Investigation of a clinical PET detector module design that employs large-area avalanche photodetectors.

Autor: Hao Peng, Peter D Olcott, Virginia Spanoudaki, Craig S Levin
Předmět:
Zdroj: Physics in Medicine & Biology; Jun2011, Vol. 56 Issue 12, p3603-3627, 25p
Abstrakt: We investigated the feasibility of designing an Anger-logic PET detector module using large-area high-gain avalanche photodiodes (APDs) for a brain-dedicated PET/MRI system. Using Monte Carlo simulations, we systematically optimized the detector design with regard to the scintillation crystal, optical diffuser, surface treatment, layout of large-area APDs, and signal-to-noise ratio (SNR, defined as the 511 keV photopeak position divided by the standard deviation of noise floor in an energy spectrum) of the APD devices. A detector prototype was built comprising an 8 x 8 array of 2.75 x 3.00 x 20.0 mm3 LYSO (lutetium-yttrium-oxyorthosilicate) crystals and a 22.0 x 24.0 x 9.0 mm3 optical diffuser. From the four designs of the optical diffuser tested, two designs employing a slotted diffuser are able to resolve all 64 crystals within the block with good uniformity and peak-to-valley ratio. Good agreement was found between the simulation and experimental results. For the detector employing a slotted optical diffuser, the energy resolution of the global energy spectrum after normalization is 13.4 +- 0.4%. The energy resolution of individual crystals varies between 11.3 +- 0.3% and 17.3 +- 0.4%. The time resolution varies between 4.85 +- 0.04 (center crystal), 5.17 +- 0.06 (edge crystal), and 5.18 +- 0.07 ns (corner crystal). The generalized framework proposed in this work helps to guide the design of detector modules for selected PET system configurations, including scaling the design down to a preclinical PET system, scaling up to a whole-body clinical scanner, as well as replacing APDs with other novel photodetectors that have higher gain or SNR such as silicon photomultipliers. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index