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Article Dans Une Revue Annals of Nuclear Medicine Année : 2013

A heuristic statistical stopping rule for iterative reconstruction in emission tomography

Résumé

Objective We propose a statistical stopping criterion for iterative reconstruction in emission tomography based on a heuristic statistical description of the reconstruction process. Methods The method was assessed for MLEM reconstruction. Based on Monte-Carlo numerical simulations and using a perfectly modeled system matrix, our method was compared with classical iterative reconstruction followed by low-pass filtering in terms of Euclidian distance to the exact object, noise, and resolution. The stopping criterion was then evaluated with realistic PET data of a Hoffman brain phantom produced using the GATE platform for different count levels. Results The numerical experiments showed that compared with the classical method, our technique yielded significant improvement of the noise-resolution tradeoff for a wide range of counting statistics compatible with routine clinical settings. When working with realistic data, the stopping rule allowed a qualitatively and quantitatively efficient determination of the optimal image. Conclusions Our method appears to give a reliable estimation of the optimal stopping point for iterative reconstruction. It should thus be of practical interest as it produces images with similar or better quality than classical post-filtered iterative reconstruction with a mastered computation time.
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Dates et versions

hal-00799460 , version 1 (12-03-2013)

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Fayçal Ben Bouallègue, Jean-Francois Crouzet, Denis Mariano-Goulart. A heuristic statistical stopping rule for iterative reconstruction in emission tomography. Annals of Nuclear Medicine, 2013, 27 (1), pp.84-95. ⟨10.1007/s12149-012-0657-5⟩. ⟨hal-00799460⟩
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