Measuring temporal stability of positron emission tomography standardized uptake value bias using long-lived sources in a multicenter network
Autor: | Eduardo G. Moros, Grae Arabasz, Paul E. Kinahan, Joel S. Karp, John Sunderland, Joshua Scheuermann, Jun Zhang, Darrin Byrd, Sadek Nehmeh, Ciprian Catana, Rebecca Christopfel, Mikalai M. Budzevich, Martin A. Lodge, Charles M. Laymon |
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Jazyk: | angličtina |
Rok vydání: | 2018 |
Předmět: |
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medicine.diagnostic_test business.industry Dose Calibrator Coefficient of variation Standardized uptake value Image processing 030218 nuclear medicine & medical imaging 03 medical and health sciences 0302 clinical medicine Positron emission tomography Quantitative Imaging Methods and Translational Developments–Honoring the Memory of Dr. Larry Clarke 030220 oncology & carcinogenesis Medical imaging Calibration Medicine Radiology Nuclear Medicine and imaging business Remote sensing |
Popis: | Positron emission tomography (PET) is a quantitative imaging modality, but the computation of standardized uptake values (SUVs) requires several instruments to be correctly calibrated. Variability in the calibration process may lead to unreliable quantitation. Sealed source kits containing traceable amounts of [Formula: see text] were used to measure signal stability for 19 PET scanners at nine hospitals in the National Cancer Institute's Quantitative Imaging Network. Repeated measurements of the sources were performed on PET scanners and in dose calibrators. The measured scanner and dose calibrator signal biases were used to compute the bias in SUVs at multiple time points for each site over a 14-month period. Estimation of absolute SUV accuracy was confounded by bias from the solid phantoms' physical properties. On average, the intrascanner coefficient of variation for SUV measurements was 3.5%. Over the entire length of the study, single-scanner SUV values varied over a range of 11%. Dose calibrator bias was not correlated with scanner bias. Calibration factors from the image metadata were nearly as variable as scanner signal, and were correlated with signal for many scanners. SUVs often showed low intrascanner variability between successive measurements but were also prone to shifts in apparent bias, possibly in part due to scanner recalibrations that are part of regular scanner quality control. Biases of key factors in the computation of SUVs were not correlated and their temporal variations did not cancel out of the computation. Long-lived sources and image metadata may provide a check on the recalibration process. |
Databáze: | OpenAIRE |
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