Title :
Investigation on deadtime characteristics for simultaneous emission-transmission data acquisition in PET
Author :
Tai, Yuan-Chuan ; Chatziioannou, Arion ; Dahlbom, Magnus ; Hoffman, Edward J.
Author_Institution :
Div. of Nucl. Med. & Biophys., California Univ., Los Angeles, CA, USA
Abstract :
Modern PET systems utilize rotating rod sources and sinogram windowing for transmission scan and are capable of simultaneous emission-transmission data acquisition. Count rate capability of a PET system using EGO is mainly limited by deadtime of block detectors. Deadtime of a EGO block detector is directly associated with the rate of single events. In a simultaneous acquisition, moving rod sources generate a spatially varying singles distribution which rotates synchronously with rod motions. Emission activities create a nearly uniform singles distribution which is static or varies slowly depending on the half life of radioisotope. System deadtime is characterized for different sources of activity in a simultaneous acquisition. Typically, there are 60 to 150 MBq Ge-68 in each of the three rods causing 26% peak-to-peak variation in the instant detector deadtime. Time-averaged deadtime in transmission sinogram has a variation of 30% peak-to-peak. Rod activities create a 4 to 10% peak-to-peak variation in the time-averaged deadtime in emission sinogram of a simultaneous scan. The current deadtime correction method results a 10% error in simultaneously acquired emission sinogram with 60 MBq in each rod and 74 MBq in a uniform phantom. A spatially variant deadtime correction technique was developed. Error was reduced to 4% for the same study
Keywords :
data acquisition; positron emission tomography; 60 to 150 MBq; EGO block detector; Ge; Ge-68; PET; count rate capability; deadtime characteristics; medical diagnostic imaging; nuclear medicine; rotating rod sources; simultaneous emission-transmission data acquisition; sinogram windowing; system deadtime; Attenuation measurement; Biophysics; Data acquisition; Event detection; Image reconstruction; Nuclear medicine; Positron emission tomography; Solid scintillation detectors; Time measurement; Whole-body PET;
Conference_Titel :
Nuclear Science Symposium, 1997. IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
0-7803-4258-5
DOI :
10.1109/NSSMIC.1997.670601
