Quantitative imaging and correction for cascade gamma radiation of ⁷⁶Br with 2D and 3D PET

Several positron emitting nuclides with applications in PET, such as ⁷⁶Br, ¹²⁴I, ^110mIn and ⁸⁶Y, also emit gamma radiation in their decays. Measured coincidences between annihilation photons and this cascade gamma radiation are essentially true coincidences and the standard PET corrections do not account for them. We investigated the performance of ⁷⁶Br in 2D and 3D PET, the effect of the gamma radiation emitted by ⁷⁶Br on quantitative accuracy and the distribution of cascade gamma radiation coincidences in 2D and 3D PET sinograms. A correction method for cascade gamma radiation coincidences was implemented and evaluated. Count rate linearity was affected by the gamma radiation from the ⁷⁶Br decay. Spatial resolution and sphere recovery were slightly worse for ⁷⁶Br compared to ¹⁸F. Correction for cascade gamma radiation coincidences by subtraction of a linear projection tail fit improved total correction accuracy to similar values as for positron-only emitters such as ¹⁸F, and improved image contrast significantly.