Performance Evaluation of the microPET Focus: A Third-Generation microPET Scanner Dedicated to Animal Imaging

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Performance Evaluation of the microPET Focus: A Third-Generation microPET Scanner Dedicated to Animal Imaging

Yuan-Chuan Tai, PhD¹, Ananya Ruangma, PhD¹, Douglas Rowland, PhD¹, Stefan Siegel, PhD², Danny F. Newport, PhD², Patrick L. Chow, MS³ and Richard Laforest, PhD¹

¹ Department of Radiology, Washington University School of Medicine, St. Louis, Missouri
² Concorde Microsystems, Inc., Knoxville, Tennessee
³ Department of Molecular and Medical Pharmacology, Crump Institute for Molecular Imaging, UCLA, Los Angeles, California

The microPET Focus is the latest generation microPET systemdedicated to high-resolution animal imaging and incorporatesseveral changes to enhance its performance. This study evaluatedthe basic performance of the scanner and compared it with thePrimate (P4) and Rodent (R4) models. Methods: The system consistsof 168 lutetium oxyorthosilicate (LSO) detectors arranged in4 contiguous rings, with a 25.8-cm diameter and a 7.6-cm axiallength. Each detector consists of a 12 x 12 LSO crystal arrayof 1.51 x 1.51 x 10.00 mm³ elements. The scintillation lightis transmitted to position-sensitive photomultiplier tubes viaoptical fiber bundles. The system was evaluated for its energyand spatial resolutions, sensitivity, and noise equivalent countingrate. Phantoms and animals of varying sizes were scanned toevaluate its imaging capability. Results: The energy resolutionaverages 18.5% for the entire system. Reconstructed image resolutionis 1.3-mm full width at half maximum (FWHM) at the center offield of view (CFOV) and remains under 2 mm FWHM within thecentral 5-cm-diameter FOV in all 3 dimensions. The absolutesensitivity of the system is 3.4% at the CFOV for an energywindow of 250–750 keV and a timing window of 10 ns. Thenoise equivalent counting-rate performance reaches 645 kcpsfor a mouse-size phantom using 250- to 750-keV and 6-ns settings.Emission images of a micro-Derenzo phantom demonstrate the improvementin image resolution compared with previous models. Animal studiesexhibit the capability of the system in studying disease modelsusing mouse, rat, and nonhuman primates. Conclusion: The Focushas significantly improved performance over the previous modelsin all areas evaluated. This system represents the state-of-the-artscintillator-based animal PET scanner currently available andis expected to advance the potential of small animal PET.

Key Words: microPET • animal PET scanner • instrumentation • performance evaluation

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