Preliminary protocol for measuring the reproducibility and accuracy of flow values on digital PET/CT systems in [15O]H2O myocardial perfusion imaging using a flow phantom
Reetta Siekkinen, Heidi Partanen, Linda Kukola, Tuula Tolvanen, Andrew Fenwick, Nadia A. S. Smith, Mika Teräs, Antti Saraste, Jarmo Teuho

TL;DR
This paper introduces a protocol to assess the accuracy and reproducibility of blood flow measurements in PET/CT systems using a phantom and two different systems.
Contribution
The study presents a preliminary protocol for evaluating flow value reproducibility in digital PET/CT systems using a flow phantom and [15O]H2O.
Findings
The DMI-20 system showed better reproducibility with test-retest differences below 15% for most measurements.
The Vision-600 system had higher variability, with 7 out of 24 measurements exceeding a 15% difference.
Bolus delivery systems significantly impact flow value reproducibility.
Abstract
Several factors may decrease the accuracy of quantitative PET myocardial perfusion imaging (MPI). It is therefore essential to ensure that myocardial blood flow (MBF) values are reproducible and accurate, and to design systematic protocols to achieve this. Until now, no systematic phantom protocols have been available to assess the technical factors affecting measurement accuracy and reproducibility in MPI. We implemented a standard measurement protocol, which applies a flow phantom in order to compare image-derived flow values with respect to a ground truth flow value with [15O]H2O MPI performed on both a Discovery MI (DMI-20, GE Healthcare) and a Biograph Vision 600 (Vision-600, Siemens Healthineers) system. Both systems have automatic [15O]H2O radio water generators (Hidex Oy) individually installed, allowing us to also study the differences occurring due to two different bolus…
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Taxonomy
TopicsCardiac Imaging and Diagnostics · Advanced MRI Techniques and Applications · Medical Imaging Techniques and Applications
