Sparsity-constrained PET image reconstruction with learned dictionaries

Jing Tang, Bao Yang, Yanhua Wang, Leslie Ying

Research output: Contribution to journalArticlepeer-review

27 Citations (Scopus)

Abstract

PET imaging plays an important role in scientific and clinical measurement of biochemical and physiological processes. Model-based PET image reconstruction such as the iterative expectation maximization algorithm seeking the maximum likelihood solution leads to increased noise. The maximum a posteriori (MAP) estimate removes divergence at higher iterations. However, a conventional smoothing prior or a total-variation (TV) prior in a MAP reconstruction algorithm causes over smoothing or blocky artifacts in the reconstructed images. We propose to use dictionary learning (DL) based sparse signal representation in the formation of the prior for MAP PET image reconstruction. The dictionary to sparsify the PET images in the reconstruction process is learned from various training images including the corresponding MR structural image and a self-created hollow sphere. Using simulated and patient brain PET data with corresponding MR images, we study the performance of the DL-MAP algorithm and compare it quantitatively with a conventional MAP algorithm, a TV-MAP algorithm, and a patch-based algorithm. The DL-MAP algorithm achieves improved bias and contrast (or regional mean values) at comparable noise to what the other MAP algorithms acquire. The dictionary learned from the hollow sphere leads to similar results as the dictionary learned from the corresponding MR image. Achieving robust performance in various noise-level simulation and patient studies, the DL-MAP algorithm with a general dictionary demonstrates its potential in quantitative PET imaging.

Original languageEnglish
Pages (from-to)6347-6368
Number of pages22
JournalPhysics in Medicine and Biology
Volume61
Issue number17
DOIs
Publication statusPublished - 5 Aug 2016

Keywords

  • compressive sensing
  • dictionary learning
  • maximum a posteriori image reconstruction
  • positron emission tomography
  • sparse representation

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