The variation of intrinsic spatial resolution across the UFOV of scintillation cameras

The aim of the present study was to investigate in detail the variation of the intrinsic spatial resolution across the useful field of view (UFOV) of γ-cameras and to explore whether this variation could lead to observable effects in clinical images. Two γ-cameras were used, without their collimator...

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Bibliographic Details
Published in:Computerized medical imaging and graphics 2006-12, Vol.30 (8), p.417-426
Main Authors: Papanastassiou, Emmanouil K., Psarrakos, Kyriakos, Sioundas, Anastasios, Ballas, Apostolos, Koufogiannis, Dimitrios, Hatziioannou, Konstantinos
Format: Article
Language:English
Subjects:
Gamma Cameras - standards
Intrinsic spatial resolution
Phantoms, Imaging
PMT
Radionuclide Imaging - instrumentation
Scintillation camera
Scintillation Counting
System spatial resolution
Technetium
Thyroid Gland - diagnostic imaging
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Summary:The aim of the present study was to investigate in detail the variation of the intrinsic spatial resolution across the useful field of view (UFOV) of γ-cameras and to explore whether this variation could lead to observable effects in clinical images. Two γ-cameras were used, without their collimators, to acquire 560 99mTc point source images at different points across their UFOVs, in order to measure the intrinsic spatial resolution at each point. Possible clinical effects of the resolution variation were examined on images of a thyroid phantom using a LEHR collimator, acquired at different locations on the UFOV and at various distances from the collimator. The γ-camera intrinsic resolution varied significantly across the UFOV, being generally lower at the central region and deteriorating at the edges. Pronounced local maxima and minima were found at points corresponding to the centers of the photomultiplier tubes (PMTs) and halfway in between. Maximum differences of more than 50% were observed between the points presenting the best and worst intrinsic resolution. Differences between neighboring points reached 17%. The effects of resolution variation were clearly observable on the thyroid phantom images. It was concluded that an appropriate correction algorithm might be necessary in order to correct for the variation of the intrinsic spatial resolution across the UFOV of γ-cameras.
ISSN:0895-6111
1879-0771
DOI:10.1016/j.compmedimag.2006.06.003