Litcius/Paper detail

SPLIT: Statistical Positronium Lifetime Image Reconstruction via Time-Thresholding

Bangyan Huang, Tiantian Li, Gerard Ariño‐Estrada, K. Dulski, R. Y. Shopa, P. Moskal, Ewa Stępień, Jinyi Qi

2024IEEE Transactions on Medical Imaging28 citationsDOIOpen Access PDF

Abstract

Positron emission tomography (PET) is a widely utilized medical imaging modality that uses positron-emitting radiotracers to visualize biochemical processes in a living body. The spatiotemporal distribution of a radiotracer is estimated by detecting the coincidence photon pairs generated through positron annihilations. In human tissue, about 40% of the positrons form positroniums prior to the annihilation. The lifetime of these positroniums is influenced by the microenvironment in the tissue and could provide valuable information for better understanding of disease progression and treatment response. Currently, there are few methods available for reconstructing high-resolution lifetime images in practical applications. This paper presents an efficient statistical image reconstruction method for positronium lifetime imaging (PLI). We also analyze the random triple-coincidence events in PLI and propose a correction method for random events, which is essential for real applications. Both simulation and experimental studies demonstrate that the proposed method can produce lifetime images with high numerical accuracy, low variance, and resolution comparable to that of the activity images generated by a PET scanner with currently available time-of-flight resolution.

Topics & Concepts

Positron emission tomographyPositroniumIterative reconstructionCoincidencePositronImage resolutionComputer scienceArtificial intelligenceScannerThresholdingComputer visionPhysicsMedical imagingNuclear medicineImage (mathematics)Nuclear physicsPathologyElectronMedicineAlternative medicineMedical Imaging Techniques and ApplicationsMuon and positron interactions and applicationsRadiation Detection and Scintillator Technologies