Performance evaluation of the CT component of the IRIS PET/CT preclinical tomograph

In this paper, we evaluate the physical performance of the CT component of the IRIS scanner, a novel combined PET/CT scanner for preclinical imaging. The performance assessment is based on phantom measurement for the determination of image quality parameters (spatial resolution, linearity, geometric accuracy, contrast to noise ratio) and reproducibility in dynamic (4D) imaging. The CTDI<inf>100</inf> has been measured free in air with a pencil ionization chamber, and the animal dose was calculated using Monte Carlo derived conversion factors taken from the literature. The spatial resolution at the highest quality protocol was 6.9lp/mm at 10% of the MTF, using the smallest reconstruction voxel size of 58.8?m. The accuracy of the reconstruction voxel size was within 0.1%. The linearity of the CT numbers as a function of the concentration of iodine was very good, with R ²>0.996 for all the tube voltages. The animal dose depended strongly on the scanning protocol, ranging from 158mGy for the highest quality protocol (2min, 80kV) to about 12mGy for the fastest protocol (7.3s, 80kV). In 4D dynamic modality, the maximum scanning rate reached was 3.1 frames per minute, using a short-scan protocol with 7.3s of scan time per frame at the isotropic voxel size of 235?m. The reproducibility of the system was high throughout the 10 frames acquired in dynamic modality, with a standard deviation of the CT values of all frames <8HU and an average spatial reproducibility within 30% of the voxel size across all the field of view. Example images obtained during animal experiments are also shown.