使用全身正电子发射断层扫描技术减轻 SUV 不确定性。

Mitigating SUV uncertainties using total body PET imaging.

机构信息

Department of Radiology and Nuclear Medicine, Amsterdam UMC location Vrije Universiteit Amsterdam, De Boelelaan 1117 1081 HV, Amsterdam, The Netherlands.

Cancer Center Amsterdam, Imaging and Biomarkers, Amsterdam, The Netherlands.

出版信息

Eur J Nucl Med Mol Imaging. 2024 Mar;51(4):1070-1078. doi: 10.1007/s00259-023-06503-x. Epub 2023 Nov 13.

DOI:10.1007/s00259-023-06503-x

PMID:37953391

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10881693/

Abstract

PURPOSE

Standardised uptake values (SUV) are commonly used to quantify F-FDG lesion uptake. However, SUVs may suffer from several uncertainties and errors. Long-axial field-of-view (LAFOV) PET/CT systems might enable image-based quality control (QC) by deriving F-FDG activity and weight from total body (TB) F-FDG PET images. In this study, we aimed to develop these image-based QC to reduce errors and mitigate SUV uncertainties.

METHODS

Twenty-five out of 81 patient scans from a LAFOV PET/CT system were used to determine regression fits for deriving of image-derived activity and weight. Thereafter, the regression fits were applied to 56 independent F-FDG PET scans from the same scanner to determine if injected activity and weight could be obtained accurately from TB and half-body (HB) scans. Additionally, we studied the impact of image-based values on the precision of liver SUVmean and lesion SUVpeak. Finally, 20 scans were acquired from a short-axial field-of-view (SAFOV) PET/CT system to determine if the regression fits also applied to HB scans from a SAFOV system.

RESULTS

Both TB and HB F-FDG activity and weight significantly predicted reported injected activity (r = 0.999; r = 0.984) and weight (r = 0.999; r = 0.987), respectively. After applying the regression fits, F-FDG activity and weight were accurately derived within 4.8% and 3.2% from TB scans and within 4.9% and 3.1% from HB, respectively. Image-derived values also mitigated liver and lesion SUV variability compared with reported values. Moreover, F-FDG activity and weight obtained from a SAFOV scanner were derived within 6.7% and 4.5%, respectively.

CONCLUSION

F-FDG activity and weight can be derived accurately from TB and HB scans, and image-derived values improved SUV precision and corrected for lesion SUV errors. Therefore, image-derived values should be included as QC to generate a more reliable and reproducible quantitative uptake measurement.

摘要

目的

标准化摄取值（SUV）常用于量化 F-FDG 病灶摄取。然而，SUV 可能存在多种不确定因素和误差。长轴向视野（LAFOV）PET/CT 系统可通过从全身（TB）F-FDG PET 图像中得出 F-FDG 活性和重量，实现基于图像的质量控制（QC）。本研究旨在开发这种基于图像的 QC，以减少误差并降低 SUV 不确定性。

方法

25 例来自 LAFOV PET/CT 系统的 81 例患者扫描用于确定衍生图像活性和重量的回归拟合。然后，将回归拟合应用于来自同一扫描仪的 56 例独立 F-FDG PET 扫描，以确定是否可以从 TB 和半体（HB）扫描中准确获得注射的活性和重量。此外，我们研究了基于图像的值对肝脏 SUVmean 和病灶 SUVpeak 精度的影响。最后，从短轴向视野（SAFOV）PET/CT 系统采集 20 例扫描，以确定回归拟合是否也适用于来自 SAFOV 系统的 HB 扫描。

结果

TB 和 HB F-FDG 活性和重量均与报告的注射活性（r = 0.999；r = 0.984）和重量（r = 0.999；r = 0.987）显著相关。应用回归拟合后，TB 扫描中 F-FDG 活性和重量的精确值在 4.8%和 3.2%以内，HB 扫描中在 4.9%和 3.1%以内。与报告值相比，图像衍生值还降低了肝脏和病灶 SUV 的变异性。此外，从 SAFOV 扫描仪获得的 F-FDG 活性和重量分别在 6.7%和 4.5%以内。

结论

可以从 TB 和 HB 扫描中准确地获得 F-FDG 活性和重量，图像衍生值提高了 SUV 精度，并纠正了病灶 SUV 误差。因此，图像衍生值应作为 QC 包括在内，以生成更可靠和可重复的定量摄取测量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce5a/10881693/5cbacc332060/259_2023_6503_Fig1_HTML.jpg

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使用全身正电子发射断层扫描技术减轻 SUV 不确定性。

Mitigating SUV uncertainties using total body PET imaging.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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