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The effect of scatter correction and radius of rotation on semiquantitative measurements in SPECT I-FP-CIT imaging. A phantom study.

TitleThe effect of scatter correction and radius of rotation on semiquantitative measurements in SPECT I-FP-CIT imaging. A phantom study.
Publication TypeJournal Article
Year of Publication2020
AuthorsPapanastasiou, E., Katsiva C., Doumas A., Gerasimou G., & Siountas A.
JournalPhys Med
Volume69
Pagination120-125
Date Published2020 Jan
ISSN1724-191X
KeywordsAlgorithms, Corpus Striatum, Humans, Iodine Radioisotopes, Phantoms, Imaging, Reproducibility of Results, Rotation, Scattering, Radiation, Tomography, Emission-Computed, Single-Photon, Tropanes
Abstract

PURPOSE: The high energy emissions of I and the suboptimal radius of rotation affect the semiquantitative measurements performed during I-FP-CIT tomographic imaging. An in-house extra low cost striatum phantom with brain and striatum compartments was constructed and was used to study the effects of Triple Energy Window scatter correction (TEW-SC) and radius of rotation on the Specific Binding Ratio (SBR) measurements.MATERIALS AND METHODS: The phantom compartments were filled with radioactive I solutions with varying concentrations, in a series of experiments. Tomographic images were acquired at six different radii of rotation, with and without TEW-SC and the SBRs were calculated using appropriate regions of interest, as in clinical imaging.RESULTS: SBRs decreased with increasing radius of rotation in both non-SC and TEW-SC images, the decrease being more pronounced in the latter. The application of TEW-SC increases SBR values by 40% on average. A maximum %Recovery of 42.7% of the true SBR value was achieved in the non-SC images, which increased to 64.6% after TEW-SC. Appropriate correction factors (CF) were calculated in order to make the SBR values independent on the radius of rotation, which could be used to correct SBR values obtained from tomographic acquisitions with suboptimal radius of rotation.CONCLUSION: The use of appropriate CF can provide more consistent SBR values and a more meaningful comparison between SBRs calculated from images acquired at different radii of rotation.

DOI10.1016/j.ejmp.2019.12.009
Alternate JournalPhys Med
PubMed ID31869576

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