Title :
A high speed position-decoding electronics for BGO block detectors in PET
Author :
Li, Hongdi ; Wong, Wai-Hoi ; Uribe, Jorge ; Baghaei, Hossain ; Zhang, Nan ; Wang, Junming ; Wang, Yu
Author_Institution :
M.D. Anderson Cancer Center, Texas Instrum. Inc., Houston, TX, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
A high-speed prototype electronics for positioning gamma event at EGO block detectors in PET has been developed. It adapts the “high-yield pileup-event recovery” method (HYPER) proposed by the authors for nonimaging probes and gamma camera. HYPER uses recurring residual subtractions for multiple/continuous pileup conditions. The regular Anger positioning algorithm was modified by the HYPER method. The HYPER-Anger positioning circuit was designed for individual EGO blocks or block arrays and tested on a EGO block (2×2 cm with 7×7 elements on 4 PMT). The block was well decoded even at 800 kcps, which is 6-7× higher than the typical maximum rate of 130 kcps for EGO blocks. The position-decoding electronics may be used to increase the maximum imaging-rate of regular EGO PET or to compensate for the lower imaging rate of the PMT-quadrant-sharing detector design, which doubles spatial resolution in both transaxial and axial directions
Keywords :
biomedical electronics; gamma-ray detection; image resolution; nuclear electronics; positron emission tomography; solid scintillation detectors; BGO block detectors; Bi4Ge3O12; PET; axial direction; high speed position-decoding electronics; high-yield pileup-event recovery method; medical diagnostic imaging; nuclear medicine; recurring residual subtractions; spatial resolution; transaxial direction; Cameras; Circuit testing; Decoding; Event detection; Gamma ray detection; Gamma ray detectors; High-resolution imaging; Positron emission tomography; Probes; Prototypes;
Journal_Title :
Nuclear Science, IEEE Transactions on
