PLoS ONE (Jan 2013)

Iterative image reconstruction for sparse-view CT using normal-dose image induced total variation prior.

  • Jing Huang,
  • Yunwan Zhang,
  • Jianhua Ma,
  • Dong Zeng,
  • Zhaoying Bian,
  • Shanzhou Niu,
  • Qianjin Feng,
  • Zhengrong Liang,
  • Wufan Chen

DOI
https://doi.org/10.1371/journal.pone.0079709
Journal volume & issue
Vol. 8, no. 11
p. e79709

Abstract

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X-ray computed tomography (CT) iterative image reconstruction from sparse-view projection data has been an important research topic for radiation reduction in clinic. In this paper, to relieve the requirement of misalignment reduction operation of the prior image constrained compressed sensing (PICCS) approach introduced by Chen et al, we present an iterative image reconstruction approach for sparse-view CT using a normal-dose image induced total variation (ndiTV) prior. The associative objective function of the present approach is constructed under the penalized weighed least-square (PWLS) criteria, which contains two terms, i.e., the weighted least-square (WLS) fidelity and the ndiTV prior, and is referred to as "PWLS-ndiTV". Specifically, the WLS fidelity term is built based on an accurate relationship between the variance and mean of projection data in the presence of electronic background noise. The ndiTV prior term is designed to reduce the influence of the misalignment between the desired- and prior- image by using a normal-dose image induced non-local means (ndiNLM) filter. Subsequently, a modified steepest descent algorithm is adopted to minimize the associative objective function. Experimental results on two different digital phantoms and an anthropomorphic torso phantom show that the present PWLS-ndiTV approach for sparse-view CT image reconstruction can achieve noticeable gains over the existing similar approaches in terms of noise reduction, resolution-noise tradeoff, and low-contrast object detection.