Fast 4D-PET parametric imaging computation at the whole field of view level: Reliability under simulated conditions of PET KinetiX, a dedicated software solution

IF 8.6 1区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

European Journal of Nuclear Medicine and Molecular Imaging Pub Date : 2025-04-21 DOI:10.1007/s00259-025-07285-0

Sylvain Faure, Adrien Paillet, Claude Comtat, Florent L. Besson

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引用次数: 0

Abstract

Purpose

The reliability of a new academic software, PET KinetiX, designed for fast parametric 4D-PET imaging computation, is assessed under simulated conditions.

Methods

4D-PET data were simulated using the XCAT digital phantom and realistic time-activity curves (ground truth). Four hundred analytical simulations were reconstructed using CASToR, an open-source software for tomographic reconstruction, replicating the clinical characteristics of two available PET systems with short and long axial fields of view (SAFOV and LAFOV). A total of 2,800 Patlak and 2TCM kinetic parametric maps of ¹⁸F-FDG were generated using PET KinetiX. The mean biases and standard deviations of the kinetic parametric maps were computed for each tissue label and compared to the biases of unprocessed SUV data. Additionally, the mean absolute ratio of kinetic-to-SUV contrast-to-noise ratio (CNR) was estimated for each tissue structure, along with the corresponding standard deviations.

Results

The K_i and v_b parametric maps produced by PET KinetiX faithfully reproduced the predefined multi-tissue structures of the XCAT digital phantom for both Patlak and 2TCM models. Image definition was influenced by the 4D-PET input data: a higher number of iterations resulted in sharper rendering and higher standard deviations in PET signal characteristics. Biases relative to the ground truth varied across tissue structures and hardware configurations, similarly to unprocessed SUV data. In most tissue structures, Patlak kinetic-to-SUV CNR ratios exceeded 1 for both SAFOV and LAFOV configurations. The highest kinetic-to-SUV CNR ratio was observed in 2TCM k₃ maps within tumor regions.

Conclusion

PET KinetiX currently generates K_i and v_b parametric maps that are qualitatively comparable to unprocessed SUV data, with improved CNR in most cases. The 2TCM k₃ parametric maps for tumor structures exhibited the highest CNR enhancement, warranting further evaluation across different anatomical regions and radiotracer applications.

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在整个视场水平快速4D-PET参数化成像计算：PET KinetiX（专用软件解决方案）模拟条件下的可靠性

目的在模拟条件下评估用于快速参数化4D-PET成像计算的新型学术软件PET KinetiX的可靠性。方法采用XCAT数字模拟和真实时间-活动曲线（地面真值）模拟4d - pet数据。使用开源的断层扫描重建软件CASToR重建了400个分析模拟，复制了两种可用的PET系统（SAFOV和LAFOV）的短轴向和长轴向视场的临床特征。利用PET KinetiX共生成了18F-FDG的2800张Patlak和2TCM动力学参数图。计算每个组织标签的动力学参数图的平均偏差和标准偏差，并与未处理的SUV数据的偏差进行比较。此外,平均绝对比kinetic-to-SUV contrast-to-noise比率(CNR)估计为每一个组织结构,以及相应的标准差。结果PET KinetiX生成的Ki和vb参数图忠实地再现了Patlak和2TCM模型的XCAT数字幻影的预定义多组织结构。图像清晰度受到4D-PET输入数据的影响：迭代次数越多，图像呈现越清晰，PET信号特征标准差越大。与未处理的SUV数据类似，与组织结构和硬件配置相关的基本事实偏差也各不相同。在大多数组织结构中，对于SAFOV和LAFOV构型，Patlak动力学- suv CNR比都超过1。在肿瘤区域内的2TCM k₃图中观察到最高的动力学与suv CNR比。pet KinetiX目前生成的Ki和vb参数图在质量上与未处理的SUV数据相当，在大多数情况下具有改进的CNR。肿瘤结构的2TCM k₃参数图显示出最高的CNR增强，保证了在不同解剖区域和放射性示踪剂应用的进一步评估。

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来源期刊

European Journal of Nuclear Medicine and Molecular Imaging 医学-核医学

CiteScore

15.60

自引率

9.90%

发文量

392

审稿时长

3 months

期刊介绍： The European Journal of Nuclear Medicine and Molecular Imaging serves as a platform for the exchange of clinical and scientific information within nuclear medicine and related professions. It welcomes international submissions from professionals involved in the functional, metabolic, and molecular investigation of diseases. The journal's coverage spans physics, dosimetry, radiation biology, radiochemistry, and pharmacy, providing high-quality peer review by experts in the field. Known for highly cited and downloaded articles, it ensures global visibility for research work and is part of the EJNMMI journal family.