Effect of number of views on cross-sectional Compton imaging: A fundamental study with backprojection

•We examined the point spread function of a cross-sectional Compton image.•The effect of the number of views was also examined.•The double Lorentzian function approximated the PSF well.•Insufficient views caused star-shaped artifacts, but did not degrade spatial resolution. We have been developing a...

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Bibliographic Details
Published in:Physica medica 2018-12, Vol.56, p.1-9
Main Authors: Sakai, Makoto, Parajuli, Raj Kumar, Kikuchi, Mikiko, Yamaguchi, Mitsutaka, Nagao, Yuto, Kawachi, Naoki, Arakawa, Kazuo, Nakano, Takashi
Format: Article
Language:English
Subjects:
Compton camera
Computer Simulation
Equipment Design
Fluorine Radioisotopes
Gamma Cameras
Gamma Rays
Humans
Imaging, Three-Dimensional - methods
Monte Carlo Method
Nuclear medicine
Point spread function
Radionuclide Imaging - methods
Streak artifacts
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Summary:•We examined the point spread function of a cross-sectional Compton image.•The effect of the number of views was also examined.•The double Lorentzian function approximated the PSF well.•Insufficient views caused star-shaped artifacts, but did not degrade spatial resolution. We have been developing a medical imaging technique using a Compton camera, which is expected to reconstruct three-dimensional images. If the number of views is not sufficient, star-shaped artifacts (streak artifacts) could arise in cross-sectional images. Therefore, we estimated the point spread function (PSF) of cross-sectional Compton images and the effect of the number of views by Monte Carlo simulations and experimental studies. A cross-sectional Compton image was reconstructed using a dataset comprising 719 view directions and PSF was analyzed using a radial distribution. The peak height, full width at half maximum (FWHM), background (BG), and residual sum of squares (RSS) were calculated from the obtained PSF. In addition, RSSs were plotted against the number of views to estimate the required number to suppress star-shaped artifacts. There was no correlation found between the number of views and both FWHM (16 mm) and peak/BG ratio (∼1 × 104). RSSs were reduced with the number of views and approached the minimum asymptotically. Correlation was observed between the required number of views and the number of Compton events used for image reconstruction. We determined the PSF of cross-sectional Compton images and the effect of the number of views on the images. The required number of views to suppress the star-shaped artifact is related to the square root of the number of Compton events used to reconstruct the image. From this study, we concluded that 21 or more views are required for clinical purposes.
ISSN:1120-1797
1724-191X
DOI:10.1016/j.ejmp.2018.11.006