Background: Small Animal Fast Insert for MRI detector I (SAFIR-I) is a novel Positron Emission Tomography insert for a [Formula: see text] Bruker BioSpec 70/30 Ultra Shield Refrigerated Magnetic Resonance Imaging (MRI) system. It facilitates truly simultaneous quantitative imaging in mice and rats at injected activities as high as [Formula: see text]. Exploitation of the resulting high count rates enables quick image formation at few seconds per frame. In this investigation, key performance parameters of SAFIR-I have been determined according to the evaluations outlined in the National Electrical Manufacturers Association (NEMA) Standards Publication NU 4-2008 (NEMA-NU4) protocol.
Results: Using an energy window of 391 to [Formula: see text] and a Coincidence Timing Window of [Formula: see text], the following performance was observed: The average spatial resolution at [Formula: see text] radial offset (Full Width at Half Maximum) is [Formula: see text] when using Filtered Backprojection, 3D Reprojection reconstruction. For the mouse- and rat-like phantoms, the maximal Noise-Equivalent Count Rates (NECRs) are [Formula: see text] at the highest tested average effective concentration of [Formula: see text], and [Formula: see text] at the highest tested average effective concentration of [Formula: see text], respectively. The NECR peak is not yet reached for either of these cases. The peak sensitivity is [Formula: see text]. The Image Quality phantom uniformity standard deviation is [Formula: see text]. The Recovery Coefficient for the [Formula: see text] rod is [Formula: see text]. The Spill-Over Ratios are [Formula: see text] and [Formula: see text], for the water- and air-filled cylinder, respectively. An accuracy of [Formula: see text] was achieved for the quantitative calibration of reconstructed voxel values.
Conclusions: The measured performance parameters indicate that the various design goals have been achieved. SAFIR-I offers excellent performance, especially at the high activities it was designed for. This facilitates planned experiments with fast tracer kinetics in small animals. Ways to potentially improve performance can still be explored. Simultaneously, further performance gains can be expected for a forthcoming insert featuring 2.7 times longer axial coverage named Small Animal Fast Insert for MRI detector II (SAFIR-II).
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| http://dx.doi.org/10.1186/s40658-023-00603-1 | DOI Listing |
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