Design of a High-resolution Small-animal SPECT-CT System Sharing a CdTe Semiconductor Detector

摘要

A single photon emission computed tomography(SPECT)system with a co-registered X-y com-puted tomography(CT)system allows the convergence of functional information and morphologic information. The localization of radiopharmaceuticals on a SPECT can be enhanced by combin-ing the SPECT with an anatomical modality, such as X-ray CT. Gamma-ray imaging for nuclear medicine devices and X-ray imaging systems for diagnostics has recently been developed based on semiconductor detectors, and semiconductor detector materials such as cadmium telluride(CdTe)or cadmium zinc telluride(CZT)are available for both X-ray and gamma-ray systems for small- animal imaging. CdTe or CZT detectors provide strong absorption and high detection efficiency of high energy X-ray and gamma-ray photons because of their large atomic numbers. In this study,a pinhole collimator SPECT system sharing a cadmium telluride(CdTe)detector with a CT was designed. The GEANT4 application for tomographic emission(GATE)v.6.1 was used for the sim-ulation. The pinhole collimator was designed to obtain a high spatial resolution of the SPECT system. The acquisition time for each projection was 40 seconds, and 60 projections were obtained for tomographic image acquisition. The reconstruction was performed using ordered subset expec-tation maximization(OS-EM)algorithms. The sensitivity and the spatial resolution were measured on the GATE simulation to evaluate the system characteristics. The spatial resolution of the sys-tem calculated from the FWHM of Gaussian fitted PSF curve was 0.69 mm, and the sensitivity of the system was measured to be 0.354 cps/kBq by using a Tc-99m point source of 1 MBq for 800 seconds. A phantom study was performed to verify the design of the dual imaging modality system.