DocumentCode
1029398
Title
Hybrid parallel-slant hole collimators for SPECT imaging
Author
Bai, Chuanyong ; Shao, Ling ; Ye, Jinghan ; Durbin, Mary ; Petrillo, Mike
Author_Institution
Digirad Corp., Poway, CA, USA
Volume
51
Issue
3
fYear
2004
fDate
6/1/2004 12:00:00 AM
Firstpage
619
Lastpage
624
Abstract
We propose a new collimator geometry, the hybrid parallel-slant (HPS) hole geometry, to improve sensitivity for SPECT imaging with large field of view (LFOV) gamma cameras. A HPS collimator has one segment with parallel holes and one or more segments with slant holes. The collimator can be mounted on a conventional SPECT LFOV system that uses parallel-beam collimators, and no additional detector or collimator motion is required for data acquisition. The parallel segment of the collimator allows for the acquisition of a complete data set of the organs-of-interest and the slant segments provide additional data. In this work, simulation studies of an MCAT phantom were performed with a HPS collimator with one slant segment. The slant direction points from patient head to patient feet with a slant angle of 30°. We simulated 64 projection views over 180° with the modeling of nonuniform attenuation effect, and then reconstructed images using an MLEM algorithm that incorporated the hybrid geometry. It was shown that sensitivity to the cardiac region of the phantom was increased by approximately 50% when using the HPS collimator compared with a parallel-hole collimator. No visible artifacts were observed in the myocardium and the signal-to-noise ratio (SNR) of the myocardium walls was improved. Compared with collimators with other geometries, using a HPS collimator has the following advantages: (a) significant sensitivity increase; (b) a complete data set obtained from the parallel segment that allows for artifact-free image reconstruction; and (c) no additional collimator or detector motion. This work demonstrates the potential value of hybrid geometry in collimator design for LFOV SPECT imaging.
Keywords
biomedical imaging; collimators; data acquisition; image reconstruction; phantoms; single photon emission computed tomography; MCAT phantom; MLEM algorithm; SPECT imaging; artifact-free image reconstruction; cardiac region; collimator geometry; hybrid parallel-slant hole collimators; large field of view gamma cameras; myocardium walls; nonuniform attenuation effect; patient feet; patient head; reconstructed images; signal-to-noise ratio; Collimators; Detectors; Geometry; Image reconstruction; Image segmentation; Imaging phantoms; Motion detection; Myocardium; Optical imaging; Solid modeling; Collimator geometry; FOV; HPS; SPECT; field of view; hole collimator; hybrid parallel-slant;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.2004.829590
Filename
1310573
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