A Pet System Based on 2-18Fdg Production with a Low Energy Electrostatic Proton Accelerator and a Dual Headed Pet Scanner

Abstract

We have developed a comparatively inexpensive PET system, based on a rotating scanner with two scintillation camera heads, and a nearby low energy electrostatic proton accelerator for production of short-lived radionuclides. Using a 6 MeV proton beam of 5 μA, and by optimization of the target geometry for the ¹⁸O(p, n)¹⁸F reaction, 750 MBq of 2-¹⁸FDG can be obtained. The PET scanner shows a spatial resolution of 6 mm (FWHM) and a sensitivity of 80 s⁻¹kBq⁻¹ml⁻¹ (3 kcps/μCi/ml). Various corrections are included in the imaging process, to compensate for spatial and temporal response variations in the detector system. Both filtered backprojection and iterative reconstruction methods are employed. Clinical studies have been performed with acquisition times of 30-40 min. The system will be used for clinical experimental research with short- as well as long-lived positron emitters. Also the possibility of true 3D reconstruction is under evaluation.