Three-dimensional performance of a small-diameter positron emission tomograph
- 1 February 1997
- journal article
- research article
- Published by IOP Publishing in Physics in Medicine & Biology
- Vol. 42 (2) , 389-400
- https://doi.org/10.1088/0031-9155/42/2/010
Abstract
Recently, the initial 2D physical characterization of a small-diameter positron emission tomograph, designed specifically for scanning of small laboratory animals, was reported. The physical characteristics of the tomograph operating in 3D mode have now been measured and compared to those obtained in 2D mode. In 3D, the transaxial resolution was measured as full width at half maximum (FWHM) and full width at tenth maximum (FWTM) at the centre of the transaxial field of view (FOV). These values degraded to (tangential) and (radial) FWHM and (tangential) and (radial) FWTM, respectively, at a radial distance of 40 mm from the centre of the transaxial FOV. The axial resolution was measured as FWHM and FWTM at the centre of the transaxial FOV, increasing to FWHM and FWTM at a radial distance of 40 mm from the centre of the transaxial FOV. These resolutions are similar to those obtained for the tomograph operating in 2D mode. The sensitivity of the tomograph operating in 3D was at 250 - 850 keV compared to in 2D at the same energy thresholds. In this energy window the noise equivalent count rate peaked at , compared to in 2D. A scatter fraction of 30.2% at 250 - 850 keV was measured for a line source centred in a 60 mm diameter water filled phantom in 3D, compared to 31.0% in 2D for the same scanning geometry and energy thresholds. A comparison was made between 2D and 3D kinetic analyses for a group of five anaesthetized rats scanned using [] SCH 23390, a marker of dopamine receptors. The integrity of the results was maintained between 2D and 3D data sets, though in 3D there was a significant reduction in the standard error of the fitted parameter. The results demonstrate that, with regard to sensitivity, there are significant gains in the physical performance of this tomograph when operating in 3D compared to 2D mode and that the quantification of PET studies of small animals using the 3D data reflects this.Keywords
This publication has 6 references indexed in Scilit:
- The potential of high-resolution positron emission tomography to monitor striatal dopaminergic function in rat models of disease.Journal of Neuroscience Methods, 1996
- The design and physical characteristics of a small animal positron emission tomographPhysics in Medicine & Biology, 1995
- Positioning and energy response of PET block detectors with different light sharing schemesIEEE Transactions on Nuclear Science, 1994
- Measuring PET scanner sensitivity: relating countrates to image signal-to-noise ratios using noise equivalents countsIEEE Transactions on Nuclear Science, 1990
- Analytic 3D image reconstruction using all detected eventsIEEE Transactions on Nuclear Science, 1989
- Characterization of the radioiodinated analogue of SCH 23390: In vitro and in vivo D-1 dopamine receptor binding studiesLife Sciences, 1988