Absolute quantification for small-animal PET

Keereman, Vincent; Holen, Roel Van; Vanhove, Christian; Mollet, Pieter; Vandenberghe, Stefaan

doi:10.1109/nssmic.2011.6153701

2011 IEEE Nuclear Science Symposium Conference Record 2011

DOI: 10.1109/nssmic.2011.6153701

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Absolute quantification for small-animal PET

Vincent Keereman

Roel Van Holen

Christian Vanhove

et al.

Abstract: Abstract-Quantification is important in preclinical PET studies. To achieve absolute quantification, an accurate reconstruction algorithm is necessary. Such an algorithm includes corrections for different effects such as geometric sensitivity of the scanner, detection efficiency, attenuation, scatter and random coincidences. In this work we present a method for performing absolute quantification on the LabPET system. All acquisitions were done on a GE Triumph system. This tri-modality system consists of a micr… Show more

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2012

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Temperature dependence of the LabPET small-animal PET scanner

Keereman

Vanhove

Holen

et al. 2012

2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC)

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Abstract-INTRODUCTION In quantitative PET imaging it is important to correct for all image-degrading effects, for example detector efficiency variation. Detector efficiency variation depends on the stability of detector efficiency when operating conditions vary within normal limits. As the efficiency of APDbased light detection strongly depends on ambient temperature, temperature-dependent detector efficiency normalization may be needed in APD-based PET scanners. We have investigated the temperature dependence of the LabPET APD-based small-animal PET scanner.MATERIALS AND METHODS First a simulation study was performed to evaluate the effect of different APD temperature coefficients on the temperature dependence of scanner sensitivity. Five experiments were also performed. First the immediate effect of temperature changes on scanner sensitivity was evaluated. Second, the effect of temperature changes that have stabilized for a few hours was investigated. In a third experiment the axial sensitivity profile was acquired at 21• C and 24• C. Next, two acquisitions of the NEMA image quality phantom (at 21• C and 23• C) were performed and absolute quantification was done based on normalization scans acquired at the correct and incorrect temperature. Finally, the feasibility of maintaining a constant room temperature and the stability of the scanner sensitivity under constant room temperature was evaluated.RESULTS Simulations showed that the relation between temperature-dependent APD gain changes and scanner sensitivity is quite complex. A temperature deviation leading to a 1% change in APD gain corresponds to a much larger change in scanner sensitivity due to the shape of the energy histogram. In the first and second experiment a strong correlation between temperature and scanner sensitivity was observed. Changes of 2.24 kcps/MBq and 1.64 kcps/MBq per • C were seen for immediate and stabilized temperature changes respectively. The NEMA axial sensitivity profile also showed a decrease in sensitivity at higher temperature. The quantification experiment showed that a larger quantification error (up to 13%) results when a normalization scan acquired at the incorrect temperature is used. In the last experiment, temperature variability was 0.19• C and counts varied by 10.2 Mcts (1.33%).CONCLUSION The sensitivity of the LabPET small-animal PET scanner strongly depends on room temperature. Therefore, room temperature should be kept as stable as possible and temperature-dependent detector efficiency normalization should be used. However, with constant room temperature excellent scanner stability is observed. Temperature should be kept constant within 0.5• C and weekly normalization scans are recommended.

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Temperature dependence of the LabPET small-animal PET scanner

Keereman

Vanhove

Holen

et al. 2012

2012 IEEE Nuclear Science Symposium and Medical Imaging Conference Record (NSS/MIC)

Self Cite

View full text Add to dashboard Cite

show abstract

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Absolute quantification for small-animal PET

Cited by 1 publication

References 12 publications

Temperature dependence of the LabPET small-animal PET scanner

Temperature dependence of the LabPET small-animal PET scanner

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