomen images were optimum, resulting in contrast-to-noise ratio increase of about 50%. A tube-current reduction factor of 1.2 for head images was calculated. Images of the head acquired using reduced tube-current showed similar contrast-to-noise ratio as images form filtered back projection with full tube current.

Conclusion: Optimum strength of iterative reconstruction technique has been identified for head, chest and abdomen images. Reductions in tube current of 20%, resulting in similar radiation dose reduction, have been established.

Keywords: Children; Computed tomography; Contrast-to-noise ratio; Iterative reconstruction technique; Tube-current reduction.

MeSH terms

  • Child, Preschool
  • Humans
  • Phantoms, Imaging
  • Radiation Dosage
  • Radiographic Image Interpretation, Computer-Assisted / methods*
  • Tomography, X-Ray Computed*