Simulations and Image Reconstruction for the High Resolution CaLIPSO PET Scanner for Brain and Preclinical Studies

TL;DR

This paper presents simulation results for the CaLIPSO PET scanner, demonstrating its potential for high-resolution brain and small animal imaging with improved image quality and contrast.

Contribution

It introduces simulation-based evaluation of the CaLIPSO PET scanner's resolution and efficiency, comparing it to existing clinical scanners and addressing image reconstruction challenges.

Findings

Achieves approximately 1 mm^3 spatial resolution

Shows higher efficiency and contrast than current clinical PET scanners

Demonstrates promising simulated brain images for specific tracers

Abstract

The foreseen CaLIPSO Positron Emission Tomography (PET) scanner is expected to yield simultaneously a fine image resolution, about 1 mm$^3$, and a high contrast. In this paper we present results of simulations for the full CaLIPSO PET scanner with a "cube" geometry. We quantify by simulations the expected image resolution and Noise Equivalent Count Rates and compare them to the performance of the most efficient clinically used PET scanner, the High-Resolution Research Tomograph by Siemens. We bring up the issues of the image reconstruction for a scanner with high spatial resolution. We also present simulated brain images for [$^{18}$F]-FDG and [$^{11}$C]-PE2I tracer distributions. Results demonstrate the high potential of the CaLIPSO PET scanner for small animal and brain imaging where combination of high spatial resolution and efficiency is essential.