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Continuous-slice PENN-PET: a positron tomograph with volume imaging capability.

1990; National Institutes of Health; Volume: 31; Issue: 5 Linguagem: Inglês

Joel S. Karp, G. Muehllehner, David A. Mankoff, C.E. Ordoñez, John Ollinger, Margaret E. Daube-Witherspoon, A.T. Haigh, Daniel J. Beerbohm,

Atomic and Subatomic Physics Research

The PENN-PET scanner consists of six hexagonally arranged position-sensitive Nal(TI) detectors. This design offers high spatial resolution in all three dimensions, high sampling density along all three axes without scanner motion, a large axial acceptance angle, good energy resolution, and good timing resolution. This results in three-dimensional imaging capability with high sensitivity and low scatter and random backgrounds. The spatial resolution is 5.5 mm (FWHM) in all directions near the center. The true sensitivity, for a brain-sized object, is a maximum of 85 kcps/microCi/ml and the scatter fraction is a minimum of 10%, both depending on the lower level energy threshold. The scanner can handle up to 5 mCi in the field of view, at which point the randoms equal the true coincidences and the detectors reach their count rate limit. We have so far acquired [18F]FDG brain studies and cardiac studies, which show the applicability of our scanner for both brain and whole-body imaging. With the results to date, we feel that this design results in a simple yet high performance scanner which is applicable to many types of static and dynamic clinical studies.