Monte Carlo-based scatter correction for the SMARTZOOM collimator
Publication date
2020-07-22
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Abstract
BACKGROUND: Myocardial perfusion imaging is a commonly performed SPECT protocol and hence it would be beneficial if its scan duration could be shortened. For traditional gamma cameras, two developments have separately shown to allow for a shortened scan duration: (i) reconstructing with Monte Carlo-based scatter correction instead of dual-energy window scatter correction and (ii) acquiring projections with the SMARTZOOM collimator instead of a parallel-hole collimator. This study investigates which reduction in scan duration can be achieved when both methods are combined in a single system. RESULTS: The SMARTZOOM collimator was implemented in a Monte Carlo-based reconstruction package and the implementation was validated through image quality phantom experiments. The potential for scan duration reduction was evaluated with a phantom configuration that is realistic for myocardial perfusion imaging. The original reconstruction quality was achieved in 76 ± 8% of the original scan duration when switching from dual-energy window scatter correction to Monte Carlo-based scatter correction. The original reconstruction quality was achieved in 56 ± 13% of the original scan duration when switching from the parallel-hole to the SMARTZOOM collimator. After combining both methods in a single system, the original reconstruction quality was achieved in 34 ± 7% of the original scan duration. CONCLUSIONS: Monte Carlo-based scatter correction combined with the SMARTZOOM collimator can further decrease the scan duration in myocardial perfusion imaging.
Keywords
Monte Carlo, SPECT, Reconstruction, Scatter, Correction, Myocardial, Perfusion, Journal Article
Citation
Dietze, M M A, Kunnen, B, Stella, M & de Jong, H W A M 2020, 'Monte Carlo-based scatter correction for the SMARTZOOM collimator', EJNMMI physics, vol. 7, no. 1, 49. https://doi.org/10.1186/s40658-020-00318-7