在针对最大化小病灶的信噪比进行优化时，对人体和体模图像的数字PET与模拟PET进行直接比较。

Head-to-head comparison between digital and analog PET of human and phantom images when optimized for maximizing the signal-to-noise ratio from small lesions.

作者信息

Salvadori Julien, Odille Freddy, Verger Antoine, Olivier Pierre, Karcher Gilles, Marie Pierre-Yves, Imbert Laetitia

机构信息

Departement of Nuclear Medicine and Nancyclotep molecular imaging platform, CHRU-Nancy, Université de Lorraine, 54000, Nancy, France.

IADI, INSERM, UMR 1254, Université de Lorraine, 54000, Nancy, France.

出版信息

EJNMMI Phys. 2020 Feb 21;7(1):11. doi: 10.1186/s40658-020-0281-8.

DOI:10.1186/s40658-020-0281-8

PMID:32086646

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7035408/

Abstract

BACKGROUND

Routine PET exams are increasingly performed with reduced injected activities, leading to the use of different image reconstruction parameters than the NEMA parameters, in order to prevent from any deleterious decrease in signal-to-noise ratio (SNR) and thus, in lesion detectability. This study aimed to provide a global head-to-head comparison between digital (Vereos, Philips®) and analog (Ingenuity TF, Philips®) PET cameras of the trade-off between SNR and contrast through a wide-ranging number of reconstruction iterations, and with a further reconstruction optimization based on the SNR of small lesions.

METHODS

Image quality parameters were compared between the two cameras on human and phantom images for a number of OSEM reconstruction iterations ranging from 1 to 10, the number of subsets being fixed at 10, and with the further identification of reconstruction parameters maximizing the SNR of spheres and adenopathies nearing 10 mm in diameter. These reconstructions were additionally obtained with and without time-of-flight (TOF) information (TOF and noTOF images, respectively) for further comparisons.

RESULTS

On both human and phantom TOF images, the compromise between SNR and contrast was consistently more advantageous for digital than analog PET, with the difference being particularly pronounced for the lowest numbers of iterations and the smallest spheres. SNR was maximized with 1 and 2 OSEM iterations for the TOF images from digital and analog PET, respectively, whereas 4 OSEM iterations were required for the corresponding noTOF images from both cameras. On the TOF images obtained with this SNR optimization, digital PET exhibited a 37% to 44% higher SNR as compared with analog PET, depending on sphere size. These relative differences were however much lower for the noTOF images optimized for SNR (- 4 to + 18%), as well as for images reconstructed according to NEMA standards (- 4 to + 12%).

CONCLUSION

SNR may be dramatically higher for digital PET than for analog PET, especially when optimized for small lesions. This superiority is mostly attributable to enhanced TOF resolution and is significantly underestimated in NEMA-based analyses.

摘要

背景

常规正电子发射断层显像（PET）检查中注入的活度越来越低，这导致为防止信噪比（SNR）出现任何有害下降以及由此导致的病变可检测性下降，而使用与美国电气和电子工程师协会（NEMA）参数不同的图像重建参数。本研究旨在通过大量的重建迭代，并基于小病变的SNR进行进一步的重建优化，对数字式（Vereos，飞利浦公司）和模拟式（Ingenuity TF，飞利浦公司）PET相机在SNR与对比度之间的权衡进行全面的直接比较。

方法

在人体和体模图像上，对两台相机在1至10次有序子集最大期望值（OSEM）重建迭代（子集数量固定为10）下的图像质量参数进行比较，并进一步确定使直径接近10毫米的球体和腺病的SNR最大化的重建参数。此外，分别在有和没有飞行时间（TOF）信息的情况下（分别为TOF图像和无TOF图像）进行这些重建，以进行进一步比较。

结果

在人体和体模TOF图像上，数字式PET在SNR与对比度之间的权衡始终比模拟式PET更具优势，对于最低迭代次数和最小球体，这种差异尤为明显。数字式和模拟式PET的TOF图像分别在1次和2次OSEM迭代时SNR最大化，而两台相机相应的无TOF图像则需要4次OSEM迭代。在通过这种SNR优化获得的TOF图像上，数字式PET的SNR比模拟式PET高37%至44%，具体取决于球体大小。然而，对于针对SNR进行优化的无TOF图像（-4%至+18%）以及根据NEMA标准重建的图像（-4%至+12%），这些相对差异要低得多。

结论

数字式PET的SNR可能比模拟式PET高得多，尤其是在针对小病变进行优化时。这种优势主要归因于增强的TOF分辨率，并且在基于NEMA的分析中被显著低估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bb8f/7035408/8e8e2d73a09a/40658_2020_281_Fig1_HTML.jpg

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在针对最大化小病灶的信噪比进行优化时，对人体和体模图像的数字PET与模拟PET进行直接比较。

Head-to-head comparison between digital and analog PET of human and phantom images when optimized for maximizing the signal-to-noise ratio from small lesions.

作者信息

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出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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