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首页> 外文期刊>Medical Physics >Impact of PET PET / CT CT system, reconstruction protocol, data analysis method, and repositioning on PET PET / CT CT precision: An experimental evaluation using an oncology and brain phantom
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Impact of PET PET / CT CT system, reconstruction protocol, data analysis method, and repositioning on PET PET / CT CT precision: An experimental evaluation using an oncology and brain phantom

机译:PET PET / CT CT系统,重建协议,数据分析方法和重新定位对PET PET / CT CT精度的影响:使用肿瘤和脑幻影的实验评估

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Purpose In longitudinal oncological and brain PET / CT studies, it is important to understand the repeatability of quantitative PET metrics in order to assess change in tracer uptake. The present studies were performed in order to assess precision as function of PET / CT system, reconstruction protocol, analysis method, scan duration (or image noise), and repositioning in the field of view. Methods Multiple (repeated) scans have been performed using a NEMA image quality ( IQ ) phantom and a 3D Hoffman brain phantom filled with 18 F solutions on two systems. Studies were performed with and without randomly (?2?cm) repositioning the phantom and all scans (12 replicates for IQ phantom and 10 replicates for Hoffman brain phantom) were performed at equal count statistics. For the NEMA IQ phantom, we studied the recovery coefficients ( RC ) of the maximum ( SUV max ), peak ( SUV peak ), and mean ( SUV mean ) uptake in each sphere as a function of experimental conditions (noise level, reconstruction settings, and phantom repositioning). For the 3D Hoffman phantom, the mean activity concentration was determined within several volumes of interest and activity recovery and its precision was studied as function of experimental conditions. Results The impact of phantom repositioning on RC precision was mainly seen on the Philips Ingenuity PET / CT , especially in the case of smaller spheres (?17?mm diameter, P? ?0.05). This effect was much smaller for the Siemens Biograph system. When exploring SUV max , SUV peak , or SUV mean of the spheres in the NEMA IQ phantom, it was observed that precision depended on phantom repositioning, reconstruction algorithm, and scan duration, with SUV max being most and SUV peak least sensitive to phantom repositioning. For the brain phantom, regional averaged SUV s were only minimally affected by phantom repositioning (?2?cm). Conclusion The precision of quantitative PET metrics depends on the combination of reconstruction protocol, data analysis methods and scan duration (scan statistics). Moreover, precision was also affected by phantom repositioning but its impact depended on the data analysis method in combination with the reconstructed voxel size (tissue fraction effect). This study suggests that for oncological PET studies the use of SUV peak may be preferred over SUV max because SUV peak is less sensitive to patient repositioning/tumor sampling.
机译:目的在纵向肿瘤和脑PET / CT研究中,了解定量宠物指标的可重复性是重要的,以评估示踪剂的变化。进行本研究以评估PET / CT系统功能,重建协议,分析方法,扫描持续时间(或图像噪声)的功能,以及在视野中重新定位。方法使用NEMA图像质量(IQ)幻像和3D Hoffman脑幻影在两个系统上填充18 f解决方案的3D霍夫曼脑幻影进行了多次(重复)扫描。在相等计数统计中进行幻影和所有扫描(12. XMANTOM和10个ROFFMAN脑幻影的IQ幻影重复)进行研究,在没有随机的(&Δ2≤cm)进行研究。对于NEMA IQ幻影,我们研究了最大(SUV MAX),峰值(SUV峰)的恢复系数(RC),以及每个球体中的平均值(SUV均值)摄取,作为实验条件的函数(噪声水平,重建设置和幻影重新定位)。对于3D Hoffman Phantom,在几体积的兴趣和活性回收率中确定平均活动浓度,并且在实验条件的功能中研究了其精度。结果飞利浦智能化PET / CT,特别是在较小球体的情况下,幻影重新定位对RC精度的影响,特别是在较小的球体的情况下(&17Ωmm,p≤≤0.05)。这种效果对于西门子的传记系统更小。在NEMA IQ幻影中探索球阀的SUV MAX,SUV峰值或SUV平均值时,观察到精度依赖于幻影重新定位,重建算法和扫描持续时间,SUV MAX对Phantom重新定位最不敏感。对于脑幻影,区域平均SCV S仅受限于虚线重新定位的影响(& 2?cm)。结论定量宠物指标的精度取决于重建协议,数据分析方法和扫描持续时间(扫描统计)的组合。此外,精度也受到幽灵重新定位的影响,但其冲击依赖于数据分析方法与重建的体素尺寸(组织分数效应)相结合。该研究表明,对于肿瘤宠物研究,SUV峰值的使用可能优于SUV Max,因为SUV峰对患者重新定位/肿瘤采样的敏感性。

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