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Multipanel Limited Angle PET System With 50 ps FWHM Coincidence Time Resolution: A Simulation Study

Gašper Razdevšek, R. Dolenec, P. Križan, Stan Majewski, Andrej Studen, S. Korpar, Georges El Fakhri, R. Pestotnik

2021IEEE Transactions on Radiation and Plasma Medical Sciences17 citationsDOIOpen Access PDF

Abstract

In this simulation study, we evaluate the performance of a limited angular coverage PET system consisting of two/four fast-timing 50 ps FWHM CTR flat-panel detectors made of 5–20 mm long pixelated lutetium oxyorthosilicate crystals. We studied image quality and count rates following the National Electrical Manufacturers Association standard, spatial resolution by imaging a Derenzo phantom and a hot rod, and investigated the sensitivity of different scanner designs. We demonstrated the possible use of such a scanner by imaging a human head and a torso of the extended cardiac-torso (XCAT) digital phantom. All the designs were compared to the reference scanner, based on Siemens Biograph Vision PET/CT scanner geometry. We show that good coincidence timing resolution (CTR) can compensate for lower detection efficiency or smaller angular coverage. Good image quality can be obtained with a simple limited-angle PET system without distortions or artefacts. Substantial degradation of the spatial resolution with increased crystal length is observed in the two-panel design due to the parallax error, but not in the four-panel design. The four-panel design simulated with a CTR of 50 ps FWHM is comparable to that of the current state-of-the-art clinical PET/CT scanner. Similar fast-timing limited-angle planar detectors could enable much less expensive total-body or single organ (dynamically selectable) imaging devices.

Topics & Concepts

ScannerImaging phantomDetectorFull width at half maximumTorsoImage qualityImage resolutionLyso-OpticsGamma cameraNuclear medicineMaterials sciencePhysicsComputer scienceComputer visionScintillatorMedicineImage (mathematics)AnatomyMedical Imaging Techniques and ApplicationsAdvanced X-ray and CT ImagingDigital Radiography and Breast Imaging