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IEEE Trans Med Imaging. 2008;27(7):960-71. doi: 10.1109/TMI.2008.924644.

System calibration and statistical image reconstruction for ultra-high resolution stationary pinhole SPECT.

Author information

1
Department of Nuclear Medicine, Image Sciences Institute, University Medical Center Utrecht, 3584 CG Utrecht, The Netherlands. f.vanderhave@umcutrecht.nl

Abstract

For multipinhole single-photon emission computed tomography (SPECT), iterative reconstruction algorithms are preferred over analytical methods, because of the often complex multipinhole geometries and the ability of iterative algorithms to compensate for effects like spatially variant sensitivity and resolution. Ideally, such compensation methods are based on accurate knowledge of the position-dependent point spread functions (PSFs) specifying the response of the detectors to a point source at every position in the instrument. This paper describes a method for model-based generation of complete PSF lookup tables from a limited number of point-source measurements for stationary SPECT systems and its application to a submillimeter resolution stationary small-animal SPECT system containing 75 pinholes (U-SPECT-I). The method is based on the generalization over the entire object to be reconstructed, of a small number of properties of point-source responses which are obtained at a limited number of measurement positions. The full shape of measured point-source responses can almost be preserved in newly created PSF tables. We show that these PSFs can be used to obtain high-resolution SPECT reconstructions: the reconstructed resolutions judged by rod visibility in a micro-Derenzo phantom are 0.45 mm with 0.6-mm pinholes and below 0.35 mm with 0.3-mm pinholes. In addition, we show that different approximations, such as truncating the PSF kernel, with significant reduction of reconstruction time, can still lead to acceptable reconstructions.

PMID:
18599401
DOI:
10.1109/TMI.2008.924644
[Indexed for MEDLINE]

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