使用贝叶斯惩罚似然算法进行减少计数的儿科全身 F-FDG PET 成像重建。
Reduced count pediatric whole-body F-FDG PET imaging reconstruction with a Bayesian penalized likelihood algorithm.
机构信息
Department of Radiology, Cincinnati Children's Hospital Medical Center, 3333 Burnet Ave, Kasota Building MLC 5031, Cincinnati, OH, 45226, USA.
Department of Radiology, University of Cincinnati College of Medicine, Cincinnati, OH, USA.
出版信息
Pediatr Radiol. 2024 Jan;54(1):170-180. doi: 10.1007/s00247-023-05801-8. Epub 2023 Nov 14.
BACKGROUND
Advanced positron emission tomography (PET) image reconstruction methods promise to allow optimized PET/CT protocols with improved image quality, decreased administered activity and/or acquisition times.
OBJECTIVE
To evaluate the impact of reducing counts (simulating reduced acquisition time) in block sequential regularized expectation maximization (BSREM) reconstructed pediatric whole-body F-fluorodeoxyglucose (FDG) PET images, and to compare BSERM with ordered-subset expectation maximization (OSEM) reconstructed reduced-count images.
MATERIALS AND METHODS
Twenty children (16 male) underwent clinical whole-body F-FDG PET/CT examinations using a 25-cm axial field-of-view (FOV) digital PET/CT system at 90 s per bed (s/bed) with BSREM reconstruction (β=700). Reduced count simulations with varied BSREM β levels were generated from list-mode data: 60 s/bed, β=800; 50 s/bed, β=900; 40 s/bed, β=1000; and 30 s/bed, β=1300. In addition, a single OSEM reconstruction was created at 60 s/bed based on prior literature. Qualitative (Likert scores) and quantitative (standardized uptake value [SUV]) analyses were performed to evaluate image quality and quantitation across simulated reconstructions.
RESULTS
The mean patient age was 9.0 ± 5.5 (SD) years, mean weight was 38.5 ± 24.5 kg, and mean administered F-FDG activity was 4.5 ± 0.7 (SD) MBq/kg. Between BSREM reconstructions, no qualitative measure showed a significant difference versus the 90 s/bed β=700 standard (all P>0.05). SUV values for lesions were significantly lower from 90 s/bed, β=700 only at a simulated acquisition time of 30 s/bed, β=1300 (P=0.001). In a side-by-side comparison of BSREM versus OSEM reconstructions, 40 s/bed, β=1000 images were generally preferred over 60 s/bed TOF OSEM images.
CONCLUSION
In children who undergo whole-body F-FDG PET/CT on a 25-cm FOV digital PET/CT scanner, reductions in acquisition time or, by corollary, administered radiopharmaceutical activity of >50% from a clinical standard of 90 s/bed may be possible while maintaining diagnostic quality when a BSREM reconstruction algorithm is used.
背景
先进的正电子发射断层扫描(PET)图像重建方法有望实现优化的 PET/CT 方案,改善图像质量,减少放射性药物用量和/或采集时间。
目的
评估块序贯正则化期望最大化(BSREM)重建的小儿全身 F-氟脱氧葡萄糖(FDG)PET 图像中降低计数(模拟减少采集时间)的影响,并比较 BSERM 与有序子集期望最大化(OSEM)重建的降低计数图像。
材料与方法
20 名儿童(男 16 名)接受临床全身 F-FDG PET/CT 检查,使用 25cm 轴向视野(FOV)数字 PET/CT 系统,每床位 90s(s/bed),采用 BSREM 重建(β=700)。使用列表模式数据生成不同 BSREM β水平的降低计数模拟:60s/bed,β=800;50s/bed,β=900;40s/bed,β=1000;30s/bed,β=1300。此外,还根据先前的文献创建了一个 60s/bed 的单 OSEM 重建。进行定性(Likert 评分)和定量(标准化摄取值[SUV])分析,以评估模拟重建的图像质量和定量。
结果
患者平均年龄为 9.0±5.5(SD)岁,平均体重为 38.5±24.5kg,平均给予的 F-FDG 活性为 4.5±0.7(SD)MBq/kg。BSREM 重建之间,没有定性指标与 90s/bedβ=700 标准有显著差异(均 P>0.05)。仅在模拟采集时间为 30s/bed、β=1300 时,90s/bed、β=700 时病变的 SUV 值显著降低(P=0.001)。BSREM 与 OSEM 重建的并排比较中,40s/bed、β=1000 图像通常优于 60s/bed TOF OSEM 图像。
结论
在使用 25cm FOV 数字 PET/CT 扫描仪对全身 F-FDG PET/CT 进行检查的儿童中,当使用 BSREM 重建算法时,在保持诊断质量的情况下,可能会将采集时间减少 50%以上,或相应地减少放射性药物用量,而临床标准为 90s/bed。
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