Abstract
The aim of this study to design optimized pinhole and parallel-hole collimators for the development of a high-resolution microSPECT system using a compact pixelleted scintillation detector. The detector has a field-of-view of 11cm with pixellated crystal elements of 1.0mm pixel size and 1.12mm pixel pitch. The relative resolution and sensitivity advantages of pinhole and parallel-hole collimators for mice and rats imaging were investigated using analytic formulations and Monte Carlo simulations. The optimized collimator designs were obtained by maximizing the system detection efficiency for a given object resolution. The collimator designs were optimized for 140 keV incident gamma photons. Our results indicate that this small field-of-view compact detector fitted with a conventional high-resolution parallel-hole collimator with 4cm hole-length and 1.2mm hex hole-size couldn't provide better than 2 mm resolution for mice and rats imaging. However, a pinhole collimator with 10cm focal length and 1.0mm aperture size with keel-edge design of 0.5mm channel-height can provide the desired resolutions for imaging mice and rats. The relative efficiency is about 2 times higher than that of the parallel-hole collimator for imaging mice at the distance of 3cm from the collimator. In conclusion, pinhole collimator is superior to parallel-hole collimator and requires sophisticated optimal designs with high-resolution compact gamma camera for small animal imaging.
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