Title :
Optimization of PET system design for lesion detection
Author_Institution :
Lawrence Berkeley Lab., CA, USA
Abstract :
Traditionally, the figures of merit used in designing a PET scanner are spatial resolution, noise equivalent count rate, noise equivalent sensitivity etc. These measures, however, do not directly reflect the lesion detectability using the PET scanner. Here the author proposes to optimize PET scanner design directly for lesion detection. The signal-to-noise ratio (SNR) of lesion detection can be easily computed using the theoretical expressions that the author have previously derived. Because no time consuming Monte Carlo simulation is needed, the theoretical expressions allow evaluation of a large range of parameters. The PET system parameters can then be chosen to achieve the maximum SNR for lesion detection. The simulation study shown in this paper was focused a single ring PET scanner without depth of interaction measurement. Randoms and scatters were also ignored
Keywords :
biomedical equipment; positron emission tomography; Monte Carlo simulation; PET system design optimization; depth of interaction measurement; figures of merit; medical diagnostic imaging; medical instrumentation; noise equivalent count rate; noise equivalent sensitivity; nuclear medicine; parameters evaluation; randoms; scatters; single ring PET scanner; spatial resolution; Cancer detection; Design optimization; Humans; Image reconstruction; Lesions; Noise figure; Positron emission tomography; Scattering; Signal to noise ratio; Spatial resolution;
Conference_Titel :
Nuclear Science Symposium Conference Record, 2000 IEEE
Conference_Location :
Lyon
Print_ISBN :
0-7803-6503-8
DOI :
10.1109/NSSMIC.2000.949296
